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在对较大染色体片段重复呈杂合状态的粗糙脉孢菌杂交中,基因大小的重复片段从重复诱导的点突变中逃逸。

Escape from repeat-induced point mutation of a gene-sized duplication in Neurospora crassa crosses that are heterozygous for a larger chromosome segment duplication.

作者信息

Bhat A, Kasbekar D P

机构信息

Centre for Cellular and Molecular Biology, Hyderabad 500 007, India.

出版信息

Genetics. 2001 Apr;157(4):1581-90. doi: 10.1093/genetics/157.4.1581.

DOI:10.1093/genetics/157.4.1581
PMID:11290714
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1461585/
Abstract

In Neurospora crassa the ability of an ectopic gene-sized duplication to induce repeat-induced point mutation (RIP) in its target gene was suppressed in crosses that were heterozygous for another larger chromosome segment duplication. Specifically, the frequency of RIP in the erg-3 gene due to a 1.3-kb duplication was reduced if the chromosome segment duplications Dp(IIIR > [I;II]) AR17, Dp(VIR > IIIR) OY329, or Dp(IVR > VII) S1229 were present in either the same or the other parental nucleus of the premeiotic dikaryon. We suggest that the larger duplications act as sinks to titrate the RIP machinery away from the smaller duplication. In contrast, RIP efficiency was relatively unaffected in comparably unproductive interspecies crosses with N. intermedia and N. tetrasperma. These findings offer a novel explanation for the observed persistence of the transposable element Tad in only a subset of Neurospora strains.

摘要

在粗糙脉孢菌中,异位基因大小的重复序列诱导其靶基因发生重复序列诱导点突变(RIP)的能力,在另一个更大染色体片段重复的杂合子杂交中受到抑制。具体而言,如果在减数分裂前双核体的同一或另一个亲本细胞核中存在染色体片段重复Dp(IIIR > [I;II]) AR17、Dp(VIR > IIIR) OY329或Dp(IVR > VII) S1229,那么由于1.3 kb重复而导致erg-3基因中RIP的频率会降低。我们认为,更大的重复序列起到了汇聚点的作用,将RIP机制从较小的重复序列上吸引走。相比之下,在与间型脉孢菌和四孢脉孢菌进行的同样低效的种间杂交中,RIP效率相对不受影响。这些发现为仅在部分脉孢菌菌株中观察到的转座因子Tad的持续存在提供了一种新的解释。

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