Science has enabled humanity to thrive in a world where change is a prerequisite that must be achieved if an organism aspires to live. It allowed for the human race to bend and twist to accommodate to our needs. Death’s touch became a mere gesture we can avoid - most of the time. Although we stand at the forefront of human advancement, we are still held back. Genetic engineering, the direct modification of DNA, is the solution to the problems we continuously encounter today. Particularly, it would benefit areas such as food production, elimination of disease and disorders, and the fate of mankind itself. To begin with, food production has been a disputable matter for years because of the way it is being grown. For instance, crops are sprayed with pesticide …show more content…
Due to the fact that most incurable diseases/disorders are caused by the genes of a person, DNA modification can be used to create the best set of genes necessary to fend off any type of disease. Eventually if this type of genetic engineering is used on most of the world population, diseases such as cancer, Ebola, AIDS, and polio would completely disappear. Disorders like schizophrenia, diabetes, and asthma could also be wiped out of the gene pool altogether. Thus, the health of the future generations to come would be exceedingly enhanced. Besides becoming immune to illness, genetic engineering can change the course of human fate. The average lifespan of a person is around 70 years, but this can be extended by more years with genetic engineering. It doesn’t have to stop there. Not only would the life of a single person be longer, but they would be able to keep their youth for much longer. While the idea of a 60 year old woman who still retains her youthful appearance seems entertaining, it is highly plausible for a future with genetic
Genetic engineering can prevent children from being born with deadly diseases before they are born.
“With genetic engineering, we will be able to increase the complexity of our DNA, and improve the human race. But it will be a slow process, because one will have to wait about 18 years to see the effect of changes to the genetic code”(Hawking). Scientists have been practicing editing the DNA of organisms in order to remove unwanted genes and or enhance their survival rates. As technology advances, it allows this practice to become more precise and successful. Scientist have been having successful test in modifying human dna which causes more controversies on whether it should be allowed or not.Genetic engineering should be permitted due to its ability to benefit the medical and environmental future.To begin with the idea of potentially removing unwanted traits in DNA sequences, to aid in removing hereditary diseases.
The altering of human genes could save lives. You could cure cystic fibrosis or alzheimer's. This would save the lives of many (Doc. 3). This technology could also give you children with specific traits of your choice. Also, this engineering can leave people painfree. This is not good because they can’t detect danger. As a plus side, scientists will eventually take the gene that causes this and help cure those with chronic long lasting pains (Doc. 2). This would make more people happy and healthy across the nation! Eventually we could go so far as to make a genetically engineered nation. As you can see, Genetic Engineering also could have a positive effect on
Genetic Modification is often perceived as the answer to humanity’s faults because it will enhance human abilities, prevent the survival of incapacitating disabilities, and guide the innovation of the future. Sounds pretty good, right? That is not the reality. Genetic modification is not the solution to the ubiquitous problems of the human race, but rather infringes on individual rights, decreases diversity, permits too much power to the human race, and contributes to overpopulation.
Human genetic engineering can save people's lives now and could save more in the future. According to a New Scientist article (Le Page, 2015), Layla was three months when she was diagnosed with acute lymphoblastic leukaemia, a kind of cancer in the bone marrow. She underwent other treatments like chemotherapy, but those failed so she underwent gene therapy by using the TALEN protein to edit her genes to produce a cancer fighting T cell called UCRAT19; She survived and thrived (Le Page 2015). Saving someone’s life through human genetic engineering doesn’t even have to be as complicated as altering genes. According to TIME Health (Park, 2014), Mya Burkhart was six months old when her parents started to look for a cure to her rare mutation in the gene for citrate. This mutation prevented certain parts of her from getting enough energy, causing breathing and development problems, and after having no luck with any other diagnosis, a genetic scan figured out what the issue was and gave her citrate supplements (Alice Park, 2014). Both Layla’s and Mya’s lives were saved because of human genetic engineering. Layla was cured of cancer because of human genetic engineering, which is one toughest diseases for humans to cure right now, while Layla’s cancer was cured, but Mya’s condition was only treated so maybe if human genetic engineering could continue a cure could be developed to improve her life.
There are many incurable diseases in the world that affect an organism’s way of living. Cystic Fibrosis, a disease with no known cure, affects 1 out of 3600 Canadian child’s digestive system and lungs, while a person with sickle cell anemia is only expected to live forty to sixty years. Both of these diseases are similar in the way that they are inherited genetically; they are passed on from parents to their children. Scientists are producing a way to help these people called Genetic Engineering. This is a way of modifying an organism’s genome to produce a more desirable trait by manually adding new DNA.
Manipulating genes to behave according to what a person wants seems unrealistic. In our day and age, it is becoming a reality. Genetic engineering is being used in many ways, such as eliminating a specific genetic disease, or even selecting the gender and eye color of a baby (Skerrett). Genetic engineering is potentially dangerous.
Also, you can eliminate any possible diseases or mental disorders. Some mental disorders or diseases could be Aids, Autism, etc. Long life is guaranteed with the help of genetic engineering, as for Vincent from "Gattaca", since he wasn't genetically modified, he isn't given long to live. For crops, you can make crops that pests and diseases can't infect them. You could have the perfect family and everything could possibly be perfect with genetic engineering, but you shouldn't always trust it.
Imagine the possibility of eliminating serious genetic diseases from the world. Imagine the idea of treating, preventing or even curing diseases that are yet to be cured. Imagine the feeling of being given improved health and a prolonged lifespan. This can all be accomplished with the aide of genetic engineering. Human genetic engineering refers to the process of directly manipulating human DNA to produce wanted results. DNA is a simple but very complex chemical that has the power to change the world and has begun to do so already. Many opponents to gene therapy fail to realize that genetic engineering has great potential to become very important in the biomedical industry. Though controversy exists regarding the ethics of human genetic engineering, it can produce numerous benefits, which outweigh its disadvantages and side effects; therefore, scientists should be able to manipulate the human genome for the purpose of helping people with serious medical conditions.
With no disease or illnesses, humans can expand the length of life. Humans are beginning to live longer and longer because of modern day medical science. With genetic engineering, it could make our lives on earth even longer. “If we want to find the genes that help us remain physically active as we age, the genes that will allow us to play tennis when we’re 70 similar to when we were 40, we have to look beyond longevity as the sole criteria,” notes Tissenbaum, a professor of molecular biology. If scientist take genes that give us more physical activity when were young then when people become older their live a more physical lifestyle. Many individuals have a disease that holds them back in life from living a long life, but with the ability to genetically change that people would be able to live a longer healthier life.
This will be an uphill battle as the policies of the past and other forms of misinformation about how the process (such as the fear of GM grown food causing cancer) have divided the public. It is a luxury that we have the ability to choose what kind of foods we want to eat and how they are produced. But such luxuries will be hard to justify when many people are starving and there is not enough food for
People always look for miracles in their life. What if there is a way to miracles? Genetic engineering can create miracles, by making impossibles to possibles. From the name genetic engineering we can define that is all about genetics. Haircolor, color skin, eye color, long or short all comes from genes that are inherited from the parents. What if we can create and customize our gene to have specific traits and actions? Genetic engineering is more beneficial than risky and has a huge effect on the today’s society because it plays a major role with treating human diseases, for pharmaceuticals and genetically modified foods for people and animals.
Another possible use of genetics could be the production of healthy organs. For example, heart disease is one of the top causes of death in the United States. Scientists predict that they will someday be able to clone healthy heart cells and inject them into damaged areas of the heart to cure defects. There is also a possibility that doctors will be able to take healthy cells and tissue from a patient's body and use them to create organs. This would eliminate the need for organ donor waiting lists. People would no longer be facing early death because there is not a healthy heart or other organ available to them.
Every living thing is the product of the genes that were passed down from ancestors. Genes make up everything we are. One gets their traits from their parents. Most people live full lives with relatively good health. However, some people inherit mutated genes or faulty genes. This could lead to genetic disorders that could be life threatening. Even today, many genetic disorders still remain incurable, leaving many people without hope. Genetic therapy could be their answer. It is through this research that the cure for genetic disorders can be found. Though some people believe it is unethical or immoral to alter genes, current therapeutics have not been able to save the lives of the patients with these diseases. Genetic therapy
Genetic engineering is currently a growing field in which people are obsessing over. This is new and upcoming technology that combines genetic and Nanotechnological enhancements, which completes the direct manipulation of DNA to alter an organism’s characteristics in a particular way. In my opinion, it may very well be a great improvement, but it should only be used when necessary. If I were a parent of a child under 12 years of age, I would not sign up for the enhancement.