Recombinant DNA is widely used in
biotechnology, medicine and research. Today, recombinant proteins and other products that result from the use of DNA technology are found in essentially every pharmacy, physician or veterinarian office, medical testing laboratory, and biological research laboratory. In addition, organisms that have been manipulated using recombinant DNA technology, as well as products derived from those organisms, have found their way into many farms,
supermarkets,
home medicine cabinets, and even pet shops, such as those that sell
GloFish and other
genetically modified animals. The most common application of recombinant DNA is in basic research, in which the technology is important to most current work in the biological and biomedical sciences. It was the first genetically engineered food additive used commercially. Traditionally, processors obtained chymosin from rennet, a preparation derived from the fourth stomach of milk-fed calves. Scientists engineered a non-pathogenic strain (K-12) of
E. coli bacteria for large-scale laboratory production of the enzyme. This microbiologically produced recombinant enzyme, identical structurally to the calf derived enzyme, costs less and is produced in abundant quantities. Today about 60% of U.S. hard cheese is made with genetically engineered chymosin. In 1990, FDA granted chymosin "
generally recognized as safe" (GRAS) status based on data showing that the enzyme was safe.
Recombinant human insulin Recombinant human
insulin has almost completely replaced insulin obtained from animal sources (e.g. pigs and cattle) for the treatment of
type 1 diabetes. A variety of different recombinant insulin preparations are in widespread use. Recombinant insulin (
insulin aspart) is synthesized by inserting the human insulin gene into
E. coli or yeast (
Saccharomyces cerevisiae), which then produces insulin for human use. Insulin produced by
E. coli requires further
post translational modifications (e.g. glycosylation) whereas yeasts are able to perform these modifications themselves by virtue of being more complex host organisms. The advantage of recombinant human insulin is after chronic use patients do not develop an immune defence against it the way animal-sourced insulin stimulates the human immune system.
Recombinant human growth hormone (HGH, somatotropin) Human growth hormone is administered to patients whose pituitary glands generate insufficient quantities to support normal growth and development. Before recombinant HGH became available, HGH for therapeutic use was obtained from pituitary glands of cadavers. This unsafe practice led to some patients developing
Creutzfeldt–Jakob disease. Recombinant HGH eliminated this problem, and is now used therapeutically. It has also been misused as a performance-enhancing drug by athletes and others.
Recombinant blood clotting factor VIII Factor VIII is a blood-clotting protein that is administered to patients with the bleeding disorder
hemophilia, who are unable to produce factor VIII in quantities sufficient to support normal blood coagulation. Before the development of recombinant factor VIII, the protein was obtained by processing large quantities of human blood from multiple donors, which carried a very high risk of transmission of
blood borne infectious diseases, for example HIV and hepatitis B.
Recombinant hepatitis B vaccine Hepatitis B infection can be successfully controlled through the use of a recombinant
subunit hepatitis B vaccine, which contains a form of the hepatitis B virus surface antigen that is produced in yeast cells. The development of the recombinant subunit vaccine was an important and necessary development because hepatitis B virus, unlike other common viruses such as
polio virus, cannot be grown
in vitro.
Recombinant antibodies Recombinant antibodies (rAbs) are produced in vitro by the means of expression systems based on mammalian cells. Their monospecific binding to a specific epitope makes rAbs eligible not only for research purposes, but also as therapy options against certain cancer types, infections and autoimmune diseases.
Diagnosis of HIV infection Each of the three widely used methods for
diagnosing HIV infection has been developed using recombinant DNA. The antibody test (
ELISA or
western blot) uses a recombinant HIV protein to test for the presence of
antibodies that the body has produced in response to an HIV infection. The DNA test looks for the presence of HIV genetic material using
reverse transcription polymerase chain reaction (RT-PCR). Development of the RT-PCR test was made possible by the molecular cloning and sequence analysis of HIV genomes. HIV testing page from US Centers for Disease Control (CDC)
Golden rice Golden rice is a recombinant variety of rice that has been engineered to express the enzymes responsible for
β-carotene biosynthesis. Golden rice is not currently in use, pending the resolution of regulatory and intellectual property issues.
Herbicide-resistant crops Commercial varieties of important agricultural crops (including soy, maize/corn, sorghum, canola, alfalfa and cotton) have been developed that incorporate a recombinant gene that results in resistance to the herbicide
glyphosate (trade name
Roundup), and simplifies weed control by glyphosate application. These crops are in common commercial use in several countries.
Insect-resistant crops Bacillus thuringiensis is a bacterium that naturally produces a protein (
Bt toxin) with insecticidal properties. ==History==