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Literature DB >> 660663

Goodman et al.'s method for augmenting the number of nucleotide substitutions.

Abstract

Statistical properties of Goodman et al.'s (1974) method of compensating for undetected nucleotide substitutions in evolution are investigated by using computer simulation. It is found that the method tends to overcompensate when the stochastic error of the number of nucleotide substitutions is large. Furthermore, the estimate of the number of nucleotide substitutions obtained by this method has a large variance. However, in order to see whether this method gives overcompensation when applied together with the maximum parsimony method, a much larger scale of simulation seems to be necessary.

Mesh：

Substances：
Nucleotides

Year: 1978 PMID： 660663 DOI： 10.1007/BF01768026

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

7 in total

Review 1. Darwinian evolution in the genealogy of haemoglobin.

Authors: M Goodman; G W Moore; G Matsuda
Journal: Nature Date: 1975-02-20 Impact factor: 49.962

2. Empirical relationship between the number of nucleotide substitutions and interspecific identity of amino acid sequences in some proteins.

Authors: M Nei; R Chakraborty
Journal: J Mol Evol Date: 1976-05-26 Impact factor: 2.395

13 in total

1. A method for molecular phylogeny construction by direct use of nucleotide sequence data.

Authors: Y Tateno
Journal: J Mol Evol Date: 1990-01 Impact factor: 2.395

2. Statistical properties of the Jukes-Holmquist method of estimating the number of nucleotide substitutions: reply to Holmquist and Conroy's criticism.

Authors: M Nei; Y Tateno
Journal: J Mol Evol Date: 1981 Impact factor: 2.395

3. Reconstruction of ancestral sequences by the inferential method, a tool for protein engineering studies.

Authors: G Libertini; A Di Donato
Journal: J Mol Evol Date: 1994-08 Impact factor: 2.395

Review 4. Estimating the total number of nucleotide substitutions since the common ancestor of a pair of homologous genes: comparison of several methods and three beta hemoglobin messenger RNA's.

Authors: W M Fitch
Journal: J Mol Evol Date: 1980-12 Impact factor: 2.395

10. Evolutionary analysis of alpha and beta hemoglobin genes by REH theory under the assumption of the equiprobability of genetic events.

Authors: R Holmquist
Journal: J Mol Evol Date: 1980-05 Impact factor: 2.395

Goodman et al.'s method for augmenting the number of nucleotide substitutions.

Review 1. Darwinian evolution in the genealogy of haemoglobin.

2. Empirical relationship between the number of nucleotide substitutions and interspecific identity of amino acid sequences in some proteins.

3. An examination of the constancy of the rate of molecular evolution.

4. On the constancy of the evolutionary rate of cistrons.

5. A method for constructing maximum parsimony ancestral amino acid sequences on a given network.

6. On the stochastic model for estimation of mutational distance between homologous proteins.

7. The phylogeny of human globin genes investigated by the maximum parsimony method.

1. A method for molecular phylogeny construction by direct use of nucleotide sequence data.

2. Statistical properties of the Jukes-Holmquist method of estimating the number of nucleotide substitutions: reply to Holmquist and Conroy's criticism.

3. Reconstruction of ancestral sequences by the inferential method, a tool for protein engineering studies.

Review 4. Estimating the total number of nucleotide substitutions since the common ancestor of a pair of homologous genes: comparison of several methods and three beta hemoglobin messenger RNA's.

5. The augmentation algorithm and molecular phylogenetic trees.

6. Was globin evolution very rapid in its early stages?: a dubious case against the rate-constancy hypothesis.

7. The estimation of genetic divergence.

8. Nonrandom amino acid substitution and estimation of the number of nucleotide substitutions in evolution.

9. The REH theory of protein and nucleic acid divergence: a retrospective update.

10. Evolutionary analysis of alpha and beta hemoglobin genes by REH theory under the assumption of the equiprobability of genetic events.