genetic engineering essay prompt

Genetic Engineering Essay Guide With 70 Hot Topics

Genetic engineering has been a subject of heated debate. You will find many essays on genetic engineering, asking you to debate for or against, discuss its ethical implications, or emerging congenital disease.

With all these at hand, you may be tempted to opt-out immediately. However, this top-notch guide seeks to make genetics essay writing as fun and as straightforward as possible. Ride along to see the magic!

What Is An Essay on Genetic Engineering?

Now, genetic engineering in itself is the use of biotechnology to manipulate an organism’s genes directly. Therefore, essays on genetics will require students to explore the set of technologies used to change cells’ genetic makeup. These include the transfer of genes within and across species boundaries to produce novel or improved organisms.

We have various areas of genetic engineering, such as:

Human genetic engineering definition: Deals with genetic engineering techniques applied to humans
Genetic engineering in plants: Concentrates on genetically modified plant species

Genetic engineering is mostly applied in medicine and thus its technicality. I know this is a field that most students approach with reverence and uttermost humility. Nonetheless, it doesn’t have to be that way. The next few lines might change your opinion on genetic engineering forever!

Why is genetic engineering necessary?

Importance of Genetic Engineering

It is essential in the following ways:

Ensures that seed companies can protect modified seed varieties as intellectual property.
Leads to production o organisms with better traits
Helps maintain the ecosystem

You can see why this field is unavoidable regardless of the negative talk behind it.

Genetically Engineering Plants and Animals – Essay Sample

Young in practice, a little over forty years old, genetic engineering has provided the scientific community with an abundance of knowledge once thought absurd. Genetic engineering means deliberately changing the genome of an organism to acquire some desired traits during its cultivation. On the whole, genetic engineering has a multitude of advantages and disadvantages when it comes to using it on animals and plants; the most prominent advantages include disease resistance, increased crop yields, and a decrease in need for pesticides and antibiotics, whereas disadvantages include the potential for emergence of stronger pathogens, as well as various unexpected consequences. This current paper discusses the pros and cons of using genetic engineering on plants, animals, and provides a synthesis, arguing that, despite its disadvantages, it still serves as a pivotal advantage not only within the scientific community, but also society.

The Advantages of Using Genetic Engineering

The impact of genetic engineering on society can be seen at various aspects, affecting various aspects of social and physical organic life, especially in terms of human beings. The practice consists of the specific selection and removal of genes from organic organisms and inserting them into another. The practice, though still young in practice and not yet deemed completely socially acceptable, makes the possibility of curing diseases once thought incurable a reality, thereby inherently improving the life of both humans and non-human animals. It has many positive effects on society, an example being in Uganda bananas, a main source of caloric intake, are susceptible to the emergence of new diseases that affects their production because of the disease’s potency. Ugandan scientists have successfully used a genetic modification, inserting a pepper gene into bananas, which prevents the fruit from getting the disease (Bohanec, 2015). Furthermore, through genetic engineering, tissue, skin cells, and other forms of organic matter can be grown and used in replacing damaged, worn, or malfunctioning organs and tissues thereby prolonging human life and benefiting their quality of life. The practice helps better advance both the scientific and medical field, both of which are essential in discovering how to better life on Earth.

Genetic engineering, as previously mentioned, can be used to grow and replace damaged tissue or organs, aiding in the betterment and prolonging of human life; it can cure diseases once though incurable, an example being AIDS and cancer. Millions of people around the world suffer from AIDS and cancer, both posing a severe risk to the overall health of the person. More than 900,000 lives were taken by AIDS in 2017 (UNAIDS, 2018). Similarly, over 600,000 were taken by cancer in the following year (NIH, 2018). Genetic engineering makes the possibility of eradicating these diseases a reality. In theory, genetic engineering can help those who suffer from these diseases live longer, healthier, fuller lives by eradicating the disease in its entirety. Though it would not be an easy feat, nor a cheap one, it could still help further advance and better human life and prolong the human life span. People would no longer live in fear of dying from these prolific diseases. Furthermore, genetic engineering, despite the naysayers and opposers of the practice, is another step in organic evolution. From plants to animals, the practice has the chance to achieve strides within scientific history that can greatly benefit the planet in its entirety. From eliminating hunger, to eradicating once prolific diseases, genetic engineering can provide a better, longer, and higher quality of life and tackle bounds once thought impossible the scientific community.

Genetically engineered plants and animals may provide a wide array of benefits that might be pivotal for humanity in the modern world. These benefits include the possibility of developing such plant cultivars that would be resistant to a wide variety of pathogens and diseases caused by microorganisms such as viruses (Ginn, Alexander, Edelstein, Abedi, & Wixon, 2013). If such plant cultivars are created, it might become unnecessary to use chemicals in order to battle these plant diseases. This is clearly a major benefit, since it means better preserving the natural environment and avoiding the use of chemicals that may contaminate soils and waters, as well as kill wildlife.

The Disadvantages of Using Genetic Engineering

The use of genetic engineering to alter plants and animals used in agriculture and husbandry may also have a variety of adverse consequences. For instance, it should be noted that high rates of resistance to disease might have a serious flip side. More specifically, the pathogenic microorganisms (such as bacteria and viruses) can usually mutate quickly in order to adapt to the new conditions. This means that if new cultivars or breeds of plants or animals with high resistance to diseases are created, the pathogens may adapt to these changes in their “hosts” and turn stronger, thus becoming capable of infecting the new cultivars or breeds (Ayres, n.d.). This might again necessitate the use of chemicals or antibiotics; only now stronger drugs or pesticides would be needed. In addition, the old cultivars or breeds may also become infected by the new microorganism strains, and these strains will probably cause more severe diseases in the “original” plants and animals and will be more difficult to cure or prevent.

Another negative possibility is accidentally creating some invasive species that may harm the local ecosystems. For instance, if new plants are made in such a manner that the local species of animals cannot eat them, and then humans lose control over their growth, the new plants may pose a danger to the original plants growing in the given ecosystem, therefore disrupting the ecosystem. For example, in 1984 a patch of seaweed labelled as Caulerpa taxifolia was bred with another robust strain of seaweed identified by scientists as Caulerpa taxifolia (Vahl) C. Agandh . The initial objective was to breed an aquarium plant, however, after a sample escaped in 1984 into the Mediterranean Sea, being found off the coast of both the United States and Australia in 2000, it was found that the strain’s taste was subpar to marine wild life. It was eventually poisoned by the California state government to avoid further damage to marine life and the marine ecosystem and was consequently outlawed by hundreds of countries. The World Conservation Union named it one of the 100 World’s Worst Invasive Alien Species, despite it being manmade (Cellania, 2008).

Finally, there is always the risk of “going too far” when practicing genetic engineering (Bruce & Bruce, 2013). Indeed, it should be noted that the humanity has used various methods of cultivation for millennia in order to breed for specific traits. For example, in 1956, Warwick Kerr, a Brazilian geneticist, imported an aggressive breed of African honeybee to breed with a European species to aid in the decreasing bee population epidemic. Provoked by even the smallest of instigation, after over 26 swarms of the aggressive bee escaped from the apiary in Sao Paulo, they wreaked havoc in North and South America, found in the United States in the early 90s. Nevertheless, genetic engineering is a fast and radical method to change organisms, and very little, if any, data is available to predict the potential adverse impacts of its utilization. It may be difficult to tell when (if at any point) one must stop the process of genetic engineering to avoid unexpected adverse influences of its utilization.

Genetic engineering, despite its disadvantages, can help progress humanity in ways that once seemed impossible. With the environmental and physical epidemics surrounding the planet, the practice can serve as a benefit to resolving the hunger crisis, the preservation of endangered plant and animal species, bringing certain species back from extinction, and so much more. It should be stressed that the utilization of biotechnology and genetic engineering may bring a wide array of significant benefits, which may be of great use to the humanity nowadays. The creation of breeds and cultivars which are immune to disease, resistant to harsh environmental conditions, are cheap to grow, and provide better nutritional value for people might be extremely helpful in reducing the amount of chemicals, pesticides, and antibiotics needed to grow these animals or plants, and, consequently, to help preserve the environment. However, it should also be remembered that genetic engineering might have a wide array of adverse impacts, such as the emergence of new, stronger pathogens, the creation of invasive species, and a multitude of negative consequences that no one knew to expect.

Genetic Engineering Essay Structure

A top-rated genetic engineering essay comes in the manner outlined below:

Genetic engineering essay introduction: Provide context for your paper by giving a well-researched background on the subject of discussion. Include the thesis statement which will provide the direction of your writing.
Body: Discuss the main points in detail with relevant examples and evidence from authentic and reliable sources. You can use diagrams or illustrations to support your argument if need be.
Genetic engineering conclusion: Finalize your paper with a summative statement and a restatement of the thesis statement while showing the genetic engineering process’s implication. Does it add any value to society?

Armed with this great treasure of knowledge, you are good to begin writing your paper. However, we have quality genetic engineering essay topics from expert writers to start you off:

Interesting Genetic Engineering Persuasive Essay Topics

How human curiosity has led to new advancements and technologies in genetics
History of genetically modified food
Discuss the process of genetic engineering in crops
Evaluate the acceptance of genetically modified crops worldwide
Analyze the leading countries implementing genetic engineering
Does genetic engineering produce a desired characteristic?
What are the legal implications of genetic engineering
The role of scientists in making the world a better place
Why coronavirus is a game-changer in the field of genetic engineering
The effectiveness of genetic engineering as a course in college

Great Topics on the Disadvantages of Genetic Engineering in Humans

Why changing the sequence of nucleotides of the DNA affects human code structure
Impact of genetic engineering human lifespans
Genetic engineering and population control
Ethical questions to consider in human genetic engineering
Unintended side effects on humans
Increasing the risk of allergies
The foundation of new weapon technologies
Disadvantages of trait selection before birth
The greater risk of stillbirth
Why ladies are at risk with genetic engineering

Why is Genetic Engineering Good Essay Topics

Genetic engineering and disease prevention
The creation of a healthy and better society
Production of drought-resistant crops
Crop pollen spreads further than expected
Survival of human species
Birth of healthy children with desirable traits
Solving food insecurity problems globally
Elimination of fertility issues for couples
Medical advancements as a result of genetic engineering
Reducing the prevalence of schizophrenia and depression

Good Genetic Engineering Topics

The development of genetic engineering in the modern world
Application of ethics in genetic engineering
Societal class versus genetic engineering
Impact of genetic engineering on natural selection and adaptation
Detection of toxins from GMO foods
Social effects of genetic engineering
Why people are becoming increasingly resistant to antibiotics
How gene editing affects the human germline
Medical treatment opportunities in genetic engineering
The relationship between molecular cloning and genetic engineering

Impressive Genetic Engineering Research Paper Topics

Impact of genetic engineering on food supply
The taste of GMO food versus ordinary food
GMOs and their need for environmental resources
Why genetic engineering may face out the use of pesticides
Reduced cost of living and longer shelf life.
Growth rates of plants and animals
Application of genetic engineering on soil bacteria
New allergens in the food supply
Production of new toxins
Enhancement of the environment for toxic fungi

Latest Genetic Engineering Ideas

The discovery of vaccines through genetic engineering
Biological warfare on the rise
Change in herbicide use patterns
Mutation effects in plants and animals
Impact of gene therapies
Does genetic engineering always lead to the desired phenotype?
Genetic engineering in mass insulin production
Role of genetic engineering in human growth hormones
Treating infertility
Development of monoclonal antibodies

Pro and Cons of Genetic Engineering in Humans Topic Ideas

Possibility of increased economic inequality
Increased human suffering
The emergence of large-scale eugenic programmes
Rise of totalitarian control over human lives
The concentration of toxic metals in genetic engineering
Creation of animal models of human diseases
Using somatic gene therapy on Parkinson’s disease
Production of allergens in the food supply
Redesigning the world through genetic engineering
Bioterrorism: A study of the issue of emerging infectious diseases

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Home — Essay Samples — Science — Technology & Engineering — Genetic Engineering

Essays on Genetic Engineering

What makes a good genetic engineering essay topic.

When it comes to writing a captivating genetic engineering essay, the topic you choose is paramount. It not only grabs the reader's attention but also allows for effective exploration of the subject matter. So, how can you brainstorm and select a standout essay topic? Here are some recommendations:

Brainstorm: Kickstart your ideas by brainstorming topics related to genetic engineering. Consider the latest advancements, ethical concerns, controversial issues, or potential future applications. Jot down any ideas that come to mind.
Research: Once you have a list of potential topics, conduct thorough research to gather relevant information and understand different perspectives. This will help you evaluate the feasibility and depth of each topic.
Consider Interest: Choose a topic that genuinely piques your interest. Writing about something you are passionate about will make the entire process more enjoyable and motivate you to delve deeper into the subject matter.
Relevance: Ensure that the chosen topic is relevant to genetic engineering. It should align with the scope of the subject and allow you to explore various aspects related to it.
Uniqueness: Strive for a unique and imaginative topic that stands out from the ordinary. Steer clear of generic subjects and instead focus on specific areas or emerging trends within genetic engineering.
Controversy: Controversial topics often generate more interest and discussion. Consider exploring ethical dilemmas, potential risks, or societal impacts of genetic engineering to add a thought-provoking element to your essay.
Depth and Scope: Assess the depth and scope of each topic. Make sure it provides enough material for a comprehensive essay without being too broad or too narrow.
Audience Appeal: Keep your target audience in mind. Choose a topic that would captivate readers, whether they are experts in the field or individuals with limited knowledge about genetic engineering.
Originality: Strive for originality in your topic selection. Look for unique angles, lesser-known areas, or innovative applications of genetic engineering that can make your essay stand out.
Personal Connection: If possible, choose a topic that connects with your personal experiences or future aspirations. This will enhance your engagement and make your essay more meaningful.

Igniting Thought: The Finest Genetic Engineering Essay Topics

Below are some of the most captivating genetic engineering essay topics to consider:

Genetic Engineering and the Future of Human Evolution
The Ethical Dilemmas of Designer Babies
Genetic Engineering in Agriculture: Balancing Benefits and Concerns
CRISPR-Cas9: Unleashing Revolutionary Potential in Genetic Engineering
The Potential of Genetic Engineering in Cancer Treatment
Genetic Engineering's Role in Creating Sustainable Food Sources
Genetic Engineering and Animal Welfare: Navigating Ethical Considerations
Genetic Engineering and its Impact on Biodiversity
The Social and Economic Implications of Genetic Engineering
Genetic Engineering's Influence on Human Longevity
Enhancing Athletic Performance: The Power of Genetic Engineering
Genetic Engineering Techniques for Disease Prevention and Treatment
Genetic Engineering's Role in Environmental Conservation
Genetic Engineering and the Preservation of Endangered Species
The Psychological and Societal Effects of Genetic Engineering
The Pros and Cons of Genetic Engineering for Non-Medical Purposes
Exploring the Potential Risks and Benefits of Genetic Engineering in Space Exploration
Genetic Engineering and the Creation of Biofuels
The Morality of Genetic Engineering: Insights from Religious and Philosophical Perspectives
Genetic Engineering's Role in Combating Climate Change

Thought-Provoking Genetic Engineering Essay Questions

Consider these stimulating questions for your genetic engineering essay:

How does genetic engineering impact the concept of natural selection?
What are the potential consequences of genetic engineering on human genetic diversity?
Is it ethically justifiable to use genetic engineering for cosmetic purposes?
How does genetic engineering contribute to the development of personalized medicine?
What are the social implications of genetically modifying animals for human consumption?
How does the use of genetic engineering in agriculture affect food security?
Should genetic engineering be used to resurrect extinct species?
What are the potential risks and benefits of genetically modifying viruses for medical purposes?
How does genetic engineering influence the balance between individual rights and societal well-being?
Can genetic engineering be the solution to eradicating genetic diseases?

Provocative Genetic Engineering Essay Prompts

Here are some imaginative and engaging prompts for your genetic engineering essay:

Imagine a world where genetic engineering has eliminated all hereditary diseases. Discuss the potential benefits and drawbacks of such a scenario.
You have been granted the ability to genetically engineer one aspect of yourself. What would you choose and why?
Write a fictional story set in a future where genetic engineering is widespread and explore the consequences it has on society.
Reflect on the ethical considerations of genetically modifying animals for entertainment purposes, such as creating glow-in-the-dark pets.
Create a persuasive argument for or against the use of genetic engineering in enhancing human intelligence.

Answering Your Genetic Engineering Essay Queries

Q: Can I write about the history of genetic engineering?

A: Absolutely! Exploring the historical context of genetic engineering can provide valuable insights and set the foundation for your essay.

Q: How can I make my genetic engineering essay engaging for readers with limited scientific knowledge?

A: Simplify complex concepts and terminologies, provide relevant examples, and use relatable analogies to help readers grasp the information more easily.

Q: Can I express my personal opinion in a genetic engineering essay?

A: Yes, expressing your personal opinion is encouraged as long as you support it with logical reasoning and evidence from reputable sources.

Q: Are there any potential risks associated with genetic engineering that I should discuss in my essay?

A: Yes, incorporating a discussion on the potential risks and ethical concerns surrounding genetic engineering is essential to provide a balanced perspective.

Q: Can I include interviews or case studies in my genetic engineering essay?

A: Absolutely! Interviews or case studies can add depth and real-life examples to support your arguments and make your essay more compelling.

Remember, when writing your genetic engineering essay, let your creativity shine through while maintaining a formal and engaging tone.

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Positional Cloning of Genetic Disorders

Engineering american society: the lesson of eugenics, bioethical issues related to genetic engineering, cloning and ethical controversies related to it, genetic editing as a possibility of same-sex parents to have children, adhering to natural processes retains the integrity of a natural human race , genetically modified organisms: soybeans, gene silencing to produce milk with reduced blg proteins, the role of crispr-cas9 gene drive in mosquitoes, the life of gregor mendel and his contributions to science, eugenics, its history and modern development, morphological operation hsv color space tree detetction, cytogenetics: analysis of comparative genomic hybridization and its implications, genetically engineered eucalyptus tree and crispr, review of the process of dna extraction, review of the features of the process of cloning, heterologous gene expression as an approach for fungal secondary metabolite discovery, review of the genetic algorithm searches, genetic engineering: clustered regularly interspaced short palindromic repeats, crispr technology - the potential tool for curing huntington’s disease.

Genetic engineering (also called genetic modification) is a process that uses laboratory-based technologies to alter the DNA makeup of an organism.

Genetic engineering as the direct manipulation of DNA by humans outside breeding and mutations has only existed since the 1970s. In 1972, Paul Berg created the first recombinant DNA molecules by combining DNA from the monkey virus SV40 with that of the lambda virus. The first field trials of genetically engineered plants occurred in France and the US in 1986, tobacco plants were engineered to be resistant to herbicides.

It is a set of technologies used to change the genetic makeup of cells, including the transfer of genes within and across species boundaries to produce improved or novel organisms. New DNA is obtained by either isolating and copying the genetic material of interest using recombinant DNA methods or by artificially synthesising the DNA. Used in research and industry, genetic engineering has been applied to the production of cancer therapies, brewing yeasts, genetically modified plants and livestock, and more.

Relevant topics

Engineering
Mathematics in Everyday Life
Natural Selection
Space Exploration
Stephen Hawking
Charles Darwin

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115 Genetics Essay Topic Ideas & Examples

Inside This Article

Genetics is a fascinating and complex field of study that explores the inheritance and variation of traits in living organisms. From the discovery of DNA to the mapping of the human genome, genetics has revolutionized our understanding of how traits are passed down from one generation to the next.

If you are a student studying genetics, you may be tasked with writing an essay on a specific topic related to genetics. To help you get started, here are 115 genetics essay topic ideas and examples to inspire your writing:

The impact of genetic engineering on agriculture
The ethics of genetic manipulation in humans
The role of genetics in determining intelligence
Genetic disorders: causes and treatments
The genetics of cancer
The genetics of addiction
Genetic testing in newborns: benefits and risks
The genetics of aging
The genetic basis of mental illness
The role of genetics in personality traits
The genetics of obesity
The genetics of heart disease
Genetic testing for hereditary diseases
The genetics of skin color
The genetics of eye color
Genetic diversity in human populations
The genetics of hair loss
The genetics of height
The genetics of blood type
The genetics of taste preferences
The genetics of athletic performance
The genetics of hair texture
The genetics of lactose intolerance
The genetics of drug metabolism
The genetics of alcoholism
The genetics of diabetes
The genetics of Alzheimer's disease
The genetics of schizophrenia
The genetics of bipolar disorder
The genetics of autism
The genetics of ADHD
The genetics of dyslexia
The genetics of Down syndrome
The genetics of Turner syndrome
The genetics of Klinefelter syndrome
The genetics of cystic fibrosis
The genetics of sickle cell anemia
The genetics of hemophilia
The genetics of Huntington's disease
The genetics of Parkinson's disease
The genetics of ALS
The genetics of muscular dystrophy
The genetics of color blindness
The genetics of hemochromatosis
The genetics of Marfan syndrome
The genetics of Tay-Sachs disease
The genetics of PKU
The genetics of Angelman syndrome
The genetics of Prader-Willi syndrome
The genetics of Rett syndrome
The genetics of Fragile X syndrome
The genetics of Williams syndrome
The genetics of Cri-du-chat syndrome
The genetics of Patau syndrome
The genetics of Edwards syndrome
The genetics of Beckwith-Wiedemann syndrome
The genetics of Prune Belly syndrome
The genetics of Jacobs syndrome
The genetics of Triple X syndrome
The genetics of XYY syndrome
The genetics of Wolf-Hirschhorn syndrome
The genetics of Rubinstein-Taybi syndrome
The genetics of Cornelia de Lange syndrome
The genetics of Smith-Magenis syndrome
The genetics of DiGeorge syndrome
The genetics of Velocardiofacial syndrome
The genetics of Duchenne muscular dystrophy
The genetics of Becker muscular dystrophy
The genetics of Myotonic dystrophy
The genetics of Facioscapulohumeral muscular dystrophy
The genetics of Oculopharyngeal muscular dystrophy
The genetics of Limb-girdle muscular dystrophy
The genetics of Emery-Dreifuss muscular dystrophy
The genetics of Charcot-Marie-Tooth disease
The genetics of Spinal muscular atrophy
The genetics of Friedreich's ataxia
The genetics of Ataxia telangiectasia
The genetics of Niemann-Pick disease
The genetics of Gaucher disease
The genetics of Fabry disease
The genetics of Pompe disease
The genetics of Hurler syndrome
The genetics of Hunter syndrome
The genetics of Sanfilippo syndrome
The genetics of Morquio syndrome
The genetics of Maroteaux-L

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60 Interesting Genetic Engineering Topics for Your Next Research Paper

Genetics engineering is one of the popular areas of study today. The discipline was discovered back in 1850 and seeks to analyze the systems of heredity and genes in different species. Therefore, when your professor gives you assignments prompts, it is important to start by picking the right genetics topics for research papers.

However, many students find selecting the best genetics project ideas difficult. So, if you find yourself staring at a blank page for hours, you are not alone. But we are here to help!

To get you started on the right path, we have listed 60 hot genetic engineering topics for your research paper. Furthermore, we have provided you with pro tips for crafting A-rated research papers.

The Best Molecular Genetics Topic Ideas

Stem cells: What are their potential and shortcomings?
A closer look at the genome evolution.
The molecular techniques of analyzing DNA and RNA.
Evaluating the power of mutagenesis.
DNA as an agent of heredity: A comprehensive analysis.
Bacteria and genetics.
Genetics: How does it increase the risk of cancer?
Contemporary issues in genetic engineering public policy.
Molecular cancer genetics: What are the latest advances?

Interesting Genetics Topics

What are the main applications of genetics today?
Discuss the main causes of genetic mutations.
What is the link between genetics and obesity?
RNA information.
Do we have living cells in genes? Explain.
Explain the role of genetics in the fight against Alhzeimer’s disease.
An evaluation of genes replacement with artificial chromosomes.
Genetics and depression: Are they linked?
What are the impacts of genetics on future generations?
What is the link between Parkinson’s disease and genetics?
Can DNA changes help to beat aging?
Discuss the morality of growing human organs.
Genetics and homosexuality: Are they linked?
A closer look at the history of human cloning.
How do addictive substances impact our genes?

Hot Topics on Genetics Engineering

Are genetically modified foods safe for human consumption?
Analyzing the philosophical issues of genetic engineering.
Should the US government invest in genetic engineering?
Impact of social media on genetically modified organisms discussions.
Should using genetically modified foods to fight hunger be allowed?
Comparing the genetic engineering policies of the US and UK.
Cloning pets: Is it ethically right?
Does cloning increase or limit biological diversity?
The comprehensive analysis of the 2001 George W. Bush speech on cloning.
Discuss the five main ethical dilemmas of genetic cloning.
Whole-genome sequencing.
Evaluating the top three gene-editing technologies.
How does human microbiome work in preventing diseases?
Genomic hybridization for enhanced fruits production.
A closer look at CCR5 Delta 32 Genetic Mutation.
The pros and cons of studies on biological dark matter.
Biotic mutation for enhanced bone density.
Using genetic mutation to eliminate sickle cell anemia.
How does IVF help to prevent babies from inheriting genetic defects?
Using genetic engineering to address the problem of genetic engineering.
What is the future of cloning?

Special Tips for Writing a Great Research Paper

Once you have selected the preferred genetics topic for research papers, your journey to creating an A-rated paper has just started. Here are some useful tips to help you craft the best research paper on genetic engineering.

Research on your selected topic comprehensively. This will help you to develop the right research questions and identify key points to discuss on the paper. Make sure to also capture the counter-arguments on the selected topic.
Develop a good paper structure. Once you have picked the best research ideas, you need to craft a good structure so that the paper looks coherent and enjoyable to read. The format will help you to know what point to discuss at any part of the paper.
Make sure to read other genetic engineering research papers to understand how experts did it. Here, you can borrow the structure and enrich your arguments from the discussions by other scholars.
Proofread your work well. Even if you have the best genetics research topics and a good paper, but fail to proofread it well, there is a danger of scoring poor grade. So, make sure to proofread your work well to identify and correct errors, incomplete sentences, and flow. You can ask a professional to proofread and edit your paper , to ensure that your work is mistake-free.

When you are faced with a genetic engineering assignment, it is important to look at it holistically. So, start by identifying the most interesting genetic topics and use a good structure to craft the best paper.

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Writing Prompts about Genetic Engineering

🗃️ Essay topics
❓ Research questions
📝 Topic sentences
🪝 Essay hooks
📑 Thesis statements
🔀 Hypothesis examples
🧐 Personal statements

🔗 References

🗃️ essay topics about genetic engineering.

The ethical implications of genetic engineering in humans.
The role of genetic engineering in agriculture and food production.
The impact of genetic engineering on biodiversity and ecological balance.
The use of genetic engineering in medicine and healthcare.
Genetic engineering and its implications for personalized medicine.
Genetically modified foods and environmental concerns.
Genetic engineering and its potential to cure genetic diseases.
The regulation and governance of genetic engineering technologies.
The social and cultural implications of genetic engineering.
The role of genetic engineering in combating climate change.
Genetic engineering and its applications in forensic science.
The role of genetic engineering in enhancing crop yield and food security.
Labeling of genetically modified organism foods.
Genetic engineering and the potential for creating new species.
The impact of genetic engineering on global health and disease prevention.
The role of genetic engineering in conservation and species preservation.
Genetic engineering and its potential to enhance human intelligence.
The legal and regulatory frameworks for genetic engineering.
Genetic engineering and its role in sustainable agriculture practices.
The cultural and philosophical implications of genetic engineering.
The role of genetic engineering in the future of space exploration.
Genetic engineering and its implications for social justice and equality.

❓ Genetic Engineering Essay Questions

What are the potential benefits and risks of genetic engineering in humans?
How does genetic engineering impact agricultural practices and crop production?
What are the ethical considerations surrounding genetic engineering in medical research?
How can genetic engineering be used to address genetic diseases and disorders?
How does genetic engineering contribute to the development of new pharmaceutical drugs?
What are the long-term effects of genetic engineering on biodiversity?
How can genetic engineering be used to improve food security in developing countries?
What are the regulatory frameworks and policies governing genetic engineering practices?
What are the economic implications of genetic engineering in industry and agriculture?
How does genetic engineering contribute to the development of personalized medicine?
What are the current advancements and limitations in genetic engineering techniques?
How does genetic engineering affect the interaction between humans and the natural environment?
What are the social and ethical implications of using genetic engineering for human enhancement?
How does genetic engineering impact the global healthcare system and access to medical treatments?
What are the public attitudes and perceptions towards genetic engineering and GMOs?

📝 Topic Sentences on Genetic Engineering

Genetic engineering, a powerful technology that involves manipulating the DNA of organisms, has revolutionized the fields of medicine and healthcare.
The application of genetic engineering in agriculture has sparked debates about its impact on food safety, biodiversity, and sustainability.
The ethical considerations surrounding genetic engineering in humans raise complex questions about the boundaries of science, morality, and human rights.

🪝 Best Hooks for Genetic Engineering Paper

📍 anecdotal hooks for essay about genetic engineering.

Did you hear about the genetically modified tomato that went to therapy? It couldn’t ketchup with its emotions! While genetic engineering may have its serious side, let’s explore the lighter side of this scientific practice and uncover some amusing tales of modified organisms and quirky experiments.
Why did the scarecrow refuse to eat genetically modified corn? It said, “I’m all for natural selection, but I draw the line at Frankencrops!” While genetic engineering may raise eyebrows, let’s dive into the peculiar and humorous world of manipulating DNA and see if we can find some laughs amidst the science.

📍 Definition Hooks for Essay on Genetic Engineering

Genetic engineering, also known as genetic modification or gene editing, refers to the deliberate manipulation of an organism’s genetic material to introduce specific traits or characteristics. It involves the alteration of DNA sequences, allowing scientists to modify living organisms in ways that were previously unimaginable.
Genetic engineering is a revolutionary scientific practice that involves the direct manipulation of an organism’s genes to achieve desired traits or outcomes. Through techniques such as gene splicing and genome editing, scientists can modify the genetic makeup of plants, animals, and even humans, opening up possibilities for advancements in medicine, agriculture, and other fields.

📍 Statistical Hooks on Genetic Engineering for Essay

According to a recent study, the adoption of genetic engineering in agriculture has led to a significant increase in crop yields by up to 30% compared to conventional methods. These statistical findings highlight the potential of genetic engineering to address global food security challenges.
A survey conducted among healthcare professionals revealed that over 80% believe genetic engineering holds great promise in the field of medicine, with potential breakthroughs in treating genetic disorders and developing personalized therapies. These statistics underscore the growing recognition of genetic engineering’s transformative impact on healthcare.

📍 Question Hooks on Genetic Engineering

What are the ethical implications of genetic engineering, and how do they intersect with issues of consent, privacy, and human rights in the context of manipulating genetic information and altering the fundamental building blocks of life?
How has genetic engineering revolutionized the field of medicine and what are the potential benefits and risks associated with its application in areas such as gene therapy, genetically modified organisms, and personalized medicine?

📑 Good Genetic Engineering Thesis Statements

✔️ argumentative thesis about genetic engineering.

Advances in genetic engineering have sparked a contentious debate, with proponents arguing that it holds the potential to eradicate genetic diseases and enhance human capabilities, while opponents emphasize ethical concerns and potential unintended consequences, highlighting the need for responsible regulation and public discourse.
The rapid progress in genetic engineering raises crucial ethical and moral dilemmas. While proponents argue for its potential to cure genetic diseases and improve human health, opponents express concerns regarding the manipulation of nature, the potential for genetic discrimination, and the unforeseen consequences it may have on future generations.

✔️ Analytical Thesis on Genetic Engineering

Genetic engineering, as a scientific discipline, requires a critical analysis of its methods, outcomes, and implications. By examining the scientific principles, ethical considerations, and societal impacts, a deeper understanding of the benefits, limitations, and potential risks of genetic engineering can be achieved to inform responsible decision-making and policy development.
The analysis of genetic engineering encompasses an examination of its underlying scientific principles, ethical implications, and socio-economic impacts. By critically evaluating the advancements, limitations, and potential risks associated with genetic engineering, a comprehensive understanding can be gained, aiding in informed decision-making and responsible implementation.

✔️ Informative Thesis Examples on Genetic Engineering

Genetic engineering is a powerful tool that allows for the alteration of an organism’s genetic material, enabling advancements in medicine, agriculture, and environmental conservation. However, ethical considerations, potential risks, and regulatory frameworks must be carefully navigated to ensure the responsible and beneficial application of this technology.
Genetic engineering, a rapidly evolving field of biotechnology, offers immense potential in improving human health, enhance crop yields, and address environmental challenges. However, rigorous scientific research, ethical considerations, and robust regulatory frameworks are essential to harness its benefits while mitigating potential risks and ensuring public acceptance.

🔀 Genetic Engineering Hypothesis Examples

The use of genetic engineering in agriculture improves crop yield and enhances resistance to pests and diseases.
Genetic engineering techniques can be employed to develop more effective and targeted treatments for genetic disorders.

🔂 Null & Alternative Hypothesis about Genetic Engineering

Null hypothesis: Genetic engineering has no significant effect on crop yield or resistance to pests and diseases in agriculture.
Alternative hypothesis: Genetic engineering significantly improves crop yield and enhances resistance to pests and diseases in agriculture.

🧐 Examples of Personal Statement about Genetic Engineering

With a deep passion for biology and a keen interest in scientific advancements, I am fascinated by the field of genetic engineering. The ability to manipulate and modify genetic material opens up endless possibilities for improving human health, addressing genetic diseases, and creating sustainable solutions. I am excited to be part of the future of genetic engineering, contributing to groundbreaking research and ethical practices that can positively impact society.
With a passion for genetics and a desire to make a positive impact on society, I am drawn to the field of genetic engineering. The ability to manipulate and modify genetic material presents opportunities for advancements in medicine, agriculture, and environmental sustainability. I am eager to learn and contribute to the scientific and ethical aspects of genetic engineering, with the goal of improving human health and addressing global challenges.
Organic agriculture versus genetic engineering
Genetic Engineering of Insects and Their Application
The Nature of Genetic Engineering and the Uses and Potential Abuses of Biotechnology
Designing Genetic Engineering Technologies For Human Values
Genetic Engineering: the unnatural argument

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Essays on Genetic Engineering

Faq about genetic engineering.

204 Genetics Research Topics & Essay Questions for College and High School

Genetics studies how genes and traits pass from generation to generation. It has practical applications in many areas, such as genetic engineering, gene therapy, gene editing, and genetic testing. If you’re looking for exciting genetics topics for presentation, you’re at the right place! Here are genetics research paper topics and ideas for different assignments.

🧬 TOP 7 Genetics Topics for Presentation 2024

🏆 best genetics essay topics, ❓ genetics research questions, 👍 good genetics research topics & essay examples, 🌟 cool genetics topics for presentation, 🌶️ hot genetics topics to write about, 🔎 current genetic research topics, 🎓 most interesting genetics topics.

Advantages and Disadvantages of Genetic Testing
The Importance of Heredity and Genetics
Genetically Modified Pineapples and Their Benefits
Genetic and Environmental Factors Causing Alcoholism and Effects of Alcohol Abuse
Cause and Effect of Genetically Modified Food
Should Parents Have the Right to Choose Their Children Based on Genetics?
Link Between Obesity and Genetics
Genetic and Environmental Impacts on Teaching Work If students do not adopt learning materials and the fundamentals of the curriculum well, this is a reason for reviewing the current educational regimen.
Simulating the Natural Selection and Genetic Drift This lab was aimed at simulating the natural selection and genetic drift as well as predicting their frequency of evolution change.
The Potential Benefits of Genetic Engineering Genetic engineering is a new step in the development of the humans’ knowledge about the nature that has a lot of advantages for people in spite of its controversial character.
Genetic and Social Behavioral Learning Theories Learning and behavioral habits in human beings can be influenced by social, environmental and genetic factors. Genetic theory describes how genes help in shaping human behaviors.
Family Pedigree, Human Traits, and Genetic Testing Genetic testing allows couples to define any severe genes in eight-cell embryos and might avoid implanting the highest risk-rated ones.
Genetics of Developmental Disabilities The aim of the essay is to explore the genetic causes of DDs, especially dyslexia, and the effectiveness of DNA modification in the treatment of these disorders.
Genetic Counseling for Cystic Fibrosis Some of the inherited genes may predispose individuals to specific health conditions like cystic fibrosis, among other inheritable diseases.
DNA and the Birth of Molecular Genetics Molecular genetics is critical in studying traits that are passed through generations. The paper analyzes the role of DNA to provide an ample understanding of molecular genetics.
Ban on Genetically Modified Foods Genetically modified (GM) foods are those that are produced with the help of genetic engineering. Such foods are created from organisms with changed DNA.
Technology of Synthesis of Genetically Modified Insulin The work summarizes the technology for obtaining genetically modified insulin by manipulating the E. coli genome.
Advantages of Using Genetically Modified Foods Genetic modifications of traditional crops have allowed the expansion of agricultural land in areas with adverse conditions.
GMO Use in Brazil and Other Countries The introduction of biotechnology into food production was a milestone. Brazil is one of the countries that are increasingly using GMOs for food production.
Genetically Modified Food Safety and Benefits Today’s world faces a problem of the shortage of food supplies to feed its growing population. The adoption of GM foods can solve the problem of food shortage in several ways.
Genetic Engineering: Dangers and Opportunities Genetic engineering can be defined as: “An artificial modification of the genetic code of an organism. It changes radically the physical nature of the being in question.
Genetic Modifications: Advantages and Disadvantages Genetic modifications of fruits and vegetables played an important role in the improvement process of crops and their disease resistance, yields, eating quality and shelf life.
Convergent Evolution, Genetics and Related Structures This paper discusses the concept of convergent evolution and related structures. Convergent evolution describes the emergence of analogous or similar traits in different species.
Type 1 Diabetes in Children: Genetic and Environmental Factors The prevalence rate of type 1 diabetes in children raises the question of the role of genetic and environmental factors in the increasing cases of this illness.
Human Genetics: Multifactorial Traits This essay states that multifactorial traits in human beings are essential for distinguishing individual characteristics in a population.
Decision Tree Analysis and Genetic Algorithm Methods Application in Healthcare The paper investigates the application of such methods of data mining as decision tree analysis and genetic algorithm in the healthcare setting.
Genetic Counseling and Hypertension Risks This paper dwells upon the peculiarities of genetic counseling provided to people who are at risk of developing hypertension.
Genetically Modified Foods and Their Impact on Human Health Genetically modified food has become the subject of discussion. There are numerous benefits and risks tied to consumption of genetically modified foods.
Gene Transfer and Genetic Engineering Mechanisms This paper discusses gene transfer mechanisms and the different genetic engineering mechanisms. Gene transfer, a natural process, can cause variation in biological features.
Mendelian Genetics and Chlorophyll in Plants This paper investigates Mendelian genetics. This lab report will examine the importance of chlorophyll in plants using fast plants’ leaves and stems.
Genetically Modified Fish: The Threats and Benefits This article’s purpose is to evaluate possible harm and advantages of genetically modified fish. For example, the GM fish can increase farms’ yield.
Genetically Modified Foods: How Safe are they? This paper seeks to address the question of whether genetically modified plants meant for food production confer a threat to human health and the environment.
Darwin’s Theory of Evolution: Impact of Genetics New research proved that genetics are the driving force of evolution which causes the revision of some of Darwin’s discoveries.
Genetic Diseases: Hemophilia This article focuses on a genetic disorder such as hemophilia: causes, symptoms, history, diagnosis, and treatment.
Cystic Fibrosis: Genetic Disorder Cystic fibrosis, also referred to as CF, is a genetic disorder that can affect the respiratory and digestive systems.
Literature Review: Acceptability of Genetic Engineering The risks and benefits of genetic engineering must be objectively evaluated so that modern community could have a better understanding of this problem
Genetic Engineering in Food and Freshwater Issues The technology of bioengineered foods, genetically modified, genetically engineered, or transgenic crops, will be an essential element in meeting the challenging population needs.
Genetic Engineering and Cloning Controversy Genetic engineering and cloning are the most controversial issues in modern science. The benefits of cloning are the possibility to treat incurable diseases and increase longevity.
How Much Do Genetics Affect Us?
What Can Livestock Breeders Learn From Conservation Genetics and Vice Versa?
How Do Genetics Affect Caffeine Tolerance?
How Dolly Sheep Changed Genetics Forever?
What Is the Nature and Function of Genetics?
What Are the Five Branches of Genetics?
How Does Genetics Affect the Achievement of Food Security?
Are Owls and Larks Different in Genetics When It Comes to Aggression?
How Do Neuroscience and Behavioral Genetics Improve Psychiatric Assessment?
How Does Genetics Influence Human Behavior?
What Are Three Common Genetics Disorders?
Can Genetics Cause Crime or Are We Presupposed?
What Are Examples of Genetics Influences?
How Do Genetics Influence Psychology?
What Traits Are Influenced by Genetics?
Why Tampering With Our Genetics Will Be Beneficial?
How Genetics and Environment Affect a Child’s Behaviors?
Which Country Is Best for Genetics Studies?
How Does the Environment Change Genetics?
Can Crop Models Identify Critical Gaps in Genetics, Environment, and Management Interactions?
How Can Drug Metabolism and Transporter Genetics Inform Psychotropic Prescribing?
Can You Change Your Genetics?
How Old Are European Genetics?
Will Benchtop Sequencers Resolve the Sequencing Trade-off in Plant Genetics?
What Can You Study in Genetics?
What Are Some Genetic Issues?
Does Genetics Matter for Disease-Related Stigma?
How Did the Drosophila Melanogaster Impact Genetics?
What Is a Genetics Specialist?
Will Genetics Destroy Sports?
Genetics and Autism Development Autism is associated with a person’s genetic makeup. This paper gives a detailed analysis of this condition and the role of genetics in its development.
Medical and Psychological Genetic Counseling Genetic counseling is defined as the process of helping people understand and adapt to the medical, psychological, and familial implications of genetic contributions to disease.
GMO: Some Peculiarities and Associated Concerns Genetically modified organisms are created through the insertion of genes of other species into their genetic codes.
The Perspectives of Genetic Engineering in Various Fields Genetic engineering can be discussed as having such potential benefits for the mankind as improvement of agricultural processes, environmental protection, resolution of the food problem.
Genetically Modified Organisms: Pros and Cons Genetically modified organisms are organisms that are created after combining DNA from a different species into an organism to come up with a transgenic organism.
Genetic Engineering: Gene Therapy The purpose of the present study is to discover just what benefits gene therapy might have to offer present and future generations.
Is ADHD Genetically Passed Down to Family Members? Genetic correlations between such qualities as hyperactivity and inattention allowed us to define ADHD as a spectrum disorder rather than a unitary one.
Alzheimer’s Disease: Genetic Risk and Ethical Considerations Alzheimer’s disease is a neurodegenerative disease that causes brain shrinkage and the death of brain cells. It is the most prevalent form of dementia.
Behavioral Genetics in “Harry Potter” Books The reverberations of the Theory of Behavioral Genetics permeate the Harry Potter book series, enabling to achieve the comprehension of characters and their behaviors.
Environmental Impact of Genetically Modified Crop In 1996, the commercial use of genetically modified (GM) crop production techniques had increasingly been accepted by many farmers.
Nutrition: Obesity Pandemic and Genetic Code The environment in which we access the food we consume has changed. Unhealthy foods are cheaper, and there is no motivation to eat healthily.
Relation Between Genetics and Intelligence Intelligence is a mental ability to learn from experience, tackle issues and use knowledge to adapt to new situations and the factor g may access intelligence of a person.
Genetics in Diagnosis of Diseases Medical genetics aims to study the role of genetic factors in the etiology and pathogenesis of various human diseases.
The Morality of Selective Abortion and Genetic Screening The paper states that the morality of selective abortion and genetic screening is relative. This technology should be made available and legal.
Environmental Ethics in Genetically Modified Organisms The paper discusses genetically modified organisms. Environmental ethics is centered on the ethical dilemmas arising from human interaction with the nonhuman domain.
Does Genetic Predisposition Affect Learning in Other Disciplines? This paper aims to examine each person’s ability to study a discipline for which there is no genetic ability and to understand how effective it is.
Detection of Genetically Modified Products Today, people are becoming more concerned about the need to protect themselves from the effects of harmful factors and to buy quality food.
Genetically Modified Organisms Solution to Global Hunger It is time for the nations to work together and solve the great challenge of feeding the population by producing sufficient food and using fewer inputs.
Genetic Engineering: Cloning With Pet-28A Embedding genes into plasmid vectors is an integral part of molecular cloning as part of genetic engineering. An example is the cloning of the pectate lyase gene.
Restricting the Volume of Sale of Fast Foods and Genetically Modified Foods The effects of fast foods and genetically modified foods on the health of Arizona citizens are catastrophic. The control of such outlets and businesses is crucial.
Researching of Genetic Engineering DNA technology entails the sequencing, evaluation and cut-and-paste of DNA. The following paper analyzes the historical developments, techniques, applications, and controversies.
Genetically Modified Crops: Impact on Human Health The aim of this paper is to provide some information about genetically modified crops as well as highlight the negative impacts of genetically modified soybeans on human health.
Genetic Engineering Biomedical Ethics Perspectives Diverse perspectives ensure vivisection, bio, and genetic engineering activities, trying to deduce their significance in evolution, medicine, and society.
Down Syndrome: The Genetic Disorder Down syndrome is the result of a glandular or chemical disbalance in the mother at the time of gestation and of nothing else whatsoever.
Genetics of Personality Disorders The genetics of different psychological disorders can vary immensely; for example, the genetic architecture of schizophrenia is quite perplexing and complex.
Labeling of Genetically Modified Products Regardless of the reasoning behind the labeling issue, it is ethical and good to label the food as obtained from genetically modified ingredients for the sake of the consumers.
Genetic Technologies in the Healthcare One area where genetic technology using DNA works for the benefit of society is medicine, as it will improve the treatment and management of genetic diseases.
Are Genetically Modified Organisms Really That Bad? Almost any food can be genetically modified: meat, fruits, vegetables, etc. Many people argue that consuming products, which have GMOs may cause severe health issues.
Discussion of Genetic Testing Aspects The primary aim of the adoption process is to ensure that the children move into a safe and loving environment.
Ethical Concerns on Genetic Engineering The paper discusses Clustered Regularly Interspaced Short Palindromic Repeats technology. It is a biological system for modifying DNA.
The Normal Aging Process and Its Genetic Basis Various factors can cause some genetic disorders linked to premature aging. The purpose of this paper is to talk about the genetic basis of the normal aging process.
Defending People’s Rights Through GMO Labels Having achieved mandatory labeling of GMOs, the state and other official structures signal manufacturers of goods about the need to respect customers’ rights.
Medicine Is Not a Genetic Supermarket Together with the development of society, medicine also develops, but some people are not ready to accept everything that science creates.
Epigenetics: Definition and Family History Epigenetics refers to the learning of fluctuations in creatures induced by gene expression alteration instead of modification of the ‘genetic code itself.
Genetically Modified Organisms in Aquaculture Genetically Modified Organisms are increasingly being used in aquaculture. They possess a unique genetic combination that makes them uniquely suited to their environment.
Genetic Modification of Organisms to Meet Human Needs Genetic modification of plants and animals for food has increased crop yields as the modified plants and animals have more desirable features such as better production.
Discussion of Epigenetics Meanings and Aspects The paper discusses epigenetics – the study of how gene expression takes place without changing the sequence of DNA.
Genetic Testing and Bill of Rights and Responsibilities Comparing the Patient Bill of Rights or Patient Rights and Responsibilities of UNMC and the Nebraska Methodist, I find that the latter is much broader.
The role of genes in our food preferences.
The molecular mechanisms of aging and longevity.
Genomic privacy: ways to protect genetic information.
The effects of genes on athletic performance.
CRISPR-Cas9 gene editing: current applications and future perspectives.
Genetic underpinnings of human intelligence.
The genetic foundations of human behavior.
The role of DNA analysis in criminal justice.
The influence of genetic diversity on a species’ fate.
Genetic ancestry testing: the process and importance.
Genetically Modified Products: Positive and Negative Sides This paper considers GMOs a positive trend in human development due to their innovativeness and helpfulness in many areas of life, even though GMOs are fatal for many insects.
Overview of African Americans’ Genetic Diseases African Americans are more likely to suffer from certain diseases than white Americans, according to numerous studies.
Plant Genetic Engineering: Genetic Modification Genetic engineering is the manipulation of the genes of an organism by completely altering the structure of the organism.
Genetic Linkage Disorders: An Overview A receptor gene in the human chromosome 9 is the causative agent of most blood vessel disorders. Moreover, blood vessel disorders are the major cause of heart ailments.
Natural Selection and Genetic Variation The difference in the genetic content of organisms is indicative that certain group of organisms will stay alive, and effectively reproduce than other organisms residing in the same environment.
The Genetic Material Sequencing This experiment is aimed at understanding the real mechanism involved in genetic material sequencing through nucleic acid hybridization.
Genetically Modified Organisms in Human Food This article focuses on Genetically Modified Organisms as they are used to produce human food in the contemporary world.
Genetics and Public Health: Disease Control and Prevention Public health genomics may be defined as the field of study where gene sequences can be used to benefit society.
Genetic Disorder Cystic Fibrosis Cystic fibrosis is a genetic disorder. The clinical presentation of the disease is evident in various organs of the body as discussed in this paper.
The Study of the Epigenetic Variation in Monozygotic Twins The growth and development of an organism result in the activation and deactivation of different parts due to chemical reactions at strategic periods and locations
Human Genome and Application of Genetic Variations Human genome refers to the information contained in human genes. The Human Genome Project (HGP) focused on understanding genomic information stored in the human DNA.
Genetic Alterations and Cancer The paper will discuss cancer symptoms, causes, diagnosis, treatment, side-effects of treatment, and also its link with a genetic alteration.
Saudi Classic Aniridia Genetic and Genomic Analysis This research was conducted in Saudi Arabia to determine the genetic and genomic alterations that underlie classic anirida.
What Makes Humans Mortal Genetically? The causes of aging have been studied and debated about by various experts for centuries, there multiple views and ideas about the reasons of aging and.
Genetic Screening and Testing The provided descriptive report explains how genetic screening and testing assists clinicians in determining cognitive disabilities in babies.
Neurobiology: Epigenetics in Cocaine Addiction Studies have shown that the addiction process is the interplay of many factors that result in structural modifications of neuronal pathways.
Genetic (Single Nucleotide Polymorphisms) Analysis of Genome The advancement of the SNP technology in genomic analysis has made it possible to achieve cheap, effective, and fast methods for analyzing personal genomes.
Genetic Tests: Pros and Cons Genetic testing is still undergoing transformations and further improvements, so it may be safer to avoid such procedures under certain circumstances.
Case on Preserving Genetic Mutations in IVF In the case, a couple of a man and women want to be referred to an infertility specialist to have a procedure of in vitro fertilization (IVF).
Race: Genetic or Social Construction One of the most challenging questions the community faces today is the following: whether races were created by nature or society or not.
Huntington’s Chorea Disease: Genetics, Symptoms, and Treatment Huntington’s chorea disease is a neurodegenerative heritable disease of the central nervous system that is eventually leading to uncontrollable body movements and dementia.
Genetics: A Frameshift Mutation in Human mc4r This article reviews the article “A Frameshift Mutation in Human mc4r Is Associated With Dominant Form of Obesity” published by C. Vaisse, K. Clement, B. Guy-Grand & P. Froguel.
DNA Profiling: Genetic Variation in DNA Sequences The paper aims to determine the importance of genetic variation in sequences in DNA profiling using specific techniques.
Genetics: Gaucher Disease Type 1 The Gaucher disease type 1 category is a genetically related complication in which there is an automatic recession in the way lysosomes store some important gene enzymes.
Genetic Science Learning Center This paper shall seek to present an analysis of sorts of the website Learn Genetics by the University of Utah.
Benefits of Genetic Engineering The potential increase of people’s physical characteristics and lifespan may be regarded as another advantage of genetic engineering.
What Is Silencer Rna in Genetics RNA silencing is an evolutionary conserved intracellular surveillance system based on recognition. RNA silencing is induced by double-stranded RNA sensed by the enzyme Dicer.
Genetic Testing and Privacy & Discrimination Issues Genetic testing is fraught with the violation of privacy and may result in discrimination in employment, poor access to healthcare services, and social censure.
Genetics or New Pharmaceutical Article Within the Last Year Copy number variations (CNVs) have more impacts on DNA sequence within the human genome than single nucleotide polymorphisms (SNPs).
Genetic Disorders: Diagnosis, Screening, and Treatment Chorionic villus is a test of sampling done especially at the early stages of pregnancy and is used to identify some problems which might occur to the fetus.
Research of Genetic Disorders Types This essay describes different genetic disorders such as hemophilia, turner syndrome and sickle cell disease (SCD).
Genetic Mechanism of Colorectal Cancer Colorectal Cancer (CRC) occurrence is connected to environmental factors, hereditary factors, and individual ones.
Isolated by Genetics but Longing to Belong The objective of this paper is to argue for people with genetic illnesses to be recognized and appreciated as personages in all institutions.
Genetic Association and the Prognosis of Phenotypic Characters The article understudy is devoted to the topic of genetic association and the prognosis of phenotypic characters. The study focuses on such a topic as human iris pigmentation.
The Concept of Epigenetics Epigenetics is a study of heritable phenotypic changes or gene expression in cells that are caused by mechanisms other than DNA sequence.
PiggyBac Transposon System in Genetics Ideal delivery systems for gene therapy should be safe and efficient. PB has a high transposition efficiency, stability, and mutagenic potential in most mammalian cell lines.
A Career in Genetics: Required Skills and Knowledge A few decades ago, genetics was mostly a science-related sphere of employment. People with a degree in genetics can have solid career prospects in medicine and even agriculture.
Genetic Factors as the Cause of Anorexia Nervosa Genetic predisposition currently seems the most plausible explanation among all the proposed etiologies of anorexia.
Genetic foundations of rare diseases.
Genetic risk factors for neurodegenerative disorders.
Inherited cancer genes and their impact on tumor development.
Genetic variability in drug metabolism and its consequences.
The role of genetic and environmental factors in disease development.
Genomic cancer medicine: therapies based on tumor DNA sequencing.
Non-invasive prenatal testing: benefits and challenges.
Genetic basis of addiction.
The origins of domestication genes in animals.
How can genetics affect a person’s injury susceptibility?
Bioethical Issues in Genetic Analysis and Manipulations We are currently far from a point where we can claim that we should be providing interventions to some and not others due to their genetic makeup.
Personality Is Inherited Principles of Genetics The present articles discusses the principles of genetics, and how is human temperament and personality formed.
Impacts of Genetic Engineering of Agricultural Crops In present days the importance of genetic engineering grew due to the innovations in biotechnologies and Sciences.
The Effects of Genetic Modification of Agricultural Products Discussion of the threat to the health of the global population of genetically modified food in the works of Such authors as Jane Brody and David Ehrenfeld.
Genetic Engineering and Religion: Designer Babies The current Pope has opposed any scientific procedure, including genetic engineering, in vitro fertilization, and diagnostic tests to see if babies have disabilities.
Op-ED Genetic Engineering: The Viewpoint The debate about genetic engineering was started more than twenty years ago and since that time it has not been resolved
Genetically Modified Food as a Current Issue GM foods are those kinds of food items that have had their DNA changed by usual breeding; this process is also referred to as Genetic Engineering.
All About the Role of Genetic Engineering and Biopiracy The argument whether genetically engineered seeds have monopolized the market in place of the contemporary seeds has been going on for some time now.
Biotechnology: Methodology in Basic Genetics The material illustrates the possibilities of ecological genetics, the development of eco-genetical models, based on the usage of species linked by food chain as consumers and producers.
Genetics Impact on Health Care in the Aging Population This paper briefly assesses the impact that genetics and genomics can have on health care costs and services for geriatric patients.
Concerns Regarding Genetically Modified Food It is evident that genetically modified food and crops are potentially harmful. Both humans and the environment are affected by consequences as a result of their introduction.
Family Genetic History and Planning for Future Wellness The patient has a family genetic history of cardiac arrhythmia, allergy, and obesity. These diseases might lead to heart attacks, destroy the cartilage and tissue around the joint.
Personal Genetics and Risks of Diseases Concerning genetics, biographical information includes data such as ethnicity. Some diseases are more frequent in specific populations as compared to others.
Genetic Predisposition to Alcohol Dependence and Alcohol-Related Diseases The subject of genetics in alcohol dependence deserves additional research in order to provide accurate results.
Genetically-Modified Fruits, Pesticides, or Biocontrol? The main criticism of GMO foods is the lack of complete control and understanding behind GMO processes in relation to human consumption and long-term effects on human DNA.
Genetic Variants Influencing Effectiveness of Exercise Training Programmes “Genetic Variants Influencing Effectiveness of Exercise Training Programmes” studies the influence of most common genetic markers that indicate a predisposition towards obesity.
Eugenics, Human Genetics and Their Societal Impact Ever since the discovery of DNA and the ability to manipulate it, genetics research has remained one of the most controversial scientific topics of the 21st century.
Genetic Interference in Caenorhabditis Elegans The researchers found out that the double-stranded RNA’s impact was not only the cells, it was also on the offspring of the infected animals.
Start Up Company: Genetically Modified Foods in China The aim of establishing the start up company is to develop the scientific idea of increasing food production using scientific methods.
Community Health Status: Development, Gender, Genetics Stage of development, gender and genetics appear to be the chief factors that influence the health status of the community.
Homosexuality as a Genetic Characteristic The debate about whether homosexuality is an inherent or social parameter can be deemed as one of the most thoroughly discussed issues in the contemporary society.
Autism Spectrum Disorder in Twins: Genetics Study Autism spectrum disorder is a behavioral condition caused by genetic and environmental factors. Twin studies have been used to explain the hereditary nature of this condition.
Why Is the Concept of Epigenetics So Fascinating? Epigenetics has come forward to play a significant role in the modern vision of the origin of illnesses and methods of their treatment, which results in proving to be fascinating.
Epigenetics and Its Effect on Physical and Mental Health This paper reviews a research article and two videos on epigenetics to developing an understanding of the phenomenon and how it affects individuals’ physical and mental health.
Genomics, Genetics, and Nursing Involvement The terms genomics and genetics refer to the study of genetic material. In many cases, the words are erroneously used interchangeably.
Genetic and Genomic Healthcare: Nurses Ethical Issues Genomic medicine is one of the most significant ways of tailoring healthcare at a personal level. This paper will explore nursing ethics concerning genetic information.
Patent on Genetic Discoveries and Supreme Court Decision Supreme Court did not recognize the eligibility of patenting Myriad Genetics discoveries due to the natural existence of the phenomenon.
Genetic Testing, Its Background and Policy Issues This paper will explore the societal impacts of genetic research and its perceptions in mass media, providing argumentation for support and opposition to the topic.
Genetically Modified Organisms and Future Farming There are many debates about benefits and limitations of GMOs, but so far, scientists fail to prove that the advantages of these organisms are more numerous than the disadvantages.
Mitosis, Meiosis, and Genetic Variation According to Mendel’s law of independent assortment, alleles for different characteristics are passed independently from each other.
Labeling Food With Genetically Modified Organisms The wide public has been concerned about the issue of whether food products with genetically modified organisms should be labeled since the beginning of arguments on implications.
Diabetes Genetic Risks in Diagnostics The introduction of the generic risks score in the diagnosis of diabetes has a high potential for use in the correct classification based on a particular type of diabetes.
Residence and Genetic Predisposition to Diseases The study on the genetic predisposition of people to certain diseases based on their residence places emphasizes the influence of heredity.
Eugenics, Human Genetics and Public Policy Debates Ethical issues associated with human genetics and eugenics have been recently brought to public attention, resulting in the creation of peculiar public policy.
Value of the Epigenetics Epigenetics is a quickly developing field of science that has proven to be practical in medicine. It focuses on changes in gene activity that are not a result of DNA sequence mutations.
Genetics Seminar: The Importance of Dna Roles DNA has to be stable. In general, its stability becomes possible due to a large number of hydrogen bonds which make DNA strands more stable.
Genetically Modified Organisms: Position Against Genetically modified organisms are organisms that are created after combining DNAs of different species to come up with a transgenic organism.
Genetically Modified Organisms and Their Benefits Scientists believe GMOs can feed everyone in the world. This can be achieved if governments embrace the use of this new technology to create genetically modified foods.
Food Science and Technology of Genetic Modification Genetically modified foods have elicited different reactions all over the world with some countries banning its use while others like the United States allowing its consumption.
How Much can We Control Our Genetics, at What Point do We Cease to be Human? The branch of biology that deals with variation, heredity, and their transmission in both animals and the plant is called genetics.

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StudyCorgi. (2022, January 16). 204 Genetics Research Topics & Essay Questions for College and High School. https://studycorgi.com/ideas/genetics-essay-topics/

"204 Genetics Research Topics & Essay Questions for College and High School." StudyCorgi , 16 Jan. 2022, studycorgi.com/ideas/genetics-essay-topics/.

StudyCorgi . (2022) '204 Genetics Research Topics & Essay Questions for College and High School'. 16 January.

1. StudyCorgi . "204 Genetics Research Topics & Essay Questions for College and High School." January 16, 2022. https://studycorgi.com/ideas/genetics-essay-topics/.

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StudyCorgi . "204 Genetics Research Topics & Essay Questions for College and High School." January 16, 2022. https://studycorgi.com/ideas/genetics-essay-topics/.

StudyCorgi . 2022. "204 Genetics Research Topics & Essay Questions for College and High School." January 16, 2022. https://studycorgi.com/ideas/genetics-essay-topics/.

These essay examples and topics on Genetics were carefully selected by the StudyCorgi editorial team. They meet our highest standards in terms of grammar, punctuation, style, and fact accuracy. Please ensure you properly reference the materials if you’re using them to write your assignment.

This essay topic collection was updated on January 21, 2024 .

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Genetic Engineering - Free Essay Examples and Topic Ideas

Genetic engineering is possibly the most controversial topic in science currently. Many people are on both sides, with some believing that Genetic engineering is marvelous technology, and others believing that it is awful technology.

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Advantages of Human Genetic Engineering
Utilitarianism and Genetic Engineering
Human Genetic Engineering Ethics
Applications of Genetic Engineering
Gattaca – Genetic Engineering
Genetic modification in humans
Genetic engineering, friend or foe?
Pro-Genetic Testing
Genetic Screenings and Discrimination
Genetic Testing
The genetic disease progeria
Human Genetic Disorder
Experiment on E Coli Genetic Transformation
Genetic disease
CRISPR/CAS9 System to Treat Genetic Disorders
The variability of a biological population is a result of the genetic
Deep Web Crawler Using Genetic Technique Computer Science Essay
Genetic Engineering
The Dangers of Genetic Engineering to Humanity
The Use and Ethics of Genetic Engineering
Review of Human Germline Engineering
Genetic Engineering: an Overview of The Dna/rna and The Crispr/cas9 Technology

Pros and Cons of Genetic Enginering

Although some aspects of genetic engineering are good, such as gene therapy curing diseases, and GMOs helping end starvation, in total genetic engineering is negative. With environmental concerns, financial concerns, Health concerns etc, in Genetically modified Organisms (GMO), de- extinction, and cloning.

First, GMOs. GMOs, or Genetically Modified Organisms are typically known for their use on plants. This can be harmful to the environment. This is because plants are becoming resistant to pesticides,hindering the crops,then, they are limiting the number of non-GMO crops. Finally, the pesticides can run into the water, damaging water quality. Another reason GMOs are bad is because of health concerns. Long term exposure to certain GMOs is linked to cancer according to one California study. Certain GMOs cause allergic reactions.

De-Extinction

Then there is De-Extinction. De- Extension is bring back extinct animals such as the passenger pigeon. If that sounds unnatural to you, you’re not alone because it is. Besides being unnatural, de-Extension has ecosystem concerns too. By re-creating a new species, we could damage ecosystems significantly. First, we are disrupting an already damaged food chain by putting a new species in. We are also putting an animal in a new ecosystem that it is not used to. The new animal will also never assume it’s former role in the environment( Liza Lester, 2016). Then, there are financial considerations. The technology of de-extinction isn’t quite there yet, so we are bargaining on the technology to eventually be successful. De-Extension is also very expensive, draining money from the already limited conservation resources. Past the initial cost of the technology, the organisms will need training and monitoring costing even more money.

Cloning Issues

Cloning is possibly the worst of all of the three. Not only is it a waste of money, but it could cause much more harm than good. Many celebrities, or more specifically, Barbra Streisand are spending money on cloning. They use genetic material from the original animal to create a brand new animal, this time a puppy, hopefully being the exact same as the original. Unfortunately that’s not what happens. The new one is typically different, being a waste of money and resources. But cloning for science must be good right? This is a question I asked myself, before research. Sadly, this is not the case. Cloning monkeys for study on cancer may be faulted by unexpected mutations and diseases. Cloned animals also have a very short life span, such as Dolly the sheep, who only lived half the life of a normal sheep. This may be for a few reasons Including immune issues, shorter telomeres or other diseases.

In conclusion, this is why I believe that genetic engineering is a bad thing. Although there are many good aspects of genetic engineering such as GMOs growing more plants and feeding our growing population and gene therapy curing genetic diseases,the negatives, in my opinion,outweigh the positives with financial,health, and environmental concerns in GMOS, de-extinction, and cloning.

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Essay on Genetic Engineering

Introduction to Genetic Engineering

Genetic engineering, the deliberate modification of an organism’s genome, has revolutionized fields from agriculture to medicine, offering unprecedented possibilities and raising profound ethical questions. For example, the creation of genetically modified (GM) crops has significantly increased agricultural yields and reduced reliance on pesticides. In medicine, genetic engineering has paved the way for groundbreaking treatments like gene therapy, offering hope for previously incurable genetic diseases. However, these advancements come with challenges, including ethical concerns about altering the fundamental building blocks of life. As we delve into the world of genetic engineering, we must carefully navigate the complex interplay between science, ethics, and society.

Historical Background

Early Understanding of Heredity : Genetic engineering’s roots trace back to ancient times when people observed hereditary traits in plants and animals. Early farmers selected seeds from plants with desirable traits, unknowingly practicing a rudimentary form of selective breeding.
Mendel’s Laws : In the mid-19th century, Gregor Mendel conducted experiments with pea plants that laid the groundwork for modern genetics. He discovered the laws of inheritance, showing that traits are passed down through discrete units (now known as genes) and follow predictable patterns.
Discovery of DNA : During the 1950s, James Watson, Francis Crick, and Rosalind Franklin unveiled the double helix structure of DNA, the molecule pivotal for conveying genetic information. This discovery revolutionized biology and set the stage for genetic engineering.
Recombinant DNA Technology : In the 1970s, scientists developed recombinant DNA technology to combine DNA from different sources. This breakthrough paved the way for genetic engineering by enabling the transfer of genes between organisms.
Development of Transgenic Organisms : In the 1980s, researchers created the first transgenic organisms, such as bacteria that produce insulin. This marked the beginning of practical applications of genetic engineering in medicine and industry.
Advancements in Genome Sequencing : Completing the Human Genome Project in 2003 provided a comprehensive map of the human genome, further advancing genetic engineering research and applications.
CRISPR-Cas9 Revolution : In recent years, the development of the CRISPR-Cas9 gene-editing technology has revolutionized genetic engineering, allowing for precise and efficient editing of genes in various organisms.
Current Landscape : Today, various fields utilize genetic engineering, including agriculture, medicine, and environmental conservation, with ongoing advancements and debates surrounding its ethical and societal implications.

Principles of Genetic Engineering

Several key principles guide genetic engineering, underpinning its techniques and applications:

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DNA as the Genetic Material : At the core of genetic engineering is the understanding that DNA contains an organism’s genetic information, determining its traits. Manipulating DNA allows scientists to modify these traits.
Gene Isolation and Cloning : The first step in genetic engineering is isolating the gene of interest. Researchers then clone this gene to produce multiple copies for further manipulation. Cloning involves inserting the gene into a vector, such as a plasmid, which can replicate inside a host cell.
Vector-Mediated Gene Transfer : Once cloned, a vector transfers the gene into the target organism’s genome. Vectors are vehicles that can carry the gene into the target cell. Plasmids, viruses, and artificial chromosomes are some of the most common vectors.
Gene Expression : After inserting the gene into the target organism, researchers must express it to produce the desired trait. Gene expression involves transcribing the gene into messenger RNA (mRNA) and translating it into a functional protein.
CRISPR-Cas9 Technology : CRISPR-Cas9 is a groundbreaking gene-editing tool, enabling meticulous alterations to DNA sequences with unprecedented precision. It works by using a guide RNA to target specific DNA sequences, and the Cas9 enzyme cuts the DNA at that location. This enables highly precise insertion, deletion, or modification of genes.
Applications in Agriculture, Medicine, and Industry : Genetic engineering has diverse applications, including creating genetically modified crops with improved traits, developing gene therapies for genetic disorders, and producing recombinant proteins for industrial use.
Ethical and Safety Considerations : Genetic engineering raises ethical concerns regarding manipulating living organisms and potential unintended consequences. Safety measures, regulatory frameworks, and public engagement are essential to ensure the responsible use of genetic engineering technologies.

Applications of Genetic Engineering

Genetic engineering has many applications across different fields, including agriculture, medicine, industry, and research. Some key applications include:

Agriculture : GM crops with better characteristics, like increased nutrition, extended shelf life, disease and herbicide resistance, and pest and disease resistance, are produced by genetic engineering. GM crops can help increase crop yields, reduce the use of pesticides, and improve food security.
Medicine : In medicine, researchers utilize genetic engineering to develop therapies for genetic disorders, such as gene therapy, involving the replacement of faulty genes with functional ones. Researchers utilize genetic engineering to manufacture pharmaceuticals, including insulin and growth hormones, by leveraging genetically engineered bacteria or yeast.
Bioremediation : Genetic engineering is used in bioremediation to clean up environmental pollutants. Researchers can genetically engineer microorganisms to degrade pollutants like oil spills or toxic chemicals into less harmful substances.
Industrial Applications : Genetic engineering is used in industry to produce enzymes, proteins, and chemicals. For example, industries use enzymes produced by genetically engineered microorganisms to produce biofuels, detergents, and textiles.
Research : Genetic engineering is used in research to study gene function and regulation. Techniques like gene knockout, which deactivates specific genes, and gene editing, using CRISPR-Cas9, enable researchers to comprehend the functions of genes in health and disease.
Forensics and DNA Profiling : Genetic engineering is used in forensics to analyze DNA evidence and identify individuals. DNA profiling techniques, such as polymerase chain reaction (PCR) and gel electrophoresis, are based on genetic engineering principles.
Livestock Improvement : Genetic engineering enhances livestock by introducing favorable traits like disease resistance, enhanced growth rates, and increased milk or meat production.

Ethical and Social Considerations

Genetic engineering raises several ethical and social considerations that require careful addressing:

Genetic Privacy : As the utilization of genetic information grows in healthcare and other sectors, concerns regarding the privacy and security of genetic data are on the rise. Unauthorized access to genetic information could lead to discrimination or other harmful consequences.
Genetic Discrimination : Concerns exist that individuals could face discrimination in areas such as employment, insurance, and education due to the use of genetic information. Laws and regulations are needed to protect against such discrimination.
Informed Consent : In genetic research and medical treatment, informed consent is essential. Individuals must receive full information about the risks and benefits of genetic testing or treatment and must freely consent to participate.
Human Enhancement : Genetic engineering raises questions about the ethics of enhancing human traits beyond what is considered normal or natural. This includes concerns about creating “designer babies” with desired traits.
Environmental Concerns : Introducing genetically modified organisms (GMOs) into the environment raises concerns regarding potential ecological impacts, including unintended effects on non-target species or ecosystems.
Equitable Access : There are concerns about equitable access to genetic technologies and treatments. Factors such as income, geography, or ethnicity should not limit access to genetic testing or treatment.
Long-Term Effects : The enduring repercussions of genetic engineering on individuals, populations , and ecosystems necessitate thorough understanding and investigation. More research is needed to assess potential risks and benefits.
Cultural and Religious Beliefs : Genetic engineering raises ethical questions that intersect with cultural and religious beliefs. Some groups may object to certain genetic technology applications based on their values and beliefs.
Regulation and Oversight : Robust regulation and oversight of genetic engineering are necessary to ensure responsible and ethical use. This includes monitoring the safety of GMOs and ensuring the appropriate use of genetic information.

Realizing the full potential of genetic engineering and ensuring responsible use requires addressing several challenges:

Safety Concerns : Concerns persist regarding the safety of genetically modified organisms (GMOs) and products derived from genetic modification. Ensuring the safety of GMOs for human health and the environment requires rigorous testing and evaluation.
Ethical Dilemmas : Genetic engineering raises complex ethical questions, such as the morality of altering the genetic makeup of organisms, the implications of creating genetically modified humans, and the potential for genetic discrimination.
Regulatory Framework : The regulation of genetic engineering varies widely across countries and regions. Establishing consistent and effective regulatory frameworks is crucial to ensuring genetic engineering technologies’ safe and ethical application.
Environmental Impact : The release of GMOs into the environment can have unintended consequences, such as spreading modified genes to wild populations or disrupting ecosystems. Assessing and mitigating these risks is a significant challenge.
Public Perception and Acceptance : The public often meets genetic engineering with skepticism and fear, driven by concerns about safety, ethics, and the potential for negative impacts. Building public trust and acceptance is crucial for the responsible development and use of genetic engineering technologies.
Intellectual Property Rights : Patenting genetically engineered organisms and technologies raises questions about access to and control over genetic resources. Balancing the need for innovation and investment with equitable access to genetic technologies is a complex challenge.
Unintended Consequences : Genetic engineering can have unintended consequences, such as developing resistance to pests or losing genetic diversity in crops. Anticipating and mitigating these unintended consequences is essential.
Socioeconomic Impacts : The adoption of genetic engineering technologies can have socioeconomic impacts, such as changes in agricultural practices, access to food, and distribution of benefits. Ensuring that these technologies benefit all stakeholders is a challenge.

Future Prospects

The future of genetic engineering holds exciting possibilities and challenges:

Precision Medicine : Scientists will crucially advance personalized medicine and tailor treatments to an individual’s genetic makeup through genetic engineering. This may result in more focused and efficient treatments for various diseases.
Gene Editing : Continued advancements in gene-editing technologies, such as CRISPR-Cas9, will enable precise modifications to the genome, offering new opportunities for treating genetic disorders and improving crop traits.
Synthetic Biology : Genetic engineering is driving the field of synthetic biology, where researchers design and construct new biological parts, devices, and systems. This could lead to novel biofuels, materials, and pharmaceuticals.
Environmental Applications : Genetic engineering will continue to find applications in environmental efforts, such as bioremediation and conservation. Engineered organisms could help clean up pollution or restore ecosystems.
Ethical and Regulatory Challenges : As genetic engineering technologies advance, there will be ongoing ethical and regulatory challenges to address, such as ensuring the responsible use of gene editing in humans and the environment.
Global Collaboration : International collaboration will be essential for addressing the global challenges facing genetic engineering, such as ensuring equitable access to genetic technologies and sharing benefits and risks across countries.
Public Engagement : Engaging the public in discussions about the benefits, risks, and ethical implications of genetic engineering will be critical for building trust and ensuring responsible development and use of these technologies.

Genetic engineering is a powerful tool with diverse applications and immense potential to improve human health, agriculture, industry, and the environment. It has revolutionized medicine by enabling the development of therapies for genetic disorders and the production of pharmaceuticals. It has resulted in the development of genetically engineered crops with enhanced features and higher yields in agriculture. However, genetic engineering also raises ethical, social, and environmental concerns that must be carefully considered and addressed. With responsible use and thoughtful regulation, genetic engineering can continue to drive innovation and benefit society while minimizing risks and upholding ethical standards.

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September 25, 2019

Ielts writing task 2: 'genetic engineering' topic.

It's time to start work on a new question, so let's try this one that a student asked me to look at:

Genetic engineering is an important issue in society today. Some people think that it will improve people’s lives in many ways. Others feel that it may be a threat to life on earth. Discuss both these views and give your own opinion.

This is one of the common topics that I covered in my ebook. You can see some ideas from the ebook here . We'll start writing the essay next Wednesday.

Dear Sir, Could you make a blog on media and sports essay? The essay is 'Many companies sponsor sports as a way of advertising themselves. Some people think that it is the best thing, while others believe that it has some disadvantages. Discuss both views and give your own opinion'. Please sir, I am waiting for your blog.

Posted by: Gurkaran | September 25, 2019 at 12:08

People have different views about genetic engineering in today's society. While there are good arguments against the benefit of genetic engineering, I still believe that genetic engineering will enhance people's lives in various ways.

There are several reasons why people might argue that genetic engineering is not beneficial for lives on earth. Firstly, there is evidence to support the idea that manipulation of genes reduces the nutritional value of our daily foods. For example, poultry chickens, which is an invention of genetic engineering, are comparatively less tasty than natural chickens. Secondly, many will agree that some changes to genes of leaving things, using genetic engineering, can have long-term negative effect on their health. Someone, for example, trying to change the body color by changing the gene structure can be exposed to skin cancer. Finally, it is also recognized that natural imbalance is occurred due to changes to genetics.

In spite of the above arguments, I believe the genetic engineering is contributing positively in our daily lives. One of the major advantages is that it makes crops more resistant to insects and diseases, as the changes usually make in a way that alter the setting of the negative effects. For instance, crops nowadays are healthier and larger in regards to production. In addition, some inherited illness will no longer exist in human body due to the changes characteristics of genes. Furthermore, scientists are developing cures for different deadly diseases using this technological advancement. In my view, genetic engineering is a blessings of science for us.

In conclusion, genetic engineering certainly has its drawbacks, but I believe the benefit outweigh them in the long run.

Posted by: Abdullah | September 26, 2019 at 10:38

Dear sir, I am going to take exam on 28th sep. Can you give advice to tackle multiple choice questions section 3, especially. These are stopping to get 8 band.

I think it could be useful for all candidates who are appearing for the exam.

Posted by: SRIKANTH ANKAM | September 26, 2019 at 12:15

Hi Simon, hope you are doing well. This is Sunny.First of all, I really appreciate your sharing this! Below is what i have written on the topic but not yet finished on some parts. I will greatly appreciate your suggestions if you have any on my writing. I look forward to your writing on it as well! By the way i am sitting the test next month and I aim for 7(at least) in writing, which is required by the university.

Posted by: Sunny | September 27, 2019 at 06:14

Thanks to the advancement of technology in the field of scientific research, we are able to embrace more diversity the earth can possibly offer using genetic engineering technology, some of which are apparently made to exist for the benefits of humans. However, there has always been a heated discussion about whether these genetically modified plants and animals are posing threats to the life on earth. This essay will discuss this matter from both perspectives followed by further analysis of this issue.

To begin with, it is clear that genetic engineering has dramatically improved people’s life in certain sections of the world. This technology has facilitated scientists in the process of inventing products that fulfill the needs of certain group of people. Take Yuan Longping as an example, who is a Chinese farmer and actually used the idea of genetic engineering and successfully invented a kind of crop that takes less amount of time to grow and mature and yields far more than the traditional ones. His achievement lifted millions of people in that part of the world out of starvation. In the same fashion, the genetically modified products have created options for people who have certain needs for a substitute for a conventional product. For example, ….

Despite the benefits this technology is possibly able to offer, it is undeniable that it has its downsides, one of which is the potential to disrupt the natural course of life on earth. It is known that. Another issues associated with this technology is the potential risks by the misuse of it.

In my opinion, even though this technology can pose potential threats to us and our earth, its merits definitely outweigh the disadvantages of this matter given the improvement it has contributed to people’s life. Additionally, there is certainly something the governments can do to better regulate the use of it and prevent the cases of misuse. Moreover, I believe every technology is neural. It is up to us how we use it. As long as we use it in the proper way, I trust certain risks can be managed and prevented from causing real harm to us.

Posted by: Sunny | September 27, 2019 at 06:15

Are you sure you can write 356 words of accurate English under exam conditions, that is, within forty minutes? I would suggest going for less than three hundred words, and making sure there are no grammar mistakes.

To this end, for IELTS purposes, the best approach seems to be a much shorter introduction and conclusion.

"Thanks to the advancement of technology in the field of scientific research": to me this comes across as a pre-learned portable phrase that does not advance your argument.

" we are able to embrace more diversity than the earth can possibly offer by using ...."

" some of which are ": what does 'which' refer back to? It is not clear. "Are" or "is" ?

-> for the benefit of humans. (No 's')

-> used genetic engineering techniques to develop a hybrid strain/variety of rice

https://en.wikipedia.org/wiki/Yuan_Longping

-> takes less time to ...

->than traditional varieties

"it is undeniable that": anyone can deny it. Be wary of these pre-learnt phrases. Certainly some politicians will deny anything, be it true or untrue.

" It is known that. " -> That is already well-known.

" Another issue[s] .. [is] are the potential risks of misuse." Sort out the singular/plural issues here. "An" means one, "an other issue" is just written as "Another issue".

Do not introduce new points or material into the conclusion: it should simply restate your opening position.

"Moreover, I believe every technology is neural." What? (1) technology is more often uncountable, so does not sit well with "every". (2) "neural" means related to the neurons in the brain, so does not make much sense.

Posted by: zara | September 27, 2019 at 16:51

I feel like this is a topic that most people have no good ideas about, like me, so the content in your ebooks can really help people and store some ideas in their mind. Much appreciated.

I also attached my writing here for you and others comment. Thanks in advance.

In the recent decade, stories and researches about genetic engineering can be found in various media platforms such as newspaper, magazines, and blogs, which become a hot topic in people’s conversation and cause more social awareness. It is true that manipulation of gene might lead to catastrophic problem on the earth’s ecosystem, but we’ve also seen this promising technology can benefit people in many ways.

When it comes to genetic engineering, people tend to become worried and skeptical as they don’t fully understand the technology as they do with computers and internet. Some might even picture monsters and evil human beings that are genetic modified, thanks to the vivid characters and scenes in the science fictions and Hollywood movies. However, technology advancement itself is not a threat. It’s the people or governments who are not using the technology properly the threats. Nuclear power is a best example here.

As a matter of fact, genetic engineering can do more benefit than harm to human beings if used properly . A Chinese agricultural scientist named Longping Yuan succeeded to largely increase plants’ productivity using genetic engineering technology. His accomplishment solves the starving problem for hundreds of millions of people in underdeveloped rural area in China. Also, we’ve all known about recent scientist breakthrough of clone technology can help people with disability to replace their damaged organs.

The development of genetic engineering might cause people’s uncomfortableness especially in early stage when people are not familiar to it. However, it is a promising and revolutionary technology that can bring our quality of lives to a next level. It’s time to change our perception and embrace this technology advancement.

Posted by: William | September 28, 2019 at 16:44

https://books.google.com/ngrams/graph?content=In+the+recent+decade%2COver+the+last+ten+years%2C+Over+the+last+decade%2C+In+recent+decades&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t1%3B%2CIn%20the%20recent%20decade%3B%2Cc0%3B.t1%3B%2COver%20the%20last%20ten%20years%3B%2Cc0%3B.t1%3B%2COver%20the%20last%20decade%3B%2Cc0%3B.t1%3B%2CIn%20recent%20decades%3B%2Cc0

"Research" is rarely pluralized. https://books.google.com/ngrams/graph?content=research%2Cresearches&case_insensitive=on&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t4%3B%2Cresearch%3B%2Cc0%3B%2Cs0%3B%3Bresearch%3B%2Cc0%3B%3BResearch%3B%2Cc0%3B%3BRESEARCH%3B%2Cc0%3B.t4%3B%2Cresearches%3B%2Cc0%3B%2Cs0%3B%3Bresearches%3B%2Cc0%3B%3BResearches%3B%2Cc0

-> Over the last decade stories and research reports ...... have appeared

...platforms such as newspaper s , magazines...

"which have become a hot topic in people’s conversation ": really? Do not make wild and unsupported assertions.

https://books.google.com/ngrams/graph?content=cause+more+social+awareness%2Cimprove+social+awareness%2Cmore+social+awareness%2C*_VERB++more+awareness&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Cimprove%20social%20awareness%3B%2Cc0%3B.t1%3B%2Cmore%20social%20awareness%3B%2Cc0%3B.t2%3B%2C%2A_VERB%20more%20awareness%3B%2Cc0%3B%2Cs0%3B%3Bis_VERB%20more%20awareness%3B%2Cc0%3B%3Bhave_VERB%20more%20awareness%3B%2Cc0%3B%3Bshow_VERB%20more%20awareness%3B%2Cc0%3B%3Bshowed_VERB%20more%20awareness%3B%2Cc0%3B%3Bcreate_VERB%20more%20awareness%3B%2Cc0%3B%3Bbe_VERB%20more%20awareness%3B%2Cc0%3B%3Bdevelop_VERB%20more%20awareness%3B%2Cc0%3B%3Bwas_VERB%20more%20awareness%3B%2Cc0%3B%3Bgain_VERB%20more%20awareness%3B%2Cc0%3B%3Bshows_VERB%20more%20awareness%3B%2Cc0

I would question the term "social awareness" in this context.

-> improve awareness of these issues.

https://books.google.com/ngrams/graph?content=manipulation+of+genes%2Cgene+manipulation%2Cmanipulation+of+gene&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Cmanipulation%20of%20genes%3B%2Cc0%3B.t1%3B%2Cgene%20manipulation%3B%2Cc0%3B.t1%3B%2Cmanipulation%20of%20gene%3B%2Cc0#t1%3B%2Cmanipulation%20of%20genes%3B%2Cc0%3B.t1%3B%2Cgene%20manipulation%3B%2Cc0%3B.t1%3B%2Cmanipulation%20of%20gene%3B%2Cc0

-> gene manipulation

"to catastrophic problem": either "to a catastrophic problem" or "to catastrophic problem s ...

"we’ve","don’t ": avoid short forms in formal essays.

"as they do with computers and internet": few truly understand computers.

"in the science fictions": 'fiction' is rarely plural. https://books.google.com/ngrams/graph?content=science+fictions%2Cscience+fiction%2C+in+science+fiction&case_insensitive=on&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t4%3B%2Cscience%20fictions%3B%2Cc0%3B%2Cs0%3B%3Bscience%20fictions%3B%2Cc0%3B%3BScience%20Fictions%3B%2Cc0%3B%3BScience%20fictions%3B%2Cc0%3B.t4%3B%2Cscience%20fiction%3B%2Cc0%3B%2Cs0%3B%3Bscience%20fiction%3B%2Cc0%3B%3BScience%20Fiction%3B%2Cc0%3B%3BScience%20fiction%3B%2Cc0%3B%3BSCIENCE%20FICTION%3B%2Cc0%3B.t4%3B%2Cin%20science%20fiction%3B%2Cc0%3B%2Cs0%3B%3Bin%20science%20fiction%3B%2Cc0%3B%3Bin%20Science%20Fiction%3B%2Cc0%3B%3BIn%20science%20fiction%3B%2Cc0%3B%3BIn%20Science%20Fiction%3B%2Cc0%3B%3BIN%20SCIENCE%20FICTION%3B%2Cc0

->It’s the people or governments who are not using the technology properly that are the threat.

Posted by: Zoe | September 28, 2019 at 19:46

"do more benefit than harm": not a normal phrase.

https://books.google.com/ngrams/graph?content=do+more+benefit+than+harm%2Cdo+more+harm+than+good&case_insensitive=on&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Cdo%20more%20harm%20than%20good%3B%2Cc0

"succeeded to"->succeeded in +VERB+ing "succeeded to" refers to the "succession", that is one monarch succeeding to the throne on the death of another.

https://books.google.com/ngrams/graph?content=succeeded+to%2Csucceeded+in+*&case_insensitive=on&year_start=1960&year_end=2008&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Csucceeded%20to%3B%2Cc0%3B.t2%3B%2Csucceeded%20in%20%2A%3B%2Cc0%3B%2Cs0%3B%3Bsucceeded%20in%20getting%3B%2Cc0%3B%3Bsucceeded%20in%20making%3B%2Cc0%3B%3Bsucceeded%20in%20doing%3B%2Cc0%3B%3Bsucceeded%20in%20establishing%3B%2Cc0%3B%3Bsucceeded%20in%20the%3B%2Cc0%3B%3Bsucceeded%20in%20obtaining%3B%2Cc0%3B%3Bsucceeded%20in%20bringing%3B%2Cc0%3B%3Bsucceeded%20in%20creating%3B%2Cc0%3B%3Bsucceeded%20in%20persuading%3B%2Cc0%3B%3Bsucceeded%20in%20having%3B%2Cc0#t1%3B%2Csucceeded%20to%3B%2Cc0%3B.t2%3B%2Csucceeded%20in%20*%3B%2Cc0%3B%2Cs0%3B%3Bsucceeded%20in%20getting%3B%2Cc0%3B%3Bsucceeded%20in%20making%3B%2Cc0%3B%3Bsucceeded%20in%20doing%3B%2Cc0%3B%3Bsucceeded%20in%20establishing%3B%2Cc0%3B%3Bsucceeded%20in%20the%3B%2Cc0%3B%3Bsucceeded%20in%20obtaining%3B%2Cc0%3B%3Bsucceeded%20in%20bringing%3B%2Cc0%3B%3Bsucceeded%20in%20creating%3B%2Cc0%3B%3Bsucceeded%20in%20persuading%3B%2Cc0%3B%3Bsucceeded%20in%20having%3B%2Cc0

"solves": tense?

-> we all know about the recent scientific breakthrough in transplant technology which can help p....

https://books.google.com/ngrams/graph?content=in+early+stage%2C+in+the+early+stages&case_insensitive=on&year_start=1800&year_end=2000&corpus=15&smoothing=3&share=&direct_url=t4%3B%2Cin%20early%20stage%3B%2Cc0%3B%2Cs0%3B%3Bin%20early%20stage%3B%2Cc0%3B%3BIn%20early%20stage%3B%2Cc0%3B%3Bin%20Early%20Stage%3B%2Cc0%3B%3Bin%20early%20Stage%3B%2Cc0%3B.t4%3B%2Cin%20the%20early%20stages%3B%2Cc0%3B%2Cs0%3B%3Bin%20the%20early%20stages%3B%2Cc0%3B%3BIn%20the%20early%20stages%3B%2Cc0

https://books.google.com/ngrams/graph?content=to+a+next+level%2C+to+the+next+level&case_insensitive=on&year_start=1800&year_end=2000&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Cto%20a%20next%20level%3B%2Cc0%3B.t1%3B%2Cto%20the%20next%20level%3B%2Cc0

https://books.google.com/ngrams/graph?content=technology+advancement%2Ctechnological+advance%2Cadvancement+in+technology&year_start=1800&year_end=2000&corpus=15&smoothing=3&share=&direct_url=t1%3B%2Ctechnology%20advancement%3B%2Cc0%3B.t1%3B%2Ctechnological%20advance%3B%2Cc0%3B.t1%3B%2Cadvancement%20in%20technology%3B%2Cc0

Posted by: Zoe | September 28, 2019 at 19:57

Thanks so much for the comments and they are really helpful! Looks like I should definitely pay more attention on the verb tense issue.

Appreciate if you can please tell me what would be the possible band of this writing?

Posted by: William | September 29, 2019 at 15:02

I am not an examiner. "Grammar is almost all about accuracy (how many grammar errors you make). To be more specific, for a 7 you need close to 50% error free sentences, and for an 8 you need at least 75%. " per Mr sjm (examiner). My impression is your essay falls just short of Band 7.

Posted by: Zoe | September 29, 2019 at 19:21

Thanks for all these. Really helpful.

Posted by: William | October 02, 2019 at 01:17

Thank you for all of your lessons and learning materials. They are a great help for me! My practice is below:

Genetic engineering is a controversial topic nowadays. People who support this technology believe that it could improve human life. By contrast, some people think it may bring unknown threats to the Earth. In my opinion, I do not support genetic engineering, and I would like to take action to reject this technique.

From the side of supporting, people believe that technology could solve every problem. For example, eating genetically modified food could avoid being allergic and help humans get the nutrition they really need. Growing genetic plants could increase the amount of harvest owing to the characteristics of anti-pest. Farmers would hence earn more income and improve their lives. People might take this technology as an innovation toward human life, and the will live in a convenient and enjoyable life forever.

However, the happiness would not last forever. Others believe that once the rule is broken, the earth will start to fix the destruction and chaos will be caused inevitably until a new balance is found. Many species will be threatened and may face the danger of distinguishing. On the other hand, it is not possible for humans to stand back and never be affected by the disaster. The resource of food may be unstable, and the weather may become harsh owing to the disappearing of plants.

In conclusion, I do not agree with the development of genetic engineering. Apart from the impact may be caused, the key point, in my opinion, is that human beings are not the God of nature. We do not have the right to decide the length of lifespans. Human is just one of the species on Earth, and we should respect the rule of nature and other lives in the world. To take action of this belief, I would never purchase genetically modified products and keep devoting myself to this issue.

Posted by: Pearl | October 08, 2019 at 23:45

Thank you for your useful lessons and they provide so much help. And my writing is attached below.

Genetic engineering has become a hot topic recent years and people hold different views against the use of it. From my point of view, while genetic engineering may cause some problems, the benefits people can get from it still overweight disadvantages.

It is undoubted that there are risks involved in developing genetic engineering. The social problem it causes can become quite serious. For instance, people may want to use genetic engineering to help them live longer which will result in over population and lack of resources and this can lead to a threat to all kinds of creatures living on the earth. Also there are chances that scientists will use this technology to create new species into the world which may have unpredictable results, for example, becoming a strong predator of the other species. And in this way, genetic diversity will be undermined.

However, human beings can generate more benefits from this sophisticated technology. Firstly, it can be used to tackle and defeat diseases especially helping the family which has a genetic disease to genetically engineer the next generation and the disease will avoid passing on. Producing new kind of food can also become one utilization of genetic engineering, scientists can use the technology to design the plants which can adapt to more harsh conditions and feed more people as the population is keep increasing. Additionally, it can help to improve crops’ ability of resisting diseases, as a result, the use of pesticide can be largely reduced to protect the environment.

In conclusion, genetic engineering is a practical technology bringing us more convenience to life compared with problems it may cause.

Posted by: Kathy | October 14, 2019 at 22:55

Genetic engineering is one of the ground breaking advances in the era of modern science. Unfortunately, it has been perceived with a lot of scepticism. While some believes that it has a positive impact on our lives, others consider it as a major threat to the living beings on the planet. This essay will argue both the ideas will express my opinion. The novel idea of genetic modification began in the agriculture sector with the introduction of genetically modified crops. These crops were high yielding varieties which were resistant to diseases. Farmers soon began to mass cultivate these varieties which resulted in a considerable improvement in the agricultural outcome. Genetic engineering also had a greater impact in the field of medicine. For example in the field microbiology, it has been used tremendously for mass production of vaccines and other biological substances used for treatment of diseases. However, the worthiness of such genetically modified crops soon began to be questioned. These engineered crops with eventually began to outnumber the natural variety affecting the ecological balance, rising major outcry from environmental protection agencies. Yet another controversial development was cloning of animals. Research in human cloning also raises huge ethical issues. The major fear lingering around the idea of genetic modification is the emergence of a super living being which might pose a threat to humans on earth. Thus, to conclude, controversies always existed in this field of science. There are many advantages and disadvantages of genetic engineering, in fact, to this date advantages outnumber the short comings. I strongly believe that the opportunities of a regulated genetic engineering are tremendous and that it has to be promoted.

Posted by: azrudn | October 15, 2019 at 15:38

The comments to this entry are closed.

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ACT Writing Essay Prompt: Genetic Engineering

Genetic Engineering

Since the 1970s, humans have directly altered the DNA of animals, plants, and bacteria to produce desired traits. Genetic engineering has been used by the medical industry to manufacture insulin for the treatment of diabetes. The agricultural industry has utilized genetic engineering to create pesticide-resistant crops, improve the health value of soybeans, and increase the size of cattle. If the scientific community generally sees genetic engineering as a massive step forward, why is there such widespread opposition to the practice? As the use of genetic engineering increases, it is important to examine the potential consequences of directly altering DNA.

Read and carefully consider these perspectives. Each suggests a particular way of thinking about genetic engineering.

Perspective One

Genetic engineering will have detrimental effects on the environment. Artificially strengthening particular organisms will upset the natural balance of ecosystems, with disastrous consequences.

Perspective Two

Genetically modified organisms are superior to non-modified organisms in pest resistance, hardiness, and yield. Further genetic engineering of crops and livestock will help solve global food shortages.

Perspective Three

Genetically modifying organisms is ultimately no different from the cross-breeding that farmers have been doing for thousands of years. While the technology has improved, it's still just combining favorable characteristics of organisms to produce a better plant.

Write a unified, coherent essay in which you evaluate multiple perspectives on the question of weighing the potential benefits versus consequences of genetic engineering. In your essay, be sure to:

- analyze and evaluate the perspectives given

- state and develop your own perspective on the issue

- explain the relationship between your perspective and those given

Your perspective may be in full agreement with any of the others, in partial agreement, or wholly different. Whatever the case, support your ideas with logical reasoning and detailed, persuasive examples.

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105 Gene Essay Topic Ideas & Examples

🏆 best gene topic ideas & essay examples, 💡 interesting topics to write about gene, 📌 simple & easy gene essay titles, 👍 good essay topics on gene.

Molecular Cloning of GFP Gene Molecular cloning is a set of methods in molecular biology that is used to obtain multiple copies of the target DNA fragment. Bacterial transformation is a process of recombinant DNA insertion into a host bacterial […]
The Gene Therapy Development and Purpose Still, I do not think that people will “design” their babies in the future, as it is not the initial purpose of gene therapy.
Sustaining Proliferative Signaling in Instances of HER2 Gene Amplification The epidemiology of breast cancer and the methods of overcoming the growth of cancer cells are essential research topics in the current age.
Gene Therapy: History, Description, Steps, and Future The field of research concerning the modification of cells to cure certain diseases became known in the early 1970s. The success of the procedure was then published and performed in 2002.
Gene Therapy and Genetic Enhancement On the other hand, genetic enhancement targets modifying the genes to augment the aptitudes of an organism outside the ordinary. Somatic gene editing impacts the cells of an individual under treatment and it is inherited […]
Acute Lymphoblastic Leukemia: Causes, Origin, and Gene Mutation Apart from analyzing chromosome abnormalities present in patients with ALL, the purpose of this paper is to investigate the disorder’s origin, including primary causes and the process of gene mutations.
Gene Editing: Humanity’s Possible Doom The ethics of gene editing from an Islamic perspective: A focus on the recent gene editing of the Chinese twins. This article will be the primary citation in regards to the many advantages of gene […]
Companies in the United States Announce Plans for Gene-Edited Strawberries Keith further explains that the technology used in the production of potatoes is the same going to be used to produce strawberries.
Gene Mutation Effects and Prevention In the scientific world, gradual body change is a common occurrence witnessed in many parts of the world over a couple of years. In conclusion, the mutation causes a physical dysfunction and change in the […]
Gene Modification: Building Baby From the Genes Up Around the world raises the number of experiments on reducing the percentage of sick children, as well as modifying genes for appearance and character.
Molecular Genetics: Gene Sequence Homology The emergence of the Mendelian genetics in the 19th century and the discovery of DNA structure by James Watson and Francis Crick in the 20th century have paved the way for the development of molecular […]
Cutting-Edge Methods: Gene-Environment Interactions The advantage of the method of gene-environment interaction is that it allows assessing both environmental and genetic influences with certain accuracy.
Gene-Environment Interaction: Personality Development One of the studies dedicated to the issue of the gene-environment interaction of fragile x syndrome in twins was performed by Willemsen et al.
New Gene Discovered That Stops Spread of Cancer At this point, it is crucial to mention that the discovery by the Salk institute is just a beginning of a long scientific journey that is anticipated to culminate in a comprehensive and conclusive study […]
Discussion on Lab Report an E. Coli Bacteria Lacz Gene A synthesizing buffer was added to provide the suitable environment required for the synthesis of the new DNA strand. The addition of T4 DNA polymerase was to facilitate the hybridization of the old and the […]
Direct Marketing of Gene Tests The initiatives taken by the Human Genetics commission in UK that led to withdrawal of Sciona from the market was a great step.
Activation and Repression of Gene Expression The basis of the study is that modification of histones at the promoter and enhancer sites is critical in the activation of gene expression.
Inherited Mutant Gene Leading to Pompes Disease The main challenge in treating the disease lies in the manner in which it rapidly progresses and the high rates of mortality associated with it. The insufficiency of GAA results in accumulation of glycogen in […]
The Theory of Evolution. Gene Responsible for Hairiness One of the significant evolution of man that enabled him to conquer a wider area on earth compared to other primates is the acquisition of the upright posture which freed its hands.
The Gay Gene: Understanding Human Sexuality If this gene existed and it was similar to a gay gene, it would explain the difference in gay people. If this happened, there would be a great change in the way gay people are […]
The Genetics of Crime: ‘Criminal Gene’ The idea that criminal and offending behavior stands in the correlation with the genetic features of the offender is not a novelty of our time.
GEP (Gene Expression Profiling) on MM Prognostication GEP is traditionally performed in thirty-nine steps, which include the identification of the experimental design, the collection of genes, identification of samples, array preparation, provision of a targeted synthesis, hybridization, transformation of the key data, […]
Isolation the FtsZ Gene From a Donor Plasmid (pProEX) The final practical involved the screening of the Southern blot and testing the Taq polymerase colonies to confirm the results obtained in the previous session.
Gene Expression Using Quantitative Real Time PCR The establishment of the exact products of the expression of certain genes calls for specialized molecular analytical procedures. This experiment had an objective to determine the gene expression levels of the genes encoding CHOP/GADD153, BiP […]
Genetic Disorders That Can Be Treated With Gene Therapy It is in this context that the application of gene therapy has increased the hope of medical professionals in overcoming and controlling such failures in the treatment of genetic disorders.
The Gene Therapy: Crucial Aspects In the other common form of gene therapy, the modified gene cells are only corrected in the patient and the next generation does not get to inherit them.
Breast Cancer Susceptibility Gene (BRCA2) The mechanisms underlying the genetic predisposition to a particular disease are manifold and this concept is the challenging one to the investigators since the advent of Molecular Biology and database resources.
Process of Gene Expression One of the major mechanism through which gene expression is altered is addition where a base pair is added to the normal sequence hence changing the specificity of the protein that the code specifies.
Cancer: Gene Mutation’s Influence, Treatments As such, it could be safely argued that cancers are generally occasioned by the accumulation of mutations in our own genes, a process that leads the genes to decisively alter the behavior of cells, further […]
Germ Line Gene Manipulation: Designing Babies Germ line gene manipulation is the alteration of genomic content of zygotes or gametes by inserting genes into the Genome of Germ Cells.
Research Projects: Mutations in the Mstn Gene The nature of this mutation, which leads to disruption of the normal functioning of connective tissue, is the implementation of the gene knockout.
Whole-Genome Sequencing for Identification and Gene Function Prediction of Bacterial Genomes One of the most useful applications of the given approach is to determine the original source of an outbreak, and that is why WGS is actively used in epidemiology studies.
Embryonic Gene Testing and Manipulation Due to the technical advancements in the area, the possibility to choose the sex of a child, choosing the most healthy embryos, using donated sperms and eggs, has given man an almost godlike quality to […]
Genetics of Parkinson Disease-Associated PARK2 Gene The following description highlights various aspects of the Human Genome Project that are thought to be connected in a series of events in influencing the cloning of the PARK2 gene.
Subsequent Cloning of PARK2 Gene The following description is a series of important events that led to the identification and subsequent cloning of the PARK2 gene responsible for Parkinson’s disease.
Evolution: Gene Variations Among Different Species Coming to further observation of the analysis, it can be seen that there are certain positive and negative aspects pertaining to data analysis.
A Development and Characteristics of Vivo Gene Modification Techniques Once the genes were sucked into the bacterial virus, the researchers went about the difficult task of separating the ones they wanted from the rest of the genes in the “soup mix”.
Going Public: IPO Capital and Execution Strategy After careful analysis of what has been achieved within the current infrastructure of Gene One, the founding members of Gene One and the current board members are in agreement with the idea that Gene One […]
The Expression of the Bmp4 Gene and Its Role in the Evolutionary Process The scientists studied the expression of the Bmp4 gene due to the molecular basis in the size and shape of the beaks.
Gene Delivery Methods Analysis This method is one of the successful physical methods of gene delivery, which have shown good results and a 10 to 20 fold increase in the permeation of the genetic material.
Targeted Gene Therapy: A Fantasy or a Reality? The non-viral methods helped by increasing the simplicity of the introduction of the DNA into the body, the relatively less costly making of the drugs, and the absence of any immune response common to the […]
Gene Mapping Using Markers of Bactrocera Tryoni In the experiment, male back cross enabled the identification and differentiation of the nature of linkage that exists between the white marks and the white gene.
Gene Mapping with Molecular Markers Gene mapping of B.tyroni is significant in determining the locus of the white gene and the pattern of inheriting phenotypes and genotypes.
Cancer, Its Nature and Gene Therapy On closer inspection of the problem of cancer as a result of a genetic mutation, one will realize that the mechanism of the disorder in most cases is launched at an unspecified point in time […]
Gene Therapy: Risks and Benefits All over the world, “the technique is best known for the correction of defective genes so as to treat diseases; the most common procedural form of gene therapy involves the insertion of the functional gene […]
Gene Patenting and Organ Donation Profitability is the key to violating the law, and that is the reason for the lack of transparency in the tissue market.
Molecular System in Gene Editing Technologies According to scientists, the effect of this molecular system on the example of a man has not yet been investigated to the end.
Caenorhabditis Elegans: Unc-22 Gene Strong & Weak Alleles Studies involving the manipulation of the unc-22 gene including the introduction of mutations and silencing various alleles of the gene have helped elucidate the structure and function of the gene, which is beneficial to the […]
Genetic Technology and Gene Therapy: Ethical Issues However, we can be certain that the potential danger of the gene practices can be and actually is regulated; also, the Church does not object against the deployment of such techniques, and the “slippery slope” […]
Gene-Environment Interaction Theory The doctrine was, originally, generated by the scientists, Sandra Scarr, who suggested that genes may impact the constitution of the surrounding environment, which stimulates a certain niche of human responses and to the surrounding conditions.
Justice in Human Gene Transfer Therapy: Plato Views Plato’s idea of non-interference also can be applied to the first example of genetic treatment that individuals with an illness have their own specialization, thus treatment should not be provided as a disease is something […]
Green Fluorescent Protein and Gene Fusion The PCR was then used to amplify the GFP gene used in the experiment. The growth levels of the antibiotics can be clearly observed through the plates used in the experiment.
Facilitating Change within Gene One In the case of Gene One, leadership development is important as the company aims to stay ahead of the competition and ensure business challenges are transformed into opportunities.
Facilitating Organizational Change in Gene One The company should be willing to finance the technology department to contribute to the success of this strategy. This strategy will lead to the desired gains since it will improve the quality of the firm’s […]
Neural Stem Cells, Viral Vectors in Gene Therapy and Restriction Enzymes The nervous system is comprised of specialized type of cells called Neural Stem Cells. Developmental versatility of plasticity of neural stem cells is important in formation of these different neural cells.
The Revelations of Epigenetics: A New Way to Look at the Chances of Gene Expression While there is yet much to learn, it is clear even now that with the help of epigenetics, the cure for a number of genetic diseases can be found.
Concept of the Gene-Environment Interactions The main objective of the researchers’ study was to examine the cases of lung cancer with references to the multi-analytical approach with the help of which it was possible to analyze the impact of genetic […]
Gene Discovery: Ischaemic Stroke and Genetic Variations The scientists from the University of Oxford and other United Kingdom based research institutes sought to isolate a genetic variant to link to the disease to pave the way for development of suitable treatment.
Molecular Biology gene/ mRNA body To understand the development of the Huntington disease, the function of normal Huntingtin proteins has to be elucidated. The data suggested that normal Htt is a component of the P body and functions in the […]
Huntington’s Disease: The Discovery of the Huntington’s Gene Since the sex chromosomes are not involved in the production of this disease, both men and women are equally susceptible to Huntington’s disease The gene that causes huninton’s disease is dominant which means that only […]
Utilising Neural Network and Support Vector Machine for Gene Expression Classification
Relationship Happiness and Your DNA: How One Gene Encodes Emotional Sensitivity
The Life Experiences of Gene in A Separate Peace, a Novel by John Knowles
The Ethical Dilemma Of The Polio Vaccine, Gene Mapping, And Even Cloning
Moral and Ethical Issues in Gene Therapy
Macropinocytosis: Discovery of Macropinocytosis Gene Agpa and Therapeutic Potential
The Influence of Savageness on the Behavior of Gene in A Separate Peace, a Novel by John Knowles
The Genetic Observations Through the Studies of Hybrid Corn, Single Gene Human Traits
The Importance of Gene in Defining the Offspring’s Characteristics
The Hostility Between Gene And Finny In A Separate Peace By John Knowles
Teenage Difference in the Case of Gene and Phineas at the Devon School, New England
The Features of the Cystic Fibrosis Gene and Its Treatment
Use of Gene-Expression Programming to Estimate Manning’s Roughness Coefficient for High Gradient Streams
The End of the GMO? Genome Editing, Gene Drives and New Frontiers of Plant Technology
The Flaws of Perfection in The Goodness Gene by Sonia Levitin
Isolation and Characterization of the Chloroperoxidase Gene From Caldariomyces Fumago
The Deterioration of Finny and Gene’s Friendship in A Separate Peace by John Knowles
Neurological Effects Of Fos B Gene On Behavior Of Mice
The Friendship of Phineas and Gene in A Separate Peace by John Knowles
Transposon-Mediated Insertional Mutagenesis in Gene Discovery and Cancer
High-Dimensional Sparse Factor Modeling: Applications in Gene Expression Genomics
Technology and the Weakening of Human Gene Pool
The Dynamics of Sex Ratio Evolution: The Impact of Males as Passive Gene Carriers on Multilevel Selection
Investigation Of The Function Of Mutated Gene In Different Environmental Challenges
The Effects Of Foods And Food Constituents On Gene Expression
Understanding Gene Cloning and Genetic Engineering of Plants
Repression of Homeotic Gene Expression in Drosophila Resulting from Polycomb Group Mediated Actions
The Sociological Effects and Moral and Ethical Considerations of Gene
The Use of Biblical Allusions to Convey Gene’s Fall from Innocence in A Separate Peace, a Novel by John Knowles
The Dominant Characters of Gene and Finny in the Novel, A Separate Peace by John Knowles
The Types of Gene Therapy That Cures Diseases
Preparation of an Artificial Microrna Construct to Knockout a Specified Lipase Gene
The Therapeutic Potential of Gene Therapy
Oscillatory Dynamics Induced By Multi-Delays In Gene Expression
The Effects of the Cystic Fibrosis Gene on the Digestive System and the Lungs
Sex Determination By Amplification Of Amelogenin Gene From
Variations In Cytokine Gene Polymorphisms
Genetic Observations Through The Studies of Hybrid Corn, Single Gene Human Traits, and Fruit Flies
Role of Mutated Gene in the Evolution of Large Brained, Small-Jawed Humans
History And Procedures of Gene Therapy
The GMO Debate: Controversies Surrounding Recombinant Gene Technology and Attitudes of the British Public
The Significance of Controlling the Gene Responsible for Apoptosis Phenomenon in Age Control
The Hierarchical Regulation of Gene Expression in Mammalian Cells
The Role of Gene Regulation in Neural Circuit Development: Studies in the Zebra Finch
Disorders Ideas
Mental Disorder Essay Topics
Biomedicine Essay Topics
Animal Testing Topics
Bioethics Titles
Genetic Engineering Topics
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Genetic engineering is an important issue in society today. Some people think that it will improve people's lives in many ways. Others feel that it may be a threat to life on earth. Discuss both views and give your own opinion.

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genetic engineering
hereditary diseases
unintended consequences
socio-economic divide
regulations
enhancements
biodiversity
food security
biotechnology
gene editing
genetically modified organisms (GMOs)
synthetic biology
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The plans below show the layout of the university’s sports center now, and how it will look after redevelopment. Summarise the information by selecting and reporting the main features, and make comparisons where relevant.

Some people think that parents should teach children how to be good members of society. others, however, believe that school is the place to learn this. discuss both these views and give your own opinion., a cafe near your home puts some chairs and tables on the pavement for customers. this creates a problem for you. write a letter to the cafe manager to complain about this matter. in your letter describe the problem; explain how it affects you; say what you will do if this matter is not resolved., in some countries, more and more people are hiring a personal fitness trainer, rather than playing sport or doing exercise classes. what are the reasons for this is this a positive or a negative development, for many, shopping malls are great places to spend their leisure time and meet others. people, however, in the past mostly visited those when necessary. to what extent do you think this is a negative trend.

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132 Genetic Engineering Essay Topic Ideas & Examples
132 Genetic Engineering Essay Topic Ideas & Examples. Welcome to our list of genetic engineering essay topics! Here, you will find everything from trending research titles to the most interesting genetic engineering topics for presentation. Get inspired with our writing ideas and bonus samples!
102 Genetic Engineering Essay Topic Ideas & Examples
If you're looking for essay topics on genetic engineering, here are 102 ideas and examples to get you started. The ethical implications of designer babies. The use of genetic engineering in agriculture. The potential risks of gene editing in humans. The role of genetic engineering in personalized medicine.
Genetic Engineering Essay: 70 Topics With Essay Example
Genetically Engineering Plants and Animals - Essay Sample. Young in practice, a little over forty years old, genetic engineering has provided the scientific community with an abundance of knowledge once thought absurd. Genetic engineering means deliberately changing the genome of an organism to acquire some desired traits during its cultivation.
341 Genetics Essay Topic Ideas & Examples
Genetic Disorders: Causes and Treatment. The individual inherits some of the characteristics from the mother and the rest is inherited from the father. Genetic disorders may be passed from the parents to the offspring's during the process of fertilization. Criminal Behavior: Role of Environment and Genetics.
Essays on Genetic Engineering
Genetic Engineering. 2 pages / 835 words. Genetic engineering, also known as genetic modification, is the direct manipulation of DNA to alter an organism's characteristics (phenotype) in a particular way. It is a set of technologies used to change the genetic makeup of cells to produce improved or novel organisms.
115 Genetics Essay Topic Ideas & Examples
To help you get started, here are 115 genetics essay topic ideas and examples to inspire your writing: The impact of genetic engineering on agriculture. The ethics of genetic manipulation in humans. The role of genetics in determining intelligence. Genetic disorders: causes and treatments. The genetics of cancer.
60 Best Genetic Engineering Topics To Ace Your Grades Today
Genetics engineering is one of the popular areas of study today. The discipline was discovered back in 1850 and seeks to analyze the systems of heredity and genes in different species. Therefore, when your professor gives you assignments prompts, it is important to start by picking the right genetics topics for research papers.
Writing Prompts about Genetic Engineering
We'll create an entirely exclusive & plagiarism-free paper for 13.00 11.05/page 569 certified experts on site View More 🗃️ Essay Topics about Genetic Engineering. The ethical implications of genetic engineering in humans. The role of genetic engineering in agriculture and food production.
Human Genetic Engineering: Key Principles and Issues Essay
Genetic engineering is a recent breakthrough in humanity in the field of medicine, formulating one of the most complex processes. Genetic engineering technologies include the construction of functionally active genetic structures, their introduction into the human body, and integration into the genome (Wheale & Schomber, 2019).
Genetic Engineering
27 essay samples found. Genetic engineering, the deliberate manipulation of an organism's genetic material to achieve desired traits, has revolutionized medicine, agriculture, and various other fields. Essays on genetic engineering could delve into its techniques, applications, and the ethical considerations surrounding its use.
Essays on Genetic Engineering
Free essays on genetic engineering explore the ethical and scientific implications of manipulating the genetic makeup of organisms. These essays provide a comprehensive overview of the technology used in genetic engineering, its applications, and its potential to revolutionize medicine, agriculture, and industry. They also examine the social ...
204 Genetics Research Topics & Essay Questions for College ...
204 Genetics Research Topics & Essay Questions for College and High School. Genetics studies how genes and traits pass from generation to generation. It has practical applications in many areas, such as genetic engineering, gene therapy, gene editing, and genetic testing. If you're looking for exciting genetics topics for presentation, you ...
Genetic Engineering
Examples of genetic engineering applicable to GMO grains: Maize - Specific maize has been genetically engineered to express desirable traits in agriculture. Which includes resistance to pests and herbicides. Maize is also produced in a sense…. Genetic Engineering Genetically Modified Food Genetics. 9.
Essay on Genetic Engineering: Unlocking Human Potential
Conclusion. Genetic engineering is a powerful tool with diverse applications and immense potential to improve human health, agriculture, industry, and the environment. It has revolutionized medicine by enabling the development of therapies for genetic disorders and the production of pharmaceuticals.
IELTS Writing Task 2: 'genetic engineering' topic
Genetic engineering is an important issue in society today. Some people think that it will improve people's lives in many ways. Others feel that it may be a threat to life on earth. Discuss both these views and give your own opinion. This is one of the common topics that I covered in my ebook.
ACT Writing Essay Prompt: Genetic Engineering
ACT Writing Essay Prompt: Genetic Engineering. Genetic Engineering. Since the 1970s, humans have directly altered the DNA of animals, plants, and bacteria to produce desired traits. Genetic engineering has been used by the medical industry to manufacture insulin for the treatment of diabetes. The agricultural industry has utilized genetic ...
114 GMO Essay Topics & Samples
114 GMO Essay Topics & Examples. 6 min. To write a GMO argumentative essay, you will need an engaging topic that you will be able to explore in detail. Find it in the list below! We will write. a custom essay specifically for you by our professional experts. 810 writers online.
Genetic Engineering Essay
Genetic engineering, also called biotechnology, is a science in which genetic material is altered, transformed, and modified in various ways in order to manipulate certain characteristics of certain organisms or populations of organisms. Emerging in the 1970's, this new technology is a study of genetics, heredity, and can be applied to plants ...
Quia
Choose 1 of the following writing prompts. Use information from the video we watched to support your points. Your paper should have 4 paragraphs: Intro, main body 1, main body 2 and conclusion. 1. Scientists have been working on genetically engineering food for many years. In your 1st main body paragraph give 2 pros and 2 cons of genetic engineering food.
Ethics of genetic engineering essay!.docx
Prompt: Buy My Paper Thank you for considering my prompt again! Here is another high-quality essay at 1200 words on the complex topic of genetic engineering ethics in humans: Introduction Rapid advances in biotechnology have brought the powerful tool of genetic engineering to significantly influence the human genome. Techniques like CRISPR allow precise manipulation of DNA
Copy of Genetic Engineering Prompt/Passage Set.docx
The Ethics of Genetic Engineering Prompt & Passage Set Writing Prompt: As medicine and scientific research continue to advance, genetic engineering technology becomes more advanced and more readily available. This technology has the potential to benefit humans as well as other species in a variety of ways, but many fear that the dangers outweigh the potential benefits.
105 Gene Essay Topic Ideas & Examples
The epidemiology of breast cancer and the methods of overcoming the growth of cancer cells are essential research topics in the current age. Gene Therapy: History, Description, Steps, and Future. The field of research concerning the modification of cells to cure certain diseases became known in the early 1970s.
Genetic engineering is an important issue in society today
Band 7. Genetic engineering is an important issue in society today. Some people think that it will improve people's lives in many ways. Others feel that it may be a threat to life on earth. Discuss both views and give your own opinion. # society # people # lives # threat # life # earth. In recent years, genetic engineering progressed a lot and ...

Genetic Engineering Essay Guide With 70 Hot Topics

What Is An Essay on Genetic Engineering?

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Genetically Engineering Plants and Animals – Essay Sample

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Writing Prompts about Genetic Engineering

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Essays on Genetic Engineering

204 Genetics Research Topics & Essay Questions for College and High School

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Genetic Engineering - Free Essay Examples and Topic Ideas

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Pros and Cons of Genetic Enginering

De-Extinction

Cloning Issues

FAQ about Genetic Engineering

Essay on Genetic Engineering

Introduction to Genetic Engineering

Historical Background

Principles of Genetic Engineering

Applications of Genetic Engineering

Ethical and Social Considerations

Future Prospects

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105 Gene Essay Topic Ideas & Examples

Genetic engineering is an important issue in society today. Some people think that it will improve people's lives in many ways. Others feel that it may be a threat to life on earth. Discuss both views and give your own opinion.

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The plans below show the layout of the university’s sports center now, and how it will look after redevelopment. Summarise the information by selecting and reporting the main features, and make comparisons where relevant.

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