High statistics block entropy measures of DNA sequences

P  Lio; A  Politi; M  Buiatti; S  Ruffo

High statistics block entropy measures of DNA sequences

P Lio, A Politi, M Buiatti, S Ruffo

Physics

Research output: Contribution to journal › Article › peer-review

27 Citations (Scopus)

Abstract

We have used an improved block-entropy measure in order to gain some further insights into the short-range correlations present in whole chromosomes of S. cerevisiae, viruses and organelles and very large genomic regions of E. coli. Although DNA sequences are largely inhomogeneous and word frequencies are unevenly distributed, the comparison of entire chromosomes and large genomic regions show a ''bulk'' composition homogeneity. This property suggests that biases in selection, directional mutational pressure and recombination processes act in homogenizing the base composition of the DNA molecules within a genome but their mode of action, relative impact and direction may vary in different organisms. The most interesting results appear to be the differences between the SW (C,G/A,T) and RY (A,G/C,T) two-letter alphabet entropies. Deviations from randomness in E. coil and S. cerevisiae sequences particularly concern SW dinucleotide frequencies and RY tetranucleotide frequencies. (C) 1996 Academic Press Limited

Original language	English
Pages (from-to)	151-160
Number of pages	10
Journal	Journal of Theoretical Biology
Volume	180
Issue number	2
Publication status	Published - 21 May 1996

Keywords

NUCLEOTIDE-SEQUENCES
CODON USAGE
GENOME
MUTATION
RECOMBINATION
CONSTRAINTS
STABILITY
EVOLUTION
RNA

Cite this

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title = "High statistics block entropy measures of DNA sequences",

abstract = "We have used an improved block-entropy measure in order to gain some further insights into the short-range correlations present in whole chromosomes of S. cerevisiae, viruses and organelles and very large genomic regions of E. coli. Although DNA sequences are largely inhomogeneous and word frequencies are unevenly distributed, the comparison of entire chromosomes and large genomic regions show a ''bulk'' composition homogeneity. This property suggests that biases in selection, directional mutational pressure and recombination processes act in homogenizing the base composition of the DNA molecules within a genome but their mode of action, relative impact and direction may vary in different organisms. The most interesting results appear to be the differences between the SW (C,G/A,T) and RY (A,G/C,T) two-letter alphabet entropies. Deviations from randomness in E. coil and S. cerevisiae sequences particularly concern SW dinucleotide frequencies and RY tetranucleotide frequencies. (C) 1996 Academic Press Limited",

keywords = "NUCLEOTIDE-SEQUENCES, CODON USAGE, GENOME, MUTATION, RECOMBINATION, CONSTRAINTS, STABILITY, EVOLUTION, RNA",

author = "P Lio and A Politi and M Buiatti and S Ruffo",

year = "1996",

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pages = "151--160",

journal = "Journal of Theoretical Biology",

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TY - JOUR

T1 - High statistics block entropy measures of DNA sequences

AU - Lio, P

AU - Politi, A

AU - Buiatti, M

AU - Ruffo, S

PY - 1996/5/21

Y1 - 1996/5/21

N2 - We have used an improved block-entropy measure in order to gain some further insights into the short-range correlations present in whole chromosomes of S. cerevisiae, viruses and organelles and very large genomic regions of E. coli. Although DNA sequences are largely inhomogeneous and word frequencies are unevenly distributed, the comparison of entire chromosomes and large genomic regions show a ''bulk'' composition homogeneity. This property suggests that biases in selection, directional mutational pressure and recombination processes act in homogenizing the base composition of the DNA molecules within a genome but their mode of action, relative impact and direction may vary in different organisms. The most interesting results appear to be the differences between the SW (C,G/A,T) and RY (A,G/C,T) two-letter alphabet entropies. Deviations from randomness in E. coil and S. cerevisiae sequences particularly concern SW dinucleotide frequencies and RY tetranucleotide frequencies. (C) 1996 Academic Press Limited

AB - We have used an improved block-entropy measure in order to gain some further insights into the short-range correlations present in whole chromosomes of S. cerevisiae, viruses and organelles and very large genomic regions of E. coli. Although DNA sequences are largely inhomogeneous and word frequencies are unevenly distributed, the comparison of entire chromosomes and large genomic regions show a ''bulk'' composition homogeneity. This property suggests that biases in selection, directional mutational pressure and recombination processes act in homogenizing the base composition of the DNA molecules within a genome but their mode of action, relative impact and direction may vary in different organisms. The most interesting results appear to be the differences between the SW (C,G/A,T) and RY (A,G/C,T) two-letter alphabet entropies. Deviations from randomness in E. coil and S. cerevisiae sequences particularly concern SW dinucleotide frequencies and RY tetranucleotide frequencies. (C) 1996 Academic Press Limited

KW - NUCLEOTIDE-SEQUENCES

KW - CODON USAGE

KW - GENOME

KW - MUTATION

KW - RECOMBINATION

KW - CONSTRAINTS

KW - STABILITY

KW - EVOLUTION

KW - RNA

M3 - Article

SN - 0022-5193

VL - 180

SP - 151

EP - 160

JO - Journal of Theoretical Biology

JF - Journal of Theoretical Biology

IS - 2

ER -

High statistics block entropy measures of DNA sequences

Abstract

Keywords

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