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Genetic Coadaptation in the Chromosomal Polymorphism of DROSOPHILA SUBOBSCURA. I. Seasonal Changes of Gametic Disequilibrium in a Natural Population.黑腹果蝇染色体多态性的遗传协同适应。I. 自然种群中配子不平衡的季节性变化。
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在果蝇中,多态性染色体倒位之间的rp49区域存在广泛基因交换的证据。

Evidence of extensive genetic exchange in the rp49 region among polymorphic chromosome inversions in Drosophila subobscura.

作者信息

Rozas J, Aguadé M

机构信息

Departament de Genètica, Facultat de Biologia, Universitat de Barcelona, Spain.

出版信息

Genetics. 1990 Oct;126(2):417-26. doi: 10.1093/genetics/126.2.417.

DOI:10.1093/genetics/126.2.417
PMID:2123162
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1204195/
Abstract

Restriction map variation in 107 lines extracted from two natural populations of Drosophila subobscura was investigated with seven four-nucleotide-recognizing enzymes in a 1.6-kb region including the rp49 gene, that is located very close to the proximal breakpoint of inversion O3. Fourteen restriction site and 8 length polymorphisms, resulting in 73 haplotypes, have been identified. Estimated heterozygosity per nucleotide, pi = 0.0045, is comparable to the average nucleotide variation observed in Drosophila melanogaster. Because of the location of the rp49 region in D. subobscura, variation in three different gene arrangements-Ost, O3 + 4 and O3 + 4 + 8-has been compared. Out of 14 restriction site polymorphisms, 3 are shared by Ost, O3 + 4 and O3 + 4 + 8, and 3 additional ones are shared by Ost and O3 + 4, evidencing extensive genetic exchange among these polymorphic inversions. In agreement with previous data, the higher level of variation of O3 + 4 (as measured by haplotype diversity and nucleotide variation) suggests that O3 + 4 may be ancestral in relationship to extant gene arrangements.

摘要

利用七种识别四核苷酸的酶,对从两个暗果蝇自然种群中提取的107个品系在一个包括rp49基因的1.6 kb区域内的限制酶切图谱变异进行了研究,该基因位于倒位O3近端断点非常近的位置。已鉴定出14个限制酶切位点和8个长度多态性,产生了73种单倍型。每核苷酸估计杂合度π = 0.0045,与黑腹果蝇中观察到的平均核苷酸变异相当。由于rp49区域在暗果蝇中的位置,已比较了三种不同基因排列——Ost、O3 + 4和O3 + 4 + 8——的变异。在14个限制酶切位点多态性中,3个为Ost、O3 + 4和O3 + 4 + 8所共有,另外3个为Ost和O3 + 4所共有,这表明这些多态性倒位之间存在广泛的基因交换。与先前的数据一致,O3 + 4的较高变异水平(通过单倍型多样性和核苷酸变异衡量)表明,O3 + 4在与现存基因排列的关系上可能是祖先型的。