For instance, people with Sick Cell Anemia have a point mutation in the gene that codes for hemoglobin. Given that genes are inherited, that child will get the traits their parents were made with. At the same time, there is huge uncertainty about what could go wrong if seemingly troubling genes are eliminated. Some scientists even think that the clones will age quicker too. Cells are responsible for several different characteristics, so the complete isolation of a cell for a specific trait is difficult to do.
But one should always give a thought to all the disadvantages listed. All crops, organic and non-organic, are vulnerable to contamination from cross-pollinatation. It is not possible to design a toxin that would only kill crop-damaging pests and remain harmless to all other insects. It poses possible irreversible effects and consequences. Genetic engineering has the potential to increase the life span of humans.
In time, the approach in humans could be like what is already being done with plants and animals. We have already seen in humans that gene therapies can lead to additional genetic conditions, even if the targeted condition is improved. The equipment and specialty labs alone could easily add up to millions of dollars. Plants and animals can have specific traits developed through genetic engineering that can make them more attractive to use or consumption. Everyone will soon be the same and there will be no job oppertunites because anyone will be just like everyone else.
This may lead to other form of disease or conditions in human. Genetic Engineering could increase genetic diversity, and produce more variant alleles which could also be crossed over and implanted into other species. As this science progresses, we can create more treatments that allow us to be proactive more often against pathogens that can have life-threatening characteristics. Genetic engineering may be a proven science, but outcomes are not always predictable. Increase The Average Life Span The possibility of 150 year lifespan is within reach.
In particular, if both parents have health issues to begin with, they are worried that might get passed on to their child. Unusual Taste Genetically modified foods are observed to have unnatural tastes compared with the ordinary foods that are sold on the market. For genetically enhanced vegetation and animals, they may become super-organisms that can out-compete natural plants and animals, driving them into extinction. This might mean new mutations may occur when the current ones are being fixed. Genetic engineering in humans holds a lot of promise for a brighter medical future. As we all humans will have the same genome, as a population we may become susceptible to an unknown form of disease or virus and it may lead to the extinction of human population from the earth.
The technique used in this type of crop management has been introduced to ensure farmers and merchants are able to improve crop or food quality in a more efficient way. Seeds and crops can also be patented. We can even use genetic engineering to extend the lifespan of foods, allowing them to be shipped further because they can survive longer and in harsher conditions. We can also use genetic engineering to create larger yields from our crops. Though I do believe there should be some limitations on what we do with genetic engineering, it can cure so many genetic disorders and illnesses. Less Deforestation To sufficiently feed the growing population of the world, deforestation is needed. Although this may take a bit longer to achieve, but is does not seem impossible any longer.
At present, it is important to know that the real risks and benefits of genetic engineering lie in how science is interpreted and used. That striping is a fat deposit that was created, often in the breast meat, because of the rapid growth of the bird. Pathogens adapt to the new genetic profiles. Other advancements in the medical field can spring from genetic engineering. As alluded to earlier, the transfer of genes across organisms is prone to high probabilities of failures. Different colors can be created to produce a wider range of produce.
Another good discovery in genetic engineering of plants is the exclusion of the gene responsible for caffeine in coffee beans, creating decaffeinated coffee beans, which can then be grown naturally. If done, the consequences to our society would be numerous and unpredictable. Of that, 71 survived and 54 were genetically tested. The pituitary glands were removed from corpses, processed and the resultant hormone extract injected into people who were growth hormone deficient. Animals may be modified to produce more milk, but have a shortened lifespan at the same time so farmers suffer a greater livestock.
By engineering new types of bananas, additional disease resistance can be added to a species or crop and help it stay within the human food chain. Advantages of Genetic Engineering 1. Will there be societal or ethical consequences in pursuing this scientific field? We feared that soon we would be interfering with nature, trying to play God and cheat him out of his chance to decide whether we were blonde or dark haired, whether we had blue or bright green eyes or even how intelligent we were. This not only helps people get the nutrients they need, but also plays a significant role in fighting against malnutrition in third-world countries. Genetic engineering could help to prevent a lot of problems that occur at birth.
Advantages of Genetic Engineering in Humans: 1. There are high risks of gene mutations, new and more severe illnesses, and hereditary problems occurring in genetically engineered organisms. To some people, this is tantamount to abortion. Plus Genetic Engineering is against God's will, it's unnantural, and it crosses the species barrier. Allergic Reactions According to research by the Brown University, resent genetically modified foods can pose significant allergy risks to people. So there may be some things that you cannot genetically enhance much, and certainly not safely. New Products New kinds of crops are being developed to be grown at extreme climates, such as those present in dry or freezing environments.