Bioinformatics
THE PRESENT
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BIOINFORMATICS IN THE NOW
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BASIC RESEARCH
Without bioinformatics, the massive amounts of genomic data are impossible to handle. Millions of DNA sequences are sorted and assembled with bioinformatics software. Bioinformatics methods, with the use of knowledge accumulated in public databases such as NCBI, Pubmed and other databases, make it possible to systematically dissect large gene lists in an attempt to assemble a summary of the most enriched result in current biology.
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BIOMEDICINE
The human genome has profound effects on the fields of biomedical research and clinical medicine. Diseases have a genetic component and with the completion of the human genome, we can search for the genes directly associated with different diseases. We can also begin to understand the molecular basis of these diseases more clearly. This new knowledge of the molecular mechanisms of disease will enable better treatments, cures and even preventative tests to be developed.
MICROBILOGY
Bioinformatics is essentially a biological study that uses computational approaches. Microbiologists can utilize bioinformatics in order to be able to successfully apply available tools and correctly interpret results from the lab. Both an informatical and a biological viewpoint are needed to produce data that help microbiology progress.
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AGRICULTURE
Bioinformatics have established a crucial role in agricultural sciences. The improvement of goods from animal, plants, and microbial worlds for human nutrition and health requires the comprehension of the molecular mechanisms influencing the structure and the function of the individuals, the populations, and the communities
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