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Solved Past Papers: BT504 – Genomics and Proteomics
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Genomics is a complex biological discipline that focuses on the formation, functioning, evolution, design, and arrangement of genomes. The genome is a complete set of living DNA, encompassing all of its genes and its class, a three-dimensional configuration.
In contrast to genetics, which refers to the study of individual genes and their roles in heredity, genomics aims to classify and classify all genes of living organisms, their relationships, and their impact on living things. BT504 FINAL TERM PAST PAPERS MEGA FILE
Genetics can regulate protein production with the help of enzyme and messenger molecules. Also, proteins form nutrients such as organs and tissues and regulate chemical reactions and regulate signals between cells. Genomics also involves sequencing and analyzing genomes through the use of high-sequence DNA sequencing and bioinformatics to integrate and analyze the function and structure of all genomes. Advances in genomics have led to changes in research based on the discovery and biology of systems to make it easier to understand even the most complex biological systems like the brain.
The Human Genome Project, led by the National Institutes of Health (NIH) by the National Human Genome Research Institute, has produced a high-quality version of the human genome sequence available for free on the public website. That international project was successfully completed in April 2003, under budget and more than two years ahead of schedule. BT504 FINAL TERM PAST PAPERS MEGA FILE
The Human Genome Project is designed to produce a resource that can be used for a wide range of biomedical studies. One such use is to look at genetic variants that increase the risk of certain diseases, such as cancer, or to look at the genetic mutations that are commonly seen in cancer cells. Further research can be done to better understand how the genome works and to determine the genetic basis for health and disease.
Proteomics is a major proteome study. A proteome is a set of proteins produced by living organisms, in a system, or in a biological context. We may refer to, for example, a proteome of some kind (for example, Homo sapiens) or an organ (for example, liver). The proteome does not change; varies from cell to cell and changes over time. To some extent, the proteome represents the transcriptome below. However, protein function (usually assessed by the reaction rate of processes in which protein is involved) is also altered by many factors in addition to the level of expression of appropriate genes.
Overall, proteomic research provides a global overview of the mechanisms underlying healthy and diseased cell levels at the protein level.3,4 To do this, each proteomic study usually focuses on one or more of the following proteome biological features in a particular area. time to build a little bit of information available. BT504 FINAL TERM PAST PAPERS MEGA FILE
Proteomics is important for early detection of the disease, predicting and monitoring disease progression. In addition, it also plays an important role in drug development as targeted molecules. Proteomics is a type of proteome, which includes the expression, structure, functions, interactions and modification of proteins in any phase (4). The proteome also changes from time to time, cell to cell and responds to external stimuli. Proteomics in eukaryotic cells.
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