Advances in Computers: Computational Biology and Bioinformaticsby Marvin Zelkowitz
Pub. Date: 12/01/2006
Publisher: Elsevier Science
The field of bioinformatics and computational biology arose due to the need to apply techniques from computer science, statistics, informatics, and applied mathematics to solve biological problems. Scientists have been trying to study biology at a molecular level using techniques derived from biochemistry, biophysics, and genetics. Progress has greatly accelerated… See more details below
The field of bioinformatics and computational biology arose due to the need to apply techniques from computer science, statistics, informatics, and applied mathematics to solve biological problems. Scientists have been trying to study biology at a molecular level using techniques derived from biochemistry, biophysics, and genetics. Progress has greatly accelerated with the discovery of fast and inexpensive automated DNA sequencing techniques.
As the genomes of more and more organisms are sequenced and assembled, scientists are discovering many useful facts by tracing the evolution of organisms by measuring changes in their DNA, rather than through physical characteristics alone. This has led to rapid growth in the related fields of phylogenetics, the study of evolutionary relatedness among various groups of organisms, and comparative genomics, the study of the correspondence between genes and other genomic features in different organisms. Comparing the genomes of organisms has allowed researchers to better understand the features and functions of DNA in individual organisms, as well as provide insights into how organisms evolve over time.
The first four chapters of this book focus on algorithms for comparing the genomes of different organisms. Possible concrete applications include identifying the basis for genetic diseases and tracking the development and spread of different forms of Avian flu. As researchers begin to better understand the function of DNA, attention has begun shifting towards the actual proteins produced by DNA. The final two chapters explore proteomic techniques for analyzing proteins directly to identify their presence and understand their physical structure.
- Written by active PhD researchers in computational biology and bioinformatics
- Elsevier Science
- Publication date:
- Product dimensions:
- 0.88(w) x 6.00(h) x 9.00(d)
Table of Contents
Chapter 1. Exposing Phylogenetic Relationships by Genome Rearrangement (Ying Chih Lin and Chuan Yi Tang)
Chapter 2. Models and Methods in Comparative Genomics (Guillaume Bourque and LouXin Zhang)
Chapter 3. Translocation Distance: Algorithms and Complexity (Lusheng Wang)
Chapter 4. Computational Grand Challenges in Assembling the Tree of Life: Problems and Solutions (David A. Bader, Usman Roshan, Alexandros Stamatakis)
Chapter 5. Local Structure Comparison of Proteins (Jun Huan, Jan Prins, Wei Wang)
Chapter 6. Peptide Identification via Tandem Mass Spectrometry (Xue Wu, Nathan Edwards, Chau-Wen Tseng)
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