两种野生四倍体小麦双粒小麦和小小麦的坏死和褪绿基因分布

N. Mori, K. Tsunewaki
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引用次数: 6

摘要

通过对两种野生四倍体小麦Triticum dicoccoides(野生二粒小麦)和T. araraticum(野生timopheevi小麦)在其整个分布区域收集的材料进行杂交,研究了1型杂交坏死的Ne1和Ne2等位基因和1型杂交萎黄的Ch1等位基因的分布。其中Ne1和Ch1等位基因的频率分别为53%和13%;而在黄颡鱼中分别为69%和0%。在两个物种中均未发现Ne2等位基因。双球绦虫的Ne1等位基因以Ne1m为主,花生绦虫的Ne1等位基因以Ne1w为主。Ch1等位基因的频率在两个物种之间存在显著差异。这些事实表明,四倍体小麦的二聚群和二聚群在驯化前就已经发生了遗传分化。在Ne1和Ch1等位基因的频率上,以色列双球绦虫在当地种群中表现出高度的遗传同质性。虽然这些人群之间存在极端的差异,但它们的频率没有显示出地理倾向性。这些等位基因被认为在选择中是中立的,并且在大多数种群中是随机固定的。对有限数量的拟南芥属材料进行了Ne1和Ne2等位基因的检测。他们都没有携带这些等位基因。因此,在四倍体小麦中发现的Ne1等位基因的起源不能追溯到任何Sitopsis物种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distribution of the necrosis and chlorosis genes in two wild tetraploid wheats, Triticum dicoccoides and T. araraticum
Distributions of the Ne1 and Ne2 alleles for type 1 hybrid necrosis, and Ch1 allele for type 1 hybrid chlorosis in two wild tetraploid wheats, Triticum dicoccoides (wild emmer wheat) and T. araraticum (wild timopheevi wheat), have been investigated by crossing the collections of these species from their entire distribution areas with their appropriate testers. The frequencies of the Ne1 and Ch1 alleles were 53% and 13%, respectively, in T. dicoccoides; whereas they were 69% and 0% in T. araraticum. The Ne2 allele was not found in both species. The Ne1 allele of T. dicoccoides was mainly Ne1m, while that of T. araraticum was mainly Ne1w. The frequency of the Ch1 allele differed significantly between the two species. These facts indicate that the emmer and timopheevi groups of tetraploid wheat had been differentiated genetically before their domestication. On the frequencies of the Ne1 and Ch1 alleles, Israeli T. dicoccoides revealed high genetic homogeneity within local populations. While there was extreme variability among these populations, they showed no geographical inclination of their frequencies. These alleles are assumed to be neutral for selection and have been randomly fixed in most populations. A limited numbers of Sitopsis accessions of the genus Aegilops were tested for the two alleles, Ne1 and Ne2. None of them carried these alleles. Thus, the origin of the Ne1 alleles found in tetraploid wheats could not be traced back to any Sitopsis species.
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