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The Genetic Structure of Natural Populations of DROSOPHILA MELANOGASTER. Xvii. a Population Carrying Genetic Variability Explicable by the Classical Hypothesis

机译：果蝇的自然种群的遗传结构。 Xvii。经典假设可解释的携带遗传变异的人群

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About 400 second chromosomes were extracted from the Aomori population, a northernmost population of D. melanogaster on Honshu in Japan, and the following experimental results were obtained. (1) The frequency of lethal chromosomes was 0.23. (2) The effective size of the population was estimated to be about 3000, from the allelism rate of lethal chromosomes and their frequency. (3) The detrimental and lethal loads for viability were 0.243 and 0.242, respectively, and the D/L ratio became 1.00. (4) The average degree of dominance for mildly deleterious genes was estimated to be 0.178 ± 0.056. (5) Additive (σ²A) and dominance (σ²D) variances of viability were estimated to be 0.00276 ± 0.00090 and 0.00011 ± 0.00014, respectively. (6) There was no significant difference in environmental variances between homozygotes and heterozygotes. Using these estimates, we discuss the maintenance mechanisms of genetic variability of viability in the population. The mutation-selection balance explained these experimental results.

机译：从日本本州最北端的D. melanogaster种群青森种群中提取了约400条第二条染色体，并获得了以下实验结果。（1）致死染色体的频率为0.23。（2）根据致死染色体的等位基因发生率及其频率，估计有效种群约为3000个。（3）生存力的有害和致命负荷分别为0.243和0.242，D / L比为1.00。（4）轻度有害基因的平均优势度估计为0.178±0.056。（5）生存能力的加和（σ^{2 A）和优势（σ^{2 D）的估计方差分别为0.00276±0.00090和0.00011±0.00014。（6）纯合子和杂合子之间的环境差异没有显着差异。使用这些估计，我们讨论了种群生存力遗传变异性的维持机制。突变选择平衡解释了这些实验结果。}}

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期刊名称 Genetics
作者
Shinichi Kusakabe; Terumi Mukai;
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作者单位

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年(卷),期 1984(108),2
年度 1984
页码 393–408
总页数 16
原文格式 PDF
正文语种
中图分类遗传学;
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1. THE GENETIC STRUCTURE OF NATURAL POPULATIONS OF DROSOPHILA MELANOGASTER. XVII. A POPULATION CARRYING GENETIC VARIABILITY EXPLICABLE BY THE CLASSICAL HYPOTHESIS [J] . Shinichi Kusakabe, Terumi Mukai Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 1984,第2期

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2. The genetic structure of natural populations of Drosophila melanogaster. XXIV. Effects of hybrid dysgenesis on the components of genetic variance of variability. [J] . D S Suh, T Mukai Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 1991,第3期

机译：果蝇自然种群的遗传结构。二十四。杂交发育不全对遗传变异性变异成分的影响。
3. THE GENETIC STRUCTURE OF NATURAL POPULATIONS OF DROSOPHILA MELANOGASTER. VI. FURTHER STUDIES ON THE OPTIMUM HETEROZYGOSITY HYPOTHESIS [J] . Terumi Mukai Genetics: A Periodical Record of Investigations Bearing on Heredity and Variation . 1969,第2期

机译：果蝇的自然种群的遗传结构。 VI。最佳杂合性假设的进一步研究
4. Molecular genetic variability, population structure and mating system in tropical forages [C] . Melissa Garcia, Bianca B. Z. Vigna, Adna C. B. Sousa, International Grassland Congress . 2013

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5. Linkage and selection in natural populations of Drosophila: The population genetics of In(2L)t. [D] . Andolfatto, Peter. 1999

机译：果蝇的自然种群之间的联系和选择：In（2L）t的种群遗传学。
6. The Genetic Structure of Natural Populations of DROSOPHILA MELANOGASTER. Xi. Genetic Variability in a Local Population [O] . Terumi Mukai, Osamu Yamaguchi 1974

机译：果蝇的自然种群的遗传结构。兮。当地人口的遗传变异
7. THE GENETIC STRUCTURE OF NATURAL POPULATIONS OF DROSOPHILA MELANOGASTER. XI. GENETIC VARIABILITY IN A LOCAL POPULATION [O] . Terumi Mukai, Osamu Yamaguchi 1974

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The Genetic Structure of Natural Populations of DROSOPHILA MELANOGASTER. Xvii. a Population Carrying Genetic Variability Explicable by the Classical Hypothesis

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