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Mathematical Methods of Analysis of Biopolymer Sequences
About this Title
S. G. Gindikin, Editor
Publication: DIMACS Series in Discrete Mathematics and Theoretical Computer Science
Publication Year:
1992; Volume 8
ISBNs: 978-0-8218-6601-6 (print); 978-1-4704-3966-8 (online)
DOI: https://doi.org/10.1090/dimacs/008
MathSciNet review: MR1196958
MSC: Primary 92D20
Table of Contents
Front/Back Matter
Chapters
- On the optimality of the Dayhoff matrix for computing the similarity score between fragments of biological sequences
- On the distribution of the maximum similarity score for fragments of two random sequences
- Computer functional analysis of nucleotide sequences: Problems and approaches
- Comparative analysis of biopolymer sequences: Reflections on the validity of the methodology and the underlying general principles
- A new method for recognition of structural and functional motifs in protein sequences based on the principal component analysis of profiles of physico-chemical properties
- Prediction of protein-coding regions in DNA of higher Eukaryotes
- DNA physical mapping, flows in networks and minimum cycles mean in graphs
- Fast algorithm for optimal aligning of symbol sequences
- GeneBee: The program package for biopolymer structure analysis
- Data compression and the use of vector operations for the fast search problems in analysis of biological sequences
- Organization and storage of information in molecular genetics data banks