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Genetic engineering

From Simple English Wikipedia, the free encyclopedia

Genetic engineering (GE), also called genetic modification, is a branch of applied biology. It is the changing of an organism's genome using biotechnology. These methods are recent discoveries. The techniques are advanced, and full details are not given here.

This is an overview of what can be done:

An organism that is altered by genetic engineering is a genetically modified organism (GMO). The first GMOs were bacteria in 1973;[2][3] GM mice were made in 1974. Insulin-producing bacteria were commercialized in 1982. Genetically modified food has been sold since 1994, including crops.

Herbert Boyer and Stanley Cohen created the first genetically modified organism in 1973

Genetic engineering techniques have been used in research, agriculture, industrial biotechnology, and medicine. Enzymes used in laundry detergent, and medicines such as insulin and human growth hormone are now manufactured in GM cells. GM animals such as mice or zebrafish are being used for research purposes.

Critics have objected to use of genetic engineering on several grounds, including ethical concerns, ecological concerns. Economic concerns are raised by the fact GM techniques and GM organisms are subject to intellectual property law. Ecological concerns are more subtle. There is a risk that some genetically modified (GM) organisms may be better adapted to some niche in nature, and will take away some the habitat of the regular species.

The Nobel Prize in Physiology or Medicine was won in 2012 by John B. Gurdon and Shinya Yamanaka for "the discovery that "mature cells can be reprogrammed to become pluripotent". The Nobel Prize for 2020 was won by Emmanuelle Charpentier and Jennifer Doudna for "the development of a method for genome editing". Together, these awards show how close we are to the practical use of genetic changes which could fix many medical problems.

Synthetic genomics

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The ability to construct long base pair chains cheaply and accurately on a large scale allows researchers to do experiments on genomes that do not exist in nature. The field of 'synthetic genomics' is beginning to enter a productive stage.

GMOs (genetically modified organisms) are involved in controversies over GM food. Is the food produced from GM crops safe? Should it be labeled, and are GM crops needed to address the world's food needs? These controversies have led to litigation, international trade disputes, and protests, and to restrictive regulation of commercial products in most countries.

We can now produce and use GM and GE seeds. Some large countries like India and China have already decided that GM farming is what they need to feed their populations. Other countries are still debating the issue.[4] This debate involves scientists, farmers, politicians, companies and UN agencies. Even those involved in the production of GM seedlings are not in total agreement.[4]

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References

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  1. Point mutations change a nucleotide single base pair.
  2. Cohen S; Chang A; Boyer H. & Helling R. 1973. Construction of biologically functional bacterial plasmids in vitro. Proceedings of the National Academy of Sciences of the United States of America 70 (11): 3240–3244. [1]
  3. Chang A.C.Y. & Cohen S.N. 1974. Genome construction between bacterial species in vitro: replication and expression of Staphylococcus plasmid genes in Escherichia coli. Proc Natl Acad Sci USA 71 (4):1030–1034. [2] Archived 2021-04-19 at the Wayback Machine
  4. 4.0 4.1 Rogers, Peter 2006. Introduction to sustainable development, pp. 87-88.