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Literature DB >> 1904094

Phenomenological theory of GC/AT pressure on DNA base composition.

Abstract

We present a phenomenological theory expressing the constraints operating on the (G + C) contents of the three codon positions, i.e., first, second, and third bases of codons, by using the smallest number of constraint parameters having clear physical and genetic meaning. Theoretical curves displaying base composition at each of the three codon sites are given. The agreement between the theoretical curves and the data points of 1277 genes is quite good irrespective of the species from which the DNAs originated; the curves might be universal ones and the constraint parameters might have general biological meanings in relation to the DNA/RNA and protein functions.

Mesh：

Substances：
Codon
DNA

Year: 1991 PMID： 1904094 DOI： 10.1007/bf02101277

Source DB: PubMed Journal: J Mol Evol ISSN： 0022-2844 Impact factor: 2.395

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References

13 in total

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Authors: K Nishikawa; Y Kubota; T Ooi
Journal: J Biochem Date: 1983-09 Impact factor: 3.387

9. Codon usage and transfer RNA contents: organism-specific codon-choice patterns in reference to the isoacceptor contents.

Authors: T Ikemura; H Ozeki
Journal: Cold Spring Harb Symp Quant Biol Date: 1983

10. Role of GC-biased mutation pressure on synonymous codon choice in Micrococcus luteus, a bacterium with a high genomic GC-content.

Authors: T Ohama; A Muto; S Osawa
Journal: Nucleic Acids Res Date: 1990-03-25 Impact factor: 16.971

Phenomenological theory of GC/AT pressure on DNA base composition.

1. On the genetic basis of variation and heterogeneity of DNA base composition.

2. Compositional constraints and genome evolution.

3. Silent nucleotide substitutions and G + C content of some mitochondrial and bacterial genes.

4. Directional mutation pressure and neutral molecular evolution.

5. Role of directional mutation pressure in the evolution of the eubacterial genetic code.

6. Codon usage and genome composition.

7. Effect of overall phenotypic selection on genetic change at individual loci.

8. Classification of proteins into groups based on amino acid composition and other characters. II. Grouping into four types.

9. Codon usage and transfer RNA contents: organism-specific codon-choice patterns in reference to the isoacceptor contents.

10. Role of GC-biased mutation pressure on synonymous codon choice in Micrococcus luteus, a bacterium with a high genomic GC-content.