РефератыИностранный языкHuHuman Genome Project Essay Research Paper What

Human Genome Project Essay Research Paper What

Human Genome Project Essay, Research Paper


What is the Human Genome Project?


The Human Genome Project (HGP) is an international research


program designed to construct detailed genetic and physical maps of the


human genome, to determine the complete nucleotide sequence of


human DNA, to localize the estimated 80,000 genes within the human


genome, and to perform similar analyses on the genomes of several other


organisms used extensively in research laboratories as model systems.


This project is estimated to take 15 years to complete from October 1990


and has already cost the U.S. 2.5 billion dollars. The scientific products


of the HGP will comprise a resource of detailed information about the


structure, organization and function of human DNA, information that is


the basic set of inherited instructions for the development and


functioning of a human being.


What is the overall goal of the Project?


In September, advisory committees at DOE and NIH approved new


5-year goals aimed at completing the Human Genome Project two years


earlier than originally planned in 1990. The new plan, published in the


October 23, 1998 issue of Science, covers fiscal years 1999-2003 and


calls for generating a “working draft” of the human genome DNA


sequence by 2001 and obtaining the complete and highly accurate


reference sequence by 2003. A new goal focuses on identifying regions of


the human genome that differ from person to person. Although the vast


majority of our DNA sequences are the same, scientists estimate that


humans are 99.9% identical genetically. These DNA sequence variations


can have a major impact on how our bodies respond to disease,


environmental insults, such as bacteria, viruses, toxins, drugs and other


therapies.


Other major goals outlined in the plan include exploring the


functions of human genes using methods that include comparing human


DNA sequences with those from organisms such as the laboratory mouse


and yeast. Then they must address the ethical, legal, and social issues


surrounding genetic tools and data, develop the computational capability


to collect, store, and analyze DNA.


If successful, the completion of the human DNA sequence in 2003


will be the 50th anniversary of Watson and Crick’s description of the


fundamental structure of DNA. Already revolutionizing biology, genome


research provides a vital thrust to the increasing productivity and


pervasiveness of the life sciences. Current and potential applications of


genome research address national needs in molecular medicine, waste


control and environmental cleanup, biotechnology, energy sources, and


risk assessment.


Scientific Processes


Chromosomes, which range in size from 50 million to 250 million


bases are broken into very short pieces. Each short piece is used as a


template to generate a set of fragments that differ in length from each


other by a single base (template preparation and sequencing reaction


steps). Now the fragments in a set are separated by gel electrophoresis.


Then fluorescent dyes allow separation of all four fragments in a single


lane on the gel. The final base at the end of each fragment is identified


(base calling step). This process recreates the original sequence of As,


Ts, Cs, and Gs for each short piece generated in the first step. Current


electrophoresis limits are about 500-700 bases sequenced per read.


Automated sequences analyze the resulting electropherograms and the


result is a four-color chromatogram showing peaks that represent each


of the 4 DNA bases. After the bases are read by a computer, another


computer is used to assemble the short sequences in blocks of about 500


bases each, called the read length into long continuous stretches that are


analyzed for errors, gene-coding regions, and other characteristics.


Finished sequence is submitted to public sequence databases, such as


GenBank. Now The Human Genome Project sequence data is made free


to anyone around the world who would like to view it.


Benefits of the completed Project


This project will be a great jump in understanding human genes


which will provide us with many answers we would like to know, and


many that we haven’t thought about yet. Genome maps of oth

er


organisms will provided so we can compare them to the human genome


and let us compare and understand other biological systems.


Information generated and technologies developed will revolutionize


future biological explorations.


Genes involved in various genetic diseases will be found, and


further studies will lead to an understanding of how those genes


contribute to genetic diseases. Among these diseases will be the genes


involved in cancer. Medical practices will be altered when new clinical


technologies based on DNA diagnostics are combined with information


coming from genome maps. Researchers will be able to identify


individuals predisposed to particular diseases and come up with


therapeutic practices based on new classes of drugs, immunotherapy


techniques, avoidance of environmental conditions that may trigger


disease, and possible replacement of defective genes through gene


therapy.


Another benefit will come from understanding genetic similarities


between mammals and humans. There isn’t that much difference


between human biology and cattle or mouse biology. What we learn


about human genetics will help us to raise healthier, more productive,


disease-resistant farm animals that might, through wise and careful


genetic engineering, produce drugs of value to us.


Technologies, databases, and biological resources developed in


genome research will have an enormous impact on a wide variety of


biotechnology-related industries in such fields as agriculture, energy


production, waste control, and environmental cleanup. The potential for


commercial development presents U.S. industry with a great deal of


wealth and opportunities from sales of biotechnology products.


The Criticism


With all the benefits people tend to forget about a lot the things


that could hurt our way of life by uncovering this information. This new


information could be used to take biological warfare to a new level that is


incomprehensible. It could also create a form of genetic racism that


could separate countries and states.


There are some less serious but still very important legal and social


and ethical issues that will also need to be addressed. One of the major


ethical issues is if we will allow this technology to be used to genetically


engineer a so called “Super Race”. In my opinion I don’t think messing


human nature in this way is a good idea at all. It could cause less


genetic diversity which makes humans what they are. There’s also the


big picture of over population and how it could ruin our planet. Nature


has to take it’s course even with this technology unless we can figure out


how to make other planets inhabitable for humans.


Genetic Information Discovered So Far


According to the Genome Database (GDB), the public repository for


human genome mapping information, over 7600 genes had been mapped


to particular chromosomes in January 1999. Tens of thousands of


human gene fragments have been identified as expressed sequence tags


(EST’s). These are also being assigned to positions on chromosome maps


The physical mapping goal is to establish a marker every 100,000


bases across each chromosome (about 30,000 markers). The most


complete map yet was published in summer 1997 and featured about


8000 landmarks, which provided about twice the resolution of previous


maps. Similarly detailed maps have been produced for a few individual


chromosomes, but this map offers landmarks across the entire human


genome that are also positioned relative to each other. Currently an


estimated 5% of the human genome has actually been sequence.


My Opinion


In my opinion I believe that the information found by the Human


Genome Project is going to be a useful tool for our future, and well worth


the billions of dollars it is costing us. But there will need to be laws


made to protect it from being misused. It should be used to cure


diseases by gene therapy and to better our lives with this technology. It


shouldn’t be used to make a “Super Breed” of humans or cloning. The


information should also be banned from being used in the military. If


this information is not used improperly I believe it will better our lives.


Bibliography


None…

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