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Category Archives: Human Genetic Engineering

Human Genetics

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It has been a long time since Human Genetics got introduced to mankind. One can definitely think of it as a great achievement in the entire history of humans. It is the alteration of genes in a human being for making him or her resistant to different kind of diseases that can prove deadly, because Read more

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Major area for human genetic engineering debate revolves around the ethics involved in testing of genetics. Other areas for debate include selective eugenics as well as genetic discrimination. Apart from the above debates, the scientists have now been found busy on making debates on some other frightening prospects of human genetic engineering. Human genetic engineering Read more

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Human genetics research is a revolutionary change in the field of medical science. It has made several advances in this field. It entered this field many years ago when Hippocrates discovered nature laws can easily describe the body workings. This revolution identified that contaminated water is a primary reason that leads to a disease like Read more

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Many human genetic engineering pros and cons are there that have stayed the same since its introduction to humanity. When the humans started harnessing the atomic powers, then just few years later they also start recognizing the effects of human genetic engineering on mankind. Many scientists have a belief that gene therapy can be a Read more

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A primary debate topic among the people from western civilization is the effects of human cloning and genetic engineering. This topic has given place to a lot of controversies in that civilization. It is an asexual reproduction using genetic engineering. There is a huge relation between human cloning and genetic engineering. In fact, cloning cannot Read more

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Human Genetics

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Gene therapy – Wikipedia, the free encyclopedia

Gene therapy is the therapeutic delivery of nucleic acid polymers into a patient's cells as a drug to treat disease. The polymers are either expressed as proteins, interfere with protein expression, or possibly correct genetic mutations.

The most common form uses DNA that encodes a functional, therapeutic gene to replace a mutated gene. The polymer molecule is packaged within a "vector", which carries the molecule inside cells.

Gene therapy was conceptualized in 1972, by authors who urged caution before commencing human gene therapy studies. The first gene therapy experiment approved by the US Food and Drug Administration (FDA) occurred in 1990, when Ashanti DeSilva was treated for ADA-SCID.[1] By January 2014, some 2,000 clinical trials had been conducted or approved.[2]

Early clinical failures led to dismissals of gene therapy. Clinical successes since 2006 regained researchers' attention, although as of 2014, it was still largely an experimental technique.[3] These include treatment of retinal disease Leber's congenital amaurosis,[4][5][6][7]X-linked SCID,[8] ADA-SCID,[9][10]adrenoleukodystrophy,[11]chronic lymphocytic leukemia (CLL),[12]acute lymphocytic leukemia (ALL),[13]multiple myeloma,[14]haemophilia[10] and Parkinson's disease.[15] Between 2013 and April 2014, US companies invested over $600 million in the field.[16]

The first commercial gene therapy, Gendicine, was approved in China in 2003 for the treatment of certain cancers.[17] In 2012 Glybera, a treatment for a rare inherited disorder, became the treatment to be approved for clinical use in either Europe or the United States after its endorsement by the European Commission.[3][18]

Following early advances in genetic engineering of bacteria, cells and small animals, scientists started considering how to apply it to medicine. Two main approaches were considered replacing or disrupting defective genes.[19] Scientists focused on diseases caused by single-gene defects, such as cystic fibrosis, haemophilia, muscular dystrophy, thalassemia and sickle cell anemia. Glybera treats one such disease, caused by a defect in lipoprotein lipase.[18]

DNA must be administered, reach the damaged cells, enter the cell and express/disrupt a protein.[20] Multiple delivery techniques have been explored. The initial approach incorporated DNA into an engineered virus to deliver the DNA into a chromosome.[21][22]Naked DNA approaches have also been explored, especially in the context of vaccine development.[23]

Generally, efforts focused on administering a gene that causes a needed protein to be expressed. More recently, increased understanding of nuclease function has led to more direct DNA editing, using techniques such as zinc finger nucleases and CRISPR. The vector incorporates genes into chromosomes. The expressed nucleases then "edit" the chromosome. As of 2014 these approaches involve removing cells from patients, editing a chromosome and returning the transformed cells to patients.[24]

Other technologies employ antisense, small interfering RNA and other DNA. To the extent that these technologies do not alter DNA, but instead directly interact with molecules such as RNA, they are not considered "gene therapy" per se.[citation needed]

Gene therapy may be classified into two types:

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Gene therapy - Wikipedia, the free encyclopedia

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Human Genetic Engineering : History

Human Genetic Engineering : History 4.90/5 (98.07%) 83 votes

Human Genetic Engineering History goes back to the 1919 when an engineer from Hungary gave a term biotechnology to products developed by using raw materials. The engineer made use of this term in its best possible sense. Civilizations in the ancient times discovered that a lot of products can be made by using micro-organisms.

However, people that time have no idea about there are active agents in the microbes. Back in 7000 B.C. some existing tribes also made precious discoveries about how to make beer using yeast. TheHuman Genetic Engineering History continues going ahead since those times. There is a lot of difference between Biotechnology and genetic engineering.

In one hand, gene manipulation is the result of equating biotechnology. However, many aspects are there that define biotechnology. On the other hand, genetic engineering came to perspective, because of its specific technique for manipulating genes.

The term Human Genetic Engineering made it presence felt in 1970. This is the time when several methods were devised with the help of molecular biologists for identifying or for isolating clone genes. Methods were also devised for manipulating the genes to other species or for mutating them in humans.

Restrictive enzymes got discovered during this research, and many have considered as the main success in the Human Genetic Engineering History. This enzyme can make organisms to isolate the DNA, and then it gets mixed with a vector preparation. Hybrid molecules can easily be generated with the sticky ends virtue. This molecule contains interest genes that can later get inserted into the vector.

Ethical concerns involved in Human Genetics

Many scientists knew that a lot of risk is there during the transfer of genes from one person to the other. Human Genetic Engineering History contains all the factors responsible for the invention of genetic engineering as a part of advance sciences. They found that their labs have been poised when they started experimenting clone genes.

Scientists also organized several meetings in order to discuss the risks involved in the transformation of genes. All scientists were given a chance to keep their points of view on the above subject. They made discussion on all the dangers that can potentially take place during their research. However, the meeting went unprecedented.

In this meeting, they made necessary or relevant decisions regarding the amount of time that might be needed for sorting out the solution. Certain guidelines came to existence for the recombinant organism biological and physical isolation. This should be done for ensuring that the organisms do not get mixed with the environment. Human Genetic Engineering History involves profound or numerous consequences.

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Pros and Cons of Genetic Engineering in Humans – Part 1

The human body is not perfect. Some are created with inherent faults and others break down before their time. Science has the potential to make good these problems by altering how humans are made. This is genetic engineering, and this article looks at the pros and cons of the technology in humans

This is part one of a two-part series. Here I will look at a definition of genetic engineering and the pros of human genetic engineering. In part two the cons and the ethics of human genetic engineering are discussed.

Before weighing up the pros and cons of genetic engineering in humans, it's worth taking the time to understand just what is meant by the idea. Simply put, it's a way of manipulating our genes in such a way as to make our bodies better. This alteration of a genome could take place in the sperm and egg cells. This is known as germline gene therapy and would alter the traits that a child is born with. The changes would be inheritable and passed down through the generations. It is currently illegal in many countries.

The other way to change our genome is to swap our bad genes for good ones - in cells other than the sex cells. This is known as somatic cell gene therapy. This is where a functioning gene could be fired into our bodies on a viral vector to carry out the functions that a faulty gene is unable to. This technology is permitted, though it has enjoyed a very limited success rate so far (largely because it is technically very difficult). Nonetheless, it still holds out a great deal of promise.

There are many potential advantages to being able to alter the cells in our bodies genetically.

To make disease a thing of the past

Most people on the planet die of disease or have family members that do. Very few of us will just pop up to bed one night and gently close our eyes for the last time. Our genomes are not as robust as we would like them to be and genetic mutations either directly cause a disease such as Cystic fibrosis, or they contribute to it greatly i.e. Alzheimer's. Or in the case of some conditions such as the heart disease Cardiomyopathy, genetic mutations can make our bodies more susceptible to attack from viruses or our own immune system. If the full benefits of gene therapy are ever realised we can replace the dud genes with correctly functioning copies.

To extend life spans

Having enjoyed life, most of us want to cling on to it for as long as possible. The genetic engineering of humans has the potential to greatly increase our life spans. Some estimates reckon that 100-150 years could be the norm. Of course gene therapy for a fatal condition will increase the lifespan of the patient but we're also talking about genetic modifications of healthy people to give them a longer life. Once we fully understand the genetics of ageing it may be possible to slow down or reverse some of the cellular mechanisms that lead to our decline - for example by preventing telomeres at the ends of chromosomes from shortening. Telomere shortening is known to contribute to cell senescence.

Better pharmaceuticals

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HYBRIDS, NEPHILIM, HUMAN GENETIC ENGINEERING & TRANSHUMANISM – Video


HYBRIDS, NEPHILIM, HUMAN GENETIC ENGINEERING TRANSHUMANISM
Tom Horn discusses transhumanism and trans genetic manipulation Behind closed doors scientists and corporations have breached genetic codes that separate the individuality of all animal and...

By: Icelandic Watchman

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HYBRIDS, NEPHILIM, HUMAN GENETIC ENGINEERING & TRANSHUMANISM - Video

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UK Bishops voice opposition to human genetic engineering | Newsbreak 2-26-2015 – Video


UK Bishops voice opposition to human genetic engineering | Newsbreak 2-26-2015
UK Catholic Bishops voice opposition to House of Lords approval of genetic modification to the Human germ line. -Archdiocese of Detroit #39;s central services are settling into their new space....

By: The CatholicTV Network

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UK Bishops voice opposition to human genetic engineering | Newsbreak 2-26-2015 - Video

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