In theory it could. A virus goes into a cell an replaces its DNA to make that cell produce more virus. So in theory we could make a viral infection that would go into the cells and change the DNA, it would be very completed though.
Breeding is more natural that Genetic engineering. Breeding is simply that you take sperm from the male animal of that species and inserted into the female either naturally or by artificial insemination. Genetic Engineering is when add genes from different things into that animal. This is usually done in a lab.
Genetic engineering when used on microorganisms help in the creation of new pharmaceuticals which cannot be made in any other way.Genetic engineering helps in the process of bioremediation which is the process of cleaning up waste and pollution with the help of living organisms.Genetic engineering has helped lower the overall usage of herbicide and pesticide.Genetic engineering has helped with the production of vaccines and other drugs in plants.Genetic engineering has helped produce quicker and more predictable way of generating new cultivars. Further, the cultivar properties are better known today than it was ever known before.Today, genetic engineering can produce sustainable agriculture.Genetic engineering has produced very useful genetically modified breeds which can tolerate factory farming without any suffering.In humans, genetic engineering is used to treat genetic disorders and cancer. It also helps in supplying new body parts.Although, this has not been done today, genetic engineering has the potential of creating new types of human beings with many advantageous traits.
· Genetic engineering may be one of the greatest breakthroughs in recent history alongside the discovery of the atom and space flight, however, with the above eventualities and facts above in hand, governments have produced legislation to control what sort of experiments are done involving genetic engineering. In the UK there are strict laws prohibiting any experiments involving the cloning of humans. However, over the years here are some of the experimental 'breakthroughs' made possible by genetic engineering.
Genetic engineering has been around for a long time, such as selective breeding of animal stocks, but the purposeful tweaking of DNA has only been around since the 1970s. For animal breeding, breeders chose the features they most liked in the animal and bred those that exhibited these features. For the more modern version, genetic engineering was started for various reasons. Genetic engineering found a way to produce artificial insulin, produced by bacteria, in order to meet the requirements of growing numbers of diabetics. Crops were engineered to withstand pesticides and herbicides so that farmers could spray the crops to kill the insects and weeds without damaging their plants.
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Genetic engineering can be done with animals, produce and bacteria. Organisms that undergo genetic engineering are called genetically modified organisms. Some of the earliest GMOs were bacteria and mice. Food products, glofish and zebra fish are some of the more recent GMOs.
Yes, bacteria can be genetically modified to express human genes. This is commonly done in biotechnology and genetic engineering for purposes such as protein production, drug development, and studying genetic diseases. The human genes are inserted into bacterial cells, which then produce the corresponding human proteins.
It is human nature to assert authority over fellow beings in order to get their way or the job done.
Breeding is more natural that Genetic engineering. Breeding is simply that you take sperm from the male animal of that species and inserted into the female either naturally or by artificial insemination. Genetic Engineering is when add genes from different things into that animal. This is usually done in a lab.
Genetic engineering techniques have been applied in numerous fields including agriculture. One of the best-known applications of genetic engineering in agriculture is genetically modified organisms.
Genetic engineering when used on microorganisms help in the creation of new pharmaceuticals which cannot be made in any other way.Genetic engineering helps in the process of bioremediation which is the process of cleaning up waste and pollution with the help of living organisms.Genetic engineering has helped lower the overall usage of herbicide and pesticide.Genetic engineering has helped with the production of vaccines and other drugs in plants.Genetic engineering has helped produce quicker and more predictable way of generating new cultivars. Further, the cultivar properties are better known today than it was ever known before.Today, genetic engineering can produce sustainable agriculture.Genetic engineering has produced very useful genetically modified breeds which can tolerate factory farming without any suffering.In humans, genetic engineering is used to treat genetic disorders and cancer. It also helps in supplying new body parts.Although, this has not been done today, genetic engineering has the potential of creating new types of human beings with many advantageous traits.
genetic engineering involves the transfer of genes from one organism to an unrelated species and this done with the help of bacteria
You can prevent a number of genetic dieseses and mental retardation from spreading to future generations along with other undisierable trait, or you can increase desireable traits such as longevity and memory skills. Also remember eugenics is an conglomerate science to improve the genetic human condition it can be done many ways such as voluntary selective breeding, genetic engineering and sterilization of extreme conditions.
· Genetic engineering may be one of the greatest breakthroughs in recent history alongside the discovery of the atom and space flight, however, with the above eventualities and facts above in hand, governments have produced legislation to control what sort of experiments are done involving genetic engineering. In the UK there are strict laws prohibiting any experiments involving the cloning of humans. However, over the years here are some of the experimental 'breakthroughs' made possible by genetic engineering.
Genetic engineering has been around for a long time, such as selective breeding of animal stocks, but the purposeful tweaking of DNA has only been around since the 1970s. For animal breeding, breeders chose the features they most liked in the animal and bred those that exhibited these features. For the more modern version, genetic engineering was started for various reasons. Genetic engineering found a way to produce artificial insulin, produced by bacteria, in order to meet the requirements of growing numbers of diabetics. Crops were engineered to withstand pesticides and herbicides so that farmers could spray the crops to kill the insects and weeds without damaging their plants.
Genetic engineering isn't something that can be done at home. It is the result of lengthy genetic research and experimentation at universities and laboratories. It requires a great deal of expertise and specialized equipent.
what research is currently being done on cri-du-chat