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果蝇亲缘种间杂交后代 inviability 的遗传基础。 (注:这里“inviability”可根据语境灵活翻译,比如“无法存活”等,由于不清楚具体背景,直接保留英文更合适些)

A genetic basis for the inviability of hybrids between sibling species of Drosophila.

作者信息

Hutter P, Roote J, Ashburner M

机构信息

Laboratoire de Génétique, Université de Genève, Switzerland.

出版信息

Genetics. 1990 Apr;124(4):909-20. doi: 10.1093/genetics/124.4.909.

DOI:10.1093/genetics/124.4.909
PMID:2108905
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1203982/
Abstract

A mutation of Drosophila melanogaster whose only known effect is the rescue of otherwise lethal interspecific hybrids has been characterized. This mutation, Hmr, maps to 1-31.84 (9D1-9E4). Hmr may be the consequence of a P element insertion. It rescues hybrid males from the cross of D. melanogaster females to males of its three sibling species, D. simulans, D. mauritiana and D. sechellia. This rescue is recessive, since hybrid males that carry both Hmr and a duplication expected to be Hmr+ are not rescued. Hmr also rescues the otherwise inviable female hybrids from the cross of compound-X D. melanogaster females to males of its sibling species. This rescue is also recessive, since a compound-X heterozygous for Hmr does not rescue. Another mutation, discovered on the In(1)AB chromosome of D. melanogaster, is also found to rescue normally inviable species hybrids: unlike Hmr, however, In(1)AB rescues hybrid females from the cross of In(1)AB/Y males to sibling females, as well as hybrid males from the cross of In(1)AB females to sibling males. These data are interpreted on the basis of a model for the genetic basis of hybrid inviability of complementary genes.

摘要

一种黑腹果蝇突变体已得到表征,其唯一已知的作用是拯救原本致死的种间杂种。这种突变体Hmr定位于1-31.84(9D1-9E4)。Hmr可能是P因子插入的结果。它能拯救黑腹果蝇雌性与它的三个近缘种(拟暗果蝇、毛里求斯果蝇和塞舌尔果蝇)雄性杂交产生的杂种雄性。这种拯救是隐性的,因为同时携带Hmr和预期为Hmr+的重复片段的杂种雄性无法被拯救。Hmr还能拯救复合-X黑腹果蝇雌性与近缘种雄性杂交产生的原本不可存活的雌性杂种。这种拯救也是隐性的,因为携带Hmr的复合-X杂合体无法起到拯救作用。在黑腹果蝇的In(1)AB染色体上发现的另一种突变体也能拯救通常不可存活的种间杂种:然而,与Hmr不同的是,In(1)AB能拯救In(1)AB/Y雄性与近缘种雌性杂交产生的杂种雌性,以及In(1)AB雌性与近缘种雄性杂交产生的杂种雄性。这些数据是基于互补基因杂种不育的遗传基础模型进行解释的。

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