BiotechnologyProject Tyler Buchanan

Cloning

Cloning is the process of generating a genetically identical copy of a cell or an organism. It happens all the time in nature. Some individuals and groups have an objection to therapeutic cloning, because it is considered the manufacture and destruction of a human life, even though that life has not developed past the embryonic stage. There are many benefits to cloning like testing drugs on cloned animals to see if they are safe. Knowing the human genome is important because scientists can use it for testing on human embryos.
Genetically modified organisms, Gmos are made for mainly foods and animals. They get processed in labs and created to be used on animals and fertilizers
In 2009 the U.S. Food and Drug Administration approved the first clinical trial designed to test a human embryonic stem cell-based therapy, but the trial was halted in late 2011 because of a lack of funding and a change in lead American biotech company Geron’s business directive
DNA fingerprinting, also called DNA typing, DNA profiling, genetic fingerprinting, genotyping, or identity testing, in genetics, method of isolating and identifying variable elements within the base-pair sequence of DNA (deoxyribonucleic acid). An early use of DNA fingerprinting was in legal disputes, notably to help solve crimes and to determine paternity. The technique was challenged, however, over concerns about sample contamination, faulty preparation procedures, and erroneous interpretation of the results.
Polymerase chain reaction, (PCR), a technique used to make numerous copies of a specific segment of DNA quickly and accurately. The PCR technique is based on the natural processes a cell uses to replicate a new DNA strand.
Plasmid, in microbiology, an extrachromosomal genetic element that occurs in many bacterial strains. Plasmids are circular deoxyribonucleic acid (DNA) molecules that replicate independently of the bacterial chromosome. They are not essential for the bacterium but may confer a selective advantage. Plasmids are well suited to genetic engineering in other ways. Their antibiotic resistance genes, for example, prove useful in identifying those bacterial cells that have taken up the recombinant DNA molecule in a high background of untransformed cells (transformation frequencies are only about 1 out of every 100,000 cells).

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