Genetic engineering today is no longer a new term for the world. Every day in the newspapers, televisions, magazines the new inventions of genetic engineering are noticed. Genetic engineering may be described as the practice that manipulates organism's genes in order to produce a desired outcome. Other techniques that fall under this category are: recombinant DNA technology, genetic modification (GM) and gene splicing.

The roots of genetic engineering are connected to the ancient times. The Bible also throws some light on genetic engineering where selective breeding has been mentioned. Modern genetic engineering began in 1973 when Herbert Boyer and Stanley Cohen used enzymes to cut a bacteria plasmid and inserted another strand of DNA in the gap created. Both bits of DNA were taken from the same type of bacteria. This step became the milestone in the history of genetic engineering. Recently in 1990, a young child with an extremely poor immune system received genetic therapy in which some of her white blood cells were genetically manipulated and re-introduced into her bloodstream so that her immune system may work properly.

Genetic engineers hope that with enough knowledge and experimentation, it will be possible in the future to create "made-to-order" organisms. This will lead to new innovations, possibly including custom bacteria to clean up chemical spills, or fruit trees that bear different kinds of fruit in different seasons. In this way new type of organisms as well as plants can be developed.

Genetic engineering requires three elements: the gene to be transferred, a host cell into which the gene is inserted, and a vector to bring about the transfer. First of all, the necessary genes to be manipulated have to be 'isolated' from the main DNA helix. Then, the genes are 'inserted' into a transfer medium such as the plasmid. Third, the transfer medium (i.e., plasmid) is inserted into the organism intended to be modified. Next step is the element transformation whereby several different methods including DNA guns, bacterial transformation, and viral insertion can be used to apply the transfer medium to the new organism. Finally, a stage of separation occurs, where the genetically modified organism (GMO) is isolated from other organisms which have not been successfully modified.