What is genetic engineering? Geneti

What is genetic engineering?
Genetic engineering is the process of manually adding new DNA to an organism.
The goal is to add one or more new traits that are not already found in that organism.
http://agbiosafety.unl.edu/basic_genetics.shtml
Why is important?
It allows us to fix the mistakes that nature made as well as improve the life that we have access to. Genetic engineering can also allow us to reduce the environmental impact of farming by making more food from less land and using less pesticides.
DNA is a ‘universal language’, meaning the genetic code means the same thing in all organisms.
http://agbiosafety.unl.edu/basic_genetics.shtml
https://th.answers.yahoo.com/question/index?qid=20070825042157AAtPUbg
How does it happen ?
Certain enzymes can cut pieces of DNA from one organism, and join them into a gap in the DNA of another organism. This means that the new organism with the inserted genes has the genetic information for one or more new characteristics.
The process: Once a goal is in mind…
1) First, find an organism that naturally contains the desired trait.
2) The DNA is extracted from that organism. This is like taking out the entire cookbook.
3) The one desired gene (recipe) must be located and copied from thousands of genes that were extracted. This is called gene cloning.
4) The gene may be modified slightly to work in a more desirable way once inside the recipient organism.
5) The new gene(s), called a transgene is delivered into cells of the recipient organism. This is called transformation. The most common transformation technique uses a bacteria that naturally genetically engineer plants with its own DNA. The transgene is inserted into the bacteria, which then delivers it into cells of the organism being engineered. Another technique, called the gene gun method, shoots microscopic gold particles coated with copies of the transgene into cells of the recipient organism. With either technique, genetic engineers have no control over where or if the transgene inserts into the genome. As a result, it takes hundreds of attempts to achieve just a few transgenic organisms.
6) Once a transgenic organism has been created, traditional breeding is used to improve the characteristics of the final product. So genetic engineering does not eliminate the need for traditional breeding. It is simply a way to add new traits to the pool.



Appications?
- Genetic engineering has applications in medicine, research, industry and agriculture and can be used on a wide range of plants, animals and microorganisms.
- In medicine, genetic engineering has been used to mass-produce insulin, human growth hormones, follistim (for treating infertility), human albumin, monoclonal antibodies, antihemophilic factors, vaccines, and many other drugs.
- In research, organisms are genetically engineered to discover the functions of certain genes.
- Industrial applications include transforming microorganisms such as bacteria or yeast, or insect mammalian cells with a gene coding for a useful protein. Mass quantities of the protein can be produced by growing the transformed organism in bioreactors using fermentation, then purifying the protein.
- Genetic engineering is also used in agriculture to create genetically-modified crops or genetically-modified organisms.
https://www.boundless.com/microbiology/textbooks/boundless-microbiology-textbook/microbial-genetics-7/genetic-engineering-products-93/applications-of-genetic-engineering-498-6642/