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With the interpretation of genetic code by Hargobind Khorana an India born American scientist infor which he received Nobel Prize mere hopes were changed into a real approach to gene therapy.
The concept of hereditary factors in all biological species came from Austrian Botanist Gregor John Mendel in eighteen eighties.
Genetic engineering in farm animals used for human consumption is done to improve their health, growth rate, resistance to diseases, meat, milk, and wool production. Animals can also be engineered to enhance their aesthetic qualities and act as pets (Ormandy, Dale, & Griffin, ). Researchers have been working for decades to bring gene therapy to the clinic, yet very few patients have received any effective gene-therapy treatments. But that doesn't mean gene therapy is an impossible dream. Even though gene therapy has been slow to reach patients, its future is very. Gene therapy attempts to treat genetic diseases at the molecular level by correcting what is wrong with defective yunusemremert.comal research into gene therapy’s safety and effectiveness has just begun.
The name genes were given to these factors by Wilhelm Johannesen a Danish biologist. The nomenclature became firm. Later research in the field established that genes have many functions. An important one is the formation of a large number of proteins.
The genes, the scientists say, mastermind the whole process of life in all living creatures. Still it was shrouded with mystery till when J.
DNA is a complex nucleoprotein. It contains body's 50, to 1, 00, genes. These genes are arranged in a pattern that is unique to each individual. It is this peculiarity that makes every individual different from the other. Different genes in different parts of the body have different functions.
The gene for a particular trait is placed at a particular location in the chromosomes. Moreover, the genes play an important role of manufacturing thousands of different proteins from 20 amino acids. The genes, thus govern the immune system too. One can just guess how many problems can be created in the body if any particular gene is broken, is diseased or is eliminated.
Treating, slicing, removing and transplanting the genes is known as Genetic Engineering. It was formerly a part of science fiction.
But with a successful experiment on a four years old girl at National Institute of Health, Bethseda in USA the decoding of the mystery of genes began.
The girl was born with no natural protection against disease as her immune system lacked a particular gene responsible for it. Her blood cell was taken and altered to contain the particular gene, was multiplied and she was injected with one billion of her own blood cells.
In another case the doctors altered genes to counteract malignant melanoma. It is a fatal disease. A cell known as tumour infiltrating lymphocytes was removed and a gene that manufactures a cancer fighter was inserted in it.
These cells were reproduced by millions and injected into the patient. The results have been very encouraging.
Thomas Caskey of the Baylor University College of Medicine in Houston is a pioneer in the method of introducing a crippled virus with a corrected gene into the body of a patient. He has specialized it in bone marrow transplantation.
Ronald Crystal of the National Heart, Lung and Blood Institute used the same system to correct a genetic flaw that causes the lung infection. A thick mucous deposit in the lungs stopping its function. Research at Stanford University and Michigan University show that muscle cells can also be genetically altered.
Experiments have been successfully made at Ohio University on rodents to provide genetic protection against leukaemia. Researches in different countries in the world have estimated that there are about four thousand disorders because of defects in genes.
These may be at the time of birth or may develop in later years. If the researches continue with the same spirit and enthusiasm it is a question of a few decades that Genetic Engineering will replace the conventional treatments in the medical world for the cure of a large number of diseases.Human gene therapy is a procedure that is being used in an attempt to treat genetic and other diseases.
Many ethical, social and safety concerns are being raised on the use of human genetic engineering. About Human Germline Gene Editing Expert calls for a moratorium on germline gene engineering are not a substitute for richer public debate on the ethics and politics of our biotechnological futures.
CRISPR cures inherited disorder in mice, paving way for genetic therapy before birth. Genetic engineering in farm animals used for human consumption is done to improve their health, growth rate, resistance to diseases, meat, milk, and wool production.
Animals can also be engineered to enhance their aesthetic qualities and act as pets (Ormandy, Dale, & Griffin, ). There are several methods for non-viral gene therapy, including the injection of naked DNA, electroporation, the gene gun, nonoperation, magnetofection, and the use of oligonucleotides, lipoplexes, dendrimers, and inorganic nanoparticles.
Essay on Genetic Engineering (For College and Medical Students) | Biology. Essay on Gene Therapy ; 1. Essay on the Introduction to Genetic Engineering: (gene cloning).
Thus the genetic engineering is also called “recombinant-DNA technology”. The arguments for gene therapy may be as follows: Gene therapy may lead to reverting genetically-prone illnesses, hence saving us from many forms of cancers and other inherited diseases.