Bioinformatics for Beginners Genes, Genomes, Molecular Evolution, Databases and Analytical Tools
Auteur : Choudhuri Supratim
Bioinformatics for Beginners: Genes, Genomes, Molecular Evolution, Databases and Analytical Tools provides a coherent and friendly treatment of bioinformatics for any student or scientist within biology who has not routinely performed bioinformatic analysis.
The book discusses the relevant principles needed to understand the theoretical underpinnings of bioinformatic analysis and demonstrates, with examples, targeted analysis using freely available web-based software and publicly available databases. Eschewing non-essential information, the work focuses on principles and hands-on analysis, also pointing to further study options.
- Avoids non-essential coverage, yet fully describes the field for beginners
- Explains the molecular basis of evolution to place bioinformatic analysis in biological context
- Provides useful links to the vast resource of publicly available bioinformatic databases and analysis tools
- Contains over 100 figures that aid in concept discovery and illustration
Date de parution : 05-2014
Ouvrage de 238 p.
21.4x27.6 cm
Thèmes de Bioinformatics for Beginners :
Mots-clés :
310-helix; ABI SOLiD; Ab initio prediction; Allergenicity prediction; Atlas of Protein Sequence and Structure; BLAST; BLOSUM; Bayesian; Ben Hesper; Bootstrapping; Chirality; Cladistics; Coiled coil; Computational biology; DDBJ; DNA structure; Database; DbSNP; De Bruijn graph; Dihedral angle; E-value; EMBL; ENCODE; Ensembl; Epigenetics; ExPASy; FASTA; Founder effect; Gap penalty; Gene structure; Gene trapping; Genome browser; Genome evolution; Hardy-Weinberg equilibrium; Hidden Markov model; Hitchhiking effect; Homology-based prediction; Hoogsteen H-bonding; Human genome; Hydropathy plot; INSDC; Illumina Solexa; Intrinsically disordered proteins; Intron phase; Map Viewer; Margaret Dayhoff; Maximum likelihood; Maximum parsimony; Microarray; Molecular clock; Monophyly; N50; NCBI; Natural selection; Needleman-Wunsch algorithm; Neighbor joining; Neofunctionalization; Neutral theory; Noncoding RNA; ORF finder; Optical mapping; PAM; PAM Matrices; Paulien Hogeweg; Phylogenetic tree; Phylogenetics; Population bottleneck; Primer walking; Pyrosequencing; RNA secondary structure; Ramachandran plot; Restriction mapping; Richard Eck; Robert Ledley; Roche 454; Scaffolds; Selective sweep; Sequence homology; Sequence identity; Smith-Waterman algorithm; Structure prediction; Subfunctionalization; Tiling array; Triple helix; UCSC; UPGMA; VEGA; Zn-finger nuclease; α-helix; β-pleated sheet; π-helix