粗神经孢子虫MAT A-1异核不亲和功能的重要序列

P. Shiu, N. Glass
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引用次数: 1

摘要

粗神经孢子虫以A和A两种交配型存在;交配类型的差异是性周期开始所必需的(Shiu和Glass, 2000)。交配型位点(mat)也起到异核不相容位点(het)的作用,因此a株和a株之间的菌丝融合会导致异核体的生长受到极大抑制,菌丝分离和死亡(Glass et al., 2000)。A和A交配型序列在A和A株中占有相同的位点,但在序列上有很大的差异。mat a-1基因编码一种假定的HMG(高迁移率组)型转录调节因子,为a交配型提供所有功能,包括交配、子囊孢子形成和异核体不相容(Chang和Staben, 1994)。mat A基因座编码三种蛋白质。MAT A-2和MAT A-3负责子囊孢子的形成(Ferreira et al., 1998);MAT a -3是一种假定的HMG型转录调节因子。据预测,MAT a- 1是a结构域类型的转录调节因子,是赋予a交配特异性和触发菌株异核不相容的必要和充分条件(Glass et al., 1990)。非连锁位点tol的突变抑制了交配型不亲和性,因此tol A和tol A菌株能够形成强有力的异核子(Newmeyer, 1970;Shiu and Glass, 1999)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Sequences important for heterokaryon incompatibility function in MAT A-1 of Neurospora crassa
Strains of Neurospora crassa exist as two alternative mating type forms, A and a; differences in mating type are required for the initiation of the sexual cycle (Shiu and Glass, 2000). The mating-type (mat) locus also acts as a heterokaryon incompatibility (het) locus, such that hyphal fusion between A and a strains results in a heterokaryon that shows extremely inhibited growth, absence of conidiation, and hyphal compartmentation and death (Glass et al., 2000). The A and a mating type sequences occupy the same locus in A and a strains, but are highly dissimilar in sequence. The mat a-1 gene, which encodes a putative HMG (high mobility group) type of transcriptional regulator, provides all the functions for the a mating type, including mating, ascospore formation, and heterokaryon incompatibility (Chang and Staben, 1994). The mat A locus encodes three proteins. MAT A-2 and MAT A-3 are responsible for ascospore formation (Ferreira et al., 1998); MAT A-3 is a putative HMG type of transcriptional regulator. MAT A-1 is predicted to be a a-domain type of transcriptional regulator and is both necessary and sufficient to confer A mating specificity and trigger heterokaryon incompatibility with a strains (Glass et al., 1990). Mutations in an unlinked locus, tol, suppress mating-type incompatibility such that tol A and tol a strains are capable of forming a vigorous heterokaryon (Newmeyer, 1970; Shiu and Glass, 1999).
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