IMPORTANCE OF TRANSGENIC ANIMAL IN THE HUMAN WELFARE

0
1746
transgenic -animal-human welfare
IMPORTANCE OF TRANSGENIC ANIMAL IN THE HUMAN WELFARE
IMPORTANCE OF TRANSGENIC ANIMAL IN THE HUMAN WELFARE
COMPILED  & Edited BY –DR. RK SINGH, JAMSHEDPUR, & DR. RAJIV KUMAR, SCIENTIST, ICAR, AVIKANAGAR
Acknowledgements: The updated information in this article has been contributed by many of my FB Friends .
Nowadays, breakthroughs in molecular biology are happening at an unprecedented rate. One of them is the ability to engineer transgenic animals, i.e., animals that carry genes from other species. The technology has already produced transgenic animals such as mice, rats, rabbits, pigs, sheep, and cows. Although there are many ethical issues surrounding transgenesis, this article focuses on the basics of the technology and its applications in agriculture, medicine, and industry.
What is a transgenic animal?
There are various definitions for the term transgenic animal. The Federation of European Laboratory Animal Associations defines the term as an animal in which there has been a deliberate modification of its genome, the genetic makeup of an organism responsible for inherited characteristics.5
A transgenic animal is one whose genome has been changed to carry genes from other species.
The nucleus of all cells in every living organism contains genes made up of DNA. These genes store information that regulates how our bodies form and function. Genes can be altered artificially, so that some characteristics of an animal are changed. For example, an embryo can have an extra, functioning gene from another source artificially introduced into it, or a gene introduced which can knock out the functioning of another particular gene in the embryo. Animals that have their DNA manipulated in this way are knows as transgenic animals.20
The majority of transgenic animals produced so far are mice, the animal that pioneered the technology. The first successful transgenic animal was a mouse. A few years later, it was followed by rabbits, pigs, sheep, and cattle Why are these animals being produced? The two most common reasons are:
Transgenic animals are useful as disease models and producers of substances for human welfare.
• Some transgenic animals are produced for specific economic traits. For example, transgenic cattle were created to produce milk containing particular human proteins, which may help in the treatment of human emphysema.
• Other transgenic animals are produced as disease models (animals genetically manipulated to exhibit disease symptoms so that effective treatment can be studied). For example, Harvard scientists made a major scientific breakthrough when they received a U.S. patent (the company DuPont holds exclusive rights to its use) for a genetically engineered mouse, called OncoMouse® or the Harvard mouse, carrying a gene that promotes the development of various human cancers
• How are transgenic animals produced?
Since the discovery of the molecular structure of DNA by Watson and Crick in 1953, molecular biology research has gained momentum. Molecular biology technology combines techniques and expertise from biochemistry, genetics, cell biology, developmental biology, and microbiology.
Scientists can now produce transgenic animals because, since Watson and Crick’s discovery, there have been breakthroughs in:
The insertion of a foreign gene (transgene) into an animal is successful only if the gene is inherited by offspring.
The success rate for transgenesis is very low and successful transgenic animals need to be cloned or mated.
• recombinant DNA (artificially-produced DNA)
• genetic cloning
• analysis of gene expression (the process by which a gene gives rise to a protein)
• genomic mapping
The underlying principle in the production of transgenic animals is the introduction of a foreign gene or genes into an animal (the inserted genes are called transgenes). The foreign genes “must be transmitted through the germ line, so that every cell, including germ cells, of the animal contain the same modified genetic material.” (Germ cells are cells whose function is to transmit genes to an organism’s offspring.)
To date, there are three basic methods of producing transgenic animals:
• DNA microinjection
• Retrovirus-mediated gene transfer
• Embryonic stem cell-mediated gene transfer
Gene transfer by microinjection is the predominant method used to produce transgenic farm animals. Since the insertion of DNA results in a random process, transgenic animals are mated to ensure that their offspring acquire the desired transgene. However, the success rate of producing transgenic animals individually by these methods is very low and it may be more efficient to use cloning techniques to increase their numbers. For example, gene transfer studies revealed that only 0.6% of transgenic pigs were born with a desired gene after 7,000 eggs were injected with a specific transgene
How do transgenic animals contribute to human welfare?
The benefits of these animals to human welfare can be grouped into areas:
• Agriculture
• Medicine
• Industry
The examples below are not intended to be complete but only to provide a sampling of the benefits.
1. Agricultural Applications
Transgenesis will allow larger herds with specific traits.
a) breeding
Farmers have always used selective breeding to produce animals that exhibit desired traits (e.g., increased milk production, high growth rate). Traditional breeding is a time-consuming, difficult task. When technology using molecular biology was developed, it became possible to develop traits in animals in a shorter time and with more precision. In addition, it offers the farmer an easy way to increase yields.
Scientists can improve the size of livestock genetically.
b) quality
Transgenic cows exist that produce more milk or milk with less lactose or cholesterol, pigs and cattle that have more meat on them, and sheep that grow more wool. In the past, farmers used growth hormones to spur the development of animals but this technique was problematic, especially since residue of the hormones remained in the animal product.
Disease-resistant livestock is not a reality just yet.
c) disease resistance
Scientists are attempting to produce disease-resistant animals, such as influenza-resistant pigs, but a very limited number of genes are currently known to be responsible for resistance to diseases in farm animals.
2. Medical Applications
Transplant organs may soon come from transgenic animals.
a) xenotransplantation
Patients die every year for lack of a replacement heart, liver, or kidney. For example, about 5,000OO organs are needed each year in the India alone.Transgenic pigs may provide the transplant organs needed to alleviate the shortfall. Currently, xenotransplantation is hampered by a pig protein that can cause donor rejection but research is underway to remove the pig protein and replace it with a human protein.25
Milk-producing transgenic animals are especially useful for medicines.
b) nutritional supplements and pharmaceuticals
Products such as insulin, growth hormone, and blood anti-clotting factors may soon be or have already been obtained from the milk of transgenic cows, sheep, or goats. Research is also underway to manufacture milk through transgenesis for treatment of debilitating diseases such as phenylketonuria (PKU), hereditary emphysema, and cystic fibrosis.
In 1997, the first transgenic cow, Rosie, produced human protein-enriched milk at 2.4 grams per litre. This transgenic milk is a more nutritionally balanced product than natural bovine milk and could be given to babies or the elderly with special nutritional or digestive needs. Rosie’s milk contains the human gene alpha-lactalbumin.
A transgenic cow exists that produces a substance to help human red cells grow.
c) human gene therapy
Human gene therapy involves adding a normal copy of a gene (transgene) to the genome of a person carrying defective copies of the gene. The potential for treatments for the 5,000 named genetic diseases is huge and transgenic animals could play a role. For example, the A. I. Virtanen Institute in Finland produced a calf with a gene that makes the substance that promotes the growth of red cells in humans.
Uses in industry include material fabrication and safety tests of chemicals.
3. Industrial Applications
In 2001, two scientists at Nexia Biotechnologies in Canada spliced spider genes into the cells of lactating goats. The goats began to manufacture silk along with their milk and secrete tiny silk strands from their body by the bucketful. By extracting polymer strands from the milk and weaving them into thread, the scientists can create a light, tough, flexible material that could be used in such applications as military uniforms, medical microsutures, and tennis racket strings.1
Toxicity-sensitive transgenic animals have been produced for chemical safety testing. Microorganisms have been engineered to produce a wide variety of proteins, which in turn can produce enzymes that can speed up industrial chemical reactions.
What are the ethical concerns surrounding transgenesis?
This article focuses on the benefits of the technology; however, thoughtful ethical decision-making cannot be ignored by the biotechnology industry, scientists, policy-makers, and the public. These ethical issues, better served in their own article, include questions such as:
Ethical concerns must be addressed as the technology grows, including the issue of lab animal welfare.
• Should there be universal protocols for transgenesis?
• Should such protocols demand that only the most promising research be permitted?
• Is human welfare the only consideration? What about the welfare of other life forms?
• Should scientists focus on in vitro (cultured in a lab) transgenic methods rather than, or before, using live animals to alleviate animal suffering?
• Will transgenic animals radically change the direction of evolution, which may result in drastic consequences for nature and humans alike?
• Should patents be allowed on transgenic animals, which may hamper the free exchange of scientific research?
Conclusion: Transgenic technology holds great potential in agriculture, medicine, and industry.
Conclusion
Interestingly, the creation of transgenic animals has resulted in a shift in the use of laboratory animals — from the use of higher-order species such as dogs to lower-order species such as mice — and has decreased the number of animals used in such experimentation,26 especially in the development of disease models. This is certainly a good turn of events since transgenic technology holds great potential in many fields, including agriculture, medicine, and industry.
Reference-on request
Please follow and like us:
Follow by Email
Facebook

Twitter

Visit Us
Follow Me
YOUTUBE

YOUTUBE
PINTEREST
LINKEDIN

Share
INSTAGRAM
SOCIALICON
READ MORE :  APPLICATIONS OF NANOTECHNOLOGY IN ANIMAL HUSBANDRY