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Literature DB >> 17248725

A Mixed Model of Mutation for Electrophoretic Identity of Proteins within and between Populations.

Abstract

A model which is a mixture of the model of infinite alleles and the Ohta-Kimura model of stepwise mutation has been proposed for the study of eletcrophoretic variants in natural populations. Mutations which alter the mobility of a protein are divided into two classes: stepwise mutations and nonstepwise mutations. It is assumed that stepwise mutations follow the Ohta-Kimura model while nonstepwise mutations follow the infinite allele model. It is then shown that even if the proportion of nonstepwise mutations is only 5%, with the other 95% stepwise mutations, the effective number of alleles given by the present model is considerably larger than that given by the Ohta-Kimura model of stepwise mutation. The result has also been applied to study Nei's genetic distance.

Entities: Chemical

Year: 1976 PMID： 17248725 PMCID： PMC1213524

Source DB: PubMed Journal: Genetics ISSN： 0016-6731 Impact factor: 4.562

4 in total

1. THE NUMBER OF ALLELES THAT CAN BE MAINTAINED IN A FINITE POPULATION.

Authors: M KIMURA; J F CROW
Journal: Genetics Date: 1964-04 Impact factor: 4.562

2. Distribution of allelic frequencies in a finite population under stepwise production of neutral alleles.

Authors: M Kimura; T Ohta
Journal: Proc Natl Acad Sci U S A Date: 1975-07 Impact factor: 11.205

3. On the estimation of effective number of alleles from electrophoretic data.

Authors: G B Johnson
Journal: Genetics Date: 1974-10 Impact factor: 4.562

4. The probability of electrophoretic idendity of proteins as a function of amino acid divergence.

Authors: J L King
Journal: J Mol Evol Date: 1973-11-27 Impact factor: 2.395

4 in total

8 in total

1. Unimodality, symmetry and the step-state hypothesis of electrophoretic variation in natural populations.

Authors: L Haldorson; J L King
Journal: J Mol Evol Date: 1976-12-30 Impact factor: 2.395

2. The stepwise mutation model: an experimental evaluation utilizing hemoglobin variants.

Authors: P A Fuerst; R E Ferrell
Journal: Genetics Date: 1980-01 Impact factor: 4.562

3. Statistical studies on protein polymorphism in natural populations. I. Distribution of single locus heterozygosity.

Authors: P A Fuerst; R Chakraborty; M Nei
Journal: Genetics Date: 1977-06 Impact factor: 4.562

4. Theoretical study of genetic variability, assuming stepwise production of neutral and very slightly deleterious mutations.

Authors: T Maruyama; M Kimura
Journal: Proc Natl Acad Sci U S A Date: 1978-02 Impact factor: 11.205

8. Response to: DNA identification by pedigree likelihood ratio accommodating population substructure and mutations- authors' reply.

Authors: Ranajit Chakraborty; Jianye Ge; Bruce Budowle
Journal: Investig Genet Date: 2011-03-25