Do you want to learn how to complete a genetic engineering essay like a pro? This top-notch guide is all you need to accomplish this task.
Genetic engineering as a college or university course does not attract more students than other courses. It may be as a result of the technical aspect of this course which requires a sharp mind. Those who desire to excel in it always seek professional assistance for essays on genetic engineering. This guide will handle everything you need to know about writing a tip-top genetic engineering persuasive essay. Keep reading.
What Is A Genetics Essay?
It is an academic paper that involves the study of the direct manipulation of one or more genes. Some common examples of genetic engineering include golden rice, faster-growing trees, and non-crying onions. Genetic engineering mainly uses biotechnology to manipulate the various genes of organisms.
Why Is Genetic Engineering Important?
We can draw the importance of genetic engineering from the digital transformation that the world is experiencing. With the change in lifestyles, new threats and opportunities are presented, requiring genetic engineering techniques to solve. As such, genetic engineering is helpful in the following ways:
- It leads to the production of more nutritious foods
- We can develop drought and disease-resistant crops
- It leads to less use of pesticides on farms
- It helps in maintaining food security
These are but a few of the benefits of genetic engineering, especially in plants. Therefore when you have an essay on genetic engineering, you can use any of the benefits above as your argument points. Questions like ‘why is genetic engineering good’ can be best answered by applying the concepts of genetic engineering to real-life situations.
Now let’s look at how you can write interesting essays on genetics:
How to Write an Essay on Genetic Engineering
Like any other essay, there is an outline that guides writing an essay on genetic engineering. With a proper structure, you can end up with a quality paper that will earn you world-class grades. Whether you are writing an essay on human genetic engineering definition or techniques used in genetic engineering, this is the structure to follow:
Genetic engineering essay introduction
The intro is the curtain opener to your paper and, as such, carries a lot of significance. You can keep your reader or turn them away depending on how you write your introduction. Since this is a technical subject, it would be best to include the following in your introduction:
- Definition of technical terms
- Background of the topic
- A good hook in terms of a question, quote, or statistics
Most of the readers of such papers will want to understand a particular concept in depth. Therefore, you have to dig deep and do your homework thoroughly before settling down to write your essay. Do not think that because you are registering on the disadvantages of genetic engineering in humans, you will only research one aspect, no! You will have to do a background and bring your topic to perspective for your reader.
Body of a genetic engineering paper
It carries the overall weight of the paper and thus has to be the subject of the utmost seriousness. The body is where you get to argue out your opinion on genetic engineering. Once you state your stance in the intro, you must defend it with facts, examples, statistics, and illustrations. These will enable you to convince your reader of the position you have taken.
When writing the body paragraphs, consider the following:
- Use topic clear and precise topic sentences
- Always illustrate your points with reliable examples
- Every idea should be in one section for clarity
- Ensure that your body paragraphs have a flow
A key pillar of this section is the sources that you use. Strive to use credible sources with authoritative writers behind them to avoid misleading your readers. Remember that this is not like a narrative essay where you will give a story based on your experiences. It requires solid scientific backing with proven experiments and findings. In the case of figures, ensure that they are accurate and updated.
Genetic engineering conclusion
It is where you get to wrap up your paper with a possible take-home for your reader. In most cases, genetic engineering essays are generally informative, analytic, or expository. Therefore, there is always something that the reader will carry home.
Your conclusion should include:
- A restatement of the thesis statement
- A summary of the top arguments discussed in the body paragraphs
- A call to action if necessary
Do not leave your reader to go away in suspense or with more questions than answers. Your paper should provide as many answers as possible, if not all.
To help you get started with your paper, here are some exciting genetic engineering ideas for you:
Hot Genetic Engineering Essay Topics
- Why GMO’s are causing more harm than good
- The role of genetic engineering in curbing climate change
- Why schools should introduce genetic engineering as a mandatory course
- Evaluate the genetic engineering curriculum
Controversial Genetic Engineering Topics
- Is it right to conduct cloning for any reason whatsoever?
- Effects of transplanting
- Why is green genetic engineering controversial?
- Effects of modifying hereditary properties of an organism
College Genetic Engineering Research Paper Topics
- Discuss the procedure of gene editing
- Results of the somatic cell gene therapy
- Risks of gene therapy on animals
- How to cure genetic disorders
Ideas For Pro And Cons Of Genetic Engineering In Humans
- Economic risks of genetic engineering
- Ecological disasters resulting from genetic engineering
- Faster growing crops
- Defeating diseases using genetic engineering
Genetic Engineering Essay Sample
Based on a number of research studies and reports, it is clear and evident that genetic engineering practices and operations mostly involved the manipulation of an organism’s genome especially through the use of biotechnological tools and procedures. Genetic engineering is a new technology that helps in making changes on the genetic makeup of cells and mostly includes the transfer of genes within different species in order to produce offspring’s with desirable qualities and characters in the society. In that sense, it can be argued that genetic engineering is a new method of increasing human enhancement practices including the creation of babies with perfect and desirable qualities in various societies such as in China, USA, Canada and Germany among many other countries in the global society (Powell et al. 22).
It is also worth noting that genetic engineering involves the creation and use of new DNA systems that are inserted in the host genome especially through isolating and copying genetic materials of interest to the new organism (Powell et al. 23). There are also some cases where genes are removed from the host species through homologous recombination methods in order to produce desired changes in the target organisms. Furthermore, it is true and evident that organisms that are created and developed through the application of genetic engineering procedures and methods are known as genetically modified organisms (GMO). Moreover, it is also true and evident genetic engineering techniques can be applied in a number of sectors including in research activities, in agriculture as well as in industrial biotechnology and other medical practices in the society (Powell et al. 25). In agriculture, genetic engineering has been used in order to produce crops with desirable qualities and in order to promote mass production of crops in the society. Therefore, the main aim, objective as well as purpose of this research paper is to discuss and outline some of the application of genetic engineering especially towards the provision of human enhancement conditions in the society. The paper will also include some of the major disadvantages and advantages of genetic engineering in the society. Finally, the paper will provide some of the best policies and procedures that can be adopted in order to reduce and control some of the major health care problems and risks associated with genetic engineering practices in the society.
According to a number of recent technological studies and reports, it is true and evident that genetic engineering mostly refers to the provision of direct manipulation of DNA in order to alter an organism’s characteristics, qualities as well as an organisms make up of cells (Harris 102). Genetic engineering is also known as genetic modification and mostly involves making changes in the genome and phenotype of organisms (Brown 87). In that sense, it may involve making changes in the genes such as deleting or copying some parts of the genes or extracting DNA from another organism’s genome and then combining it with the DNA of that individual. It is also true that medical providers and scientists usually use and apply genetic engineering in order to modify and improve the characteristics of an individual organism (Brown 90).
There are various cases where genetic engineering methods and procedures can be applied including in research studies, in agriculture as well as in medicine and other industrial biotechnological procedures (Sparrow 472). In medicine, genetic engineering is mostly used in to promote mass production of insulin, to promote human growth through manipulation of as well as in the treatment of infertility problems. It can also be applied in various procedures such as in human albumin, monoclonal antibodies production and in the production of vaccines and many other drugs for both human and animal treatment practices (Brown 84). However, the application of genetic engineering in biotechnology and other industrial applications include the transformation of microorganism such as bacteria and yeasts as well as the production of mass quantities of proteins especially through the application of fermentation systems. It is also true that genetic engineering can be used in human cloning activities in embryo transplanting systems in the somatic cells (Brown 88).
There are also those who argue that genetic engineering is part of modern methods of promoting breeding practices such as selective breeding practices, cell fusion as well as other mutation breeding systems. The process of genetic engineering first involves the isolation and selection of a gene that is then inserted in the genetically modified organism (Powell et al. 452). The genes are mostly isolated through the application of enzyme restriction systems and the gene which is inserted into the GMO must be combined with other genetic elements in order to promote proper working systems. It is also true that the most common method of genetic engineering mostly involves the insertion of new genetic materials within the host genome (Dresser 196). Despite this, it is worth noting that there are also other techniques such as the use and application of gene targeting systems. In most cases, gene targeting procedures are used in biotechnical genetic engineering systems (Powell et al. 18). In order to prevent the spread of diseases, medical providers and scientist usually use genetic engineering methods in order to introduce mutation systems (Morar 113). Genetic engineering can also be applied in activities such gene therapy systems in medical fields. Gene therapy is a mostly employed in humans and involves the replacement of defective genes with proper and effective genes (Jones 141). This process mostly occurs in somatic tissues and has been used in various regions in order to help individuals suffering from various health care problems such as in cases of Parkinson disease problems (Powell et al. 26).
There are various benefits of genetic engineering including the facilitation of duplication and manipulation of defective genes (Sparrow 464). It is also true and evident that genetic engineering techniques are useful in the process of conducting industrial and medical research systems. The provision of vaccines and other gene mutation systems has also been produced through the application of genetic engineering techniques (Taboada 183). Moreover, in agriculture genetic engineering has been used in order to promote the production of genetically modified organisms and in mass production systems (Mcconnell 415). Therefore, it is true and evident that genetic engineering is part of modern biotechnological procedures that has been used in a number of fields such as agriculture and medical fields in the society. There are also those who argue that genetic engineering is part of the modern green revolution activity since it helps in the production of GMOs. Some of the common benefits of genetic engineering in agriculture include the production of high quality products, providing enhanced efficiency of plants in terms of mineral and nitrogen content. It is also true that the use of genetic engineering in animal husbandry and agricultural practices mostly results in mass production at reduced a harvesting period (Murphy 196). It is also worth noting that genetic engineering has been applied in the provision of human insulin and in the production of growth hormones. The production of vaccines that prevent diseases is also part of genetic engineering techniques (Sparrow 468).
Furthermore, genetic engineering mostly helps in the production of disease resistant plants and animals in the society. This is because it involves the implantation of desirable genes with proper antigen and other anti-viral proteins in the host or target organisms (Harris 100). I also believe that genetic engineering is part of the procedures and techniques that can be used by medical providers in order to produce diverse organisms with variable characteristics and behaviors.
Despite this, there are various disadvantages of genetic engineering such as irreversible consequences and risks. In some cases, genetic engineering also hinders and interferes with religious beliefs and moral of various individuals in the society (Murphy 197). For example, it is true that God is the sole source of creation and there are some genetic engineering practices that negatively influence the course and law of nature (Murphy 198).
It is also true and evident that the process of genetic engineering is very tricky and risky and may lead to death of humans as well as organisms in the society (Powell et al. 439). In that sense, there is need for the consideration of environmental and human safety in the process of conducting genetic engineering practices in the society (Harris 101). There are also those who argue that genetic engineering practices limit diversity since they involved control techniques such as human cloning procedures. In countries such as China, genetic engineering has been applied in order to determine the sex of a baby and this is dangerous since it may results in the development of one gender in the society (Powell 225). There are also various ethical issues that should be considered in the process of developing genetic engineering techniques such as risks that are associated with gene mutation activities. I also believe that the majority of effects of genetic engineering are unknown and can lead to more problematic problems in the future. This may affect food production, human reproduction as well as the provision treatment methods in the society. It is also worth noting that the use and application of genetic engineering methods can lead to the creation new diseases and other health care problems in the society in future. Finally, as a Christian I believe that God is the only person who has power to change divine laws of nature.
In conclusion, it is true and evident that genetic engineering mostly involves the manipulation of genes of an organism with the aim providing desirable qualities and characteristics. In the process of conducting genetic engineering, the host genome is inserted by first isolating and copying the genetic material of interest especially through the application of modern cloning methods and other DNA sequence systems. There are a number of procedures involved in genetic engineering such as gene targeting activities and techniques that mostly involve the use of homologous recombination of genes. It is also true and evident that genetic engineering has been applied in a number of fields such as in medicine, in research as well as in industrial biotechnology and other agricultural practices in the society. Furthermore, several research studies and reports also indicate that genetic engineering has been used in order to produce a variety of drugs and hormones in order to promote human activities in the society. In countries such as China, genetic engineering has been used in order to reduce and control dwarfism problems among various individuals in the society. The use of genetic engineering has also been applied in various procedures such as in the production of perfect babies with desirable qualities and characteristics. It is also true and evident that effective application of genetic engineering can help in reducing and preventing various health care problems such as the reduction of HIV/AIDS problems, the control of cancer and other respiratory health care problems in the society. However, it is also worth noting that there are several disadvantages of genetic engineering such as the destruction of immune systems of individuals thus leading to risky health care problems. In that sense, there is need for consideration of various ethical procedures in the processing of conducting genetic engineering practices in the society. This may include the consideration of the environmental safety and other human safety factors.
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