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Essentials of Bioinformatics, Volume II
Bioinformatics is an integrative field of computer science, genetics, genomics, proteomics, and statistics, which has undoubtedly revolutionized the study of biology and medicine in past decades. It mainly assists in modeling, predicting and interpreting large multidimensional biological data by utilizing advanced computational methods. Despite its enormous potential, bioinformatics is not widely integrated into the academic curriculum as most life science students and researchers are still not equipped with the necessary knowledge to take advantage of this powerful tool. Hence, the primary purpose of our book is to supplement this unmet need by providing an easily accessible platform for st...
Essentials of Bioinformatics, Volume I
Bioinformatics is an integrative field of computer science, genetics, genomics, proteomics, and statistics, which has undoubtedly revolutionized the study of biology and medicine in past decades. It mainly assists in modeling, predicting and interpreting large multidimensional biological data by utilizing advanced computational methods. Despite its enormous potential, bioinformatics is not widely integrated into the academic curriculum as most life science students and researchers are still not equipped with the necessary knowledge to take advantage of this powerful tool. Hence, the primary purpose of our book is to supplement this unmet need by providing an easily accessible platform for st...
Essentials of Bioinformatics, Volume III
Bioinformatics is an integrative field of computer science, genetics, genomics, proteomics, and statistics, which has undoubtedly revolutionized the study of biology and medicine in past decades. It mainly assists in modeling, predicting and interpreting large multidimensional biological data by utilizing advanced computational methods. Despite its enormous potential, bioinformatics is not widely integrated into the academic curriculum as most life science students and researchers are still not equipped with the necessary knowledge to take advantage of this powerful tool. Hence, the primary purpose of our book is to supplement this unmet need by providing an easily accessible platform for st...
Molecular Level Atomistic and Structural Insights on Biological Macromolecules, Inhibition, and Dynamics Studies
Everything in a living organism relies on biological macromolecules, which have the role of enzymatic chemical transformations, formation of structures, transportation, catalysis, and regulation of biological processes. They are complex biological structures that require an atomistic understanding. A molecular understanding of biological macromolecules has had a massive impact on the pharmaceutical, biotechnological, and chemical industries. Specifically, new enzymatic structures are being discovered through various experimental and computational methods, by describing an atomistic-level insight into function, mechanism, role in reactions and their inhibition. Those atom-level illustrations are mainly focused through enzyme kinetics, enzyme inhibition, mutational and conformational analysis through quantum mechanical and molecular dynamics methods.
Applying Next Generation Sequencing and Transgenic Models to Rare Disease Research
A rare disease is a disease that occurs infrequently in the general population, typically affecting fewer than 200,000 Americans at any given time. More than 30 million people in the United States of America (USA) and 350 million people globally suffer from rare diseases. Out of the 7000+ known rare diseases, less than 5% have approved treatments. Rare diseases are frequently chronic, progressive, degenerative, and life-threatening, compromising the lives of patients by loss of autonomy. In the USA, it can take years for a rare disease patient to receive a correct diagnosis. The socioeconomic burden for rare disease is huge. For those living with diagnosed rare diseases, there is no support ...
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Moon, Ramu, and I
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