Morphological Transitions in the Life Cycle of Ustilago maydis and Their Genetic Control by the a and b Loci

Flora Banuett, Ira Herskowitz
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引用次数: 94

Abstract

Banuett, F., and Herskowitz, I. 1994. Morphological transitions in the life cycle of Ustilago maydis and their genetic control by the a and b loci. Experimental Mycology 18: 247-266. Two forms characterize the life cycle of Ustilago maydis: a haploid yeast-like form and a filamentous dikaryotic form. Dimorphism and other aspects of the life cycle (including tumor induction) are governed by two mating type loci, a and b . Here we report characterization of two different morphological transitions in the life cycle of U. maydis. First, we describe an assay for conjugation tube formation in which cellular response is rapid and occurs synchronously and uniformly in the population. Using this assay, we demonstrate that different alleles of the a locus (but not the b locus) are necessary for conjugation tube formation. We also show that the b locus determines the type of filament formed after cell fusion: different b alleles lead to formation of true filaments, whereas identical b alleles result in production of pseudofilaments. Second, we analyze the role of a and b in postfusion events leading to filament formation in diploid strains. We show that diploid strains heterozygous for both a and b are capable of a dimorphic transition from yeast-like to filamentous growth when shifted from rich medium to low-nitrogen medium. This transition has two components: the first is dependent on the a locus and generates structures similar to conjugation tubes; the second is dependent on the b locus and produces true hyphal structures. We surmise that similar events take place in formation of the dikaryotic filament.

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麦黑穗病菌生命周期的形态转变及其a、b位点的遗传控制
Banuett, F, and Herskowitz, I. 1994。麦黑穗菌生命周期的形态转变及其a、b位点的遗传控制。实验真菌学18:247-266。麦氏黑穗病菌的生命周期有两种形式:单倍体酵母样形式和丝状双核形式。二态性和生命周期的其他方面(包括肿瘤诱导)由两个交配型位点a和b控制。在这里,我们报告了两种不同形态转变的特征在美国的生命周期。首先,我们描述了一种结合管形成的测定方法,其中细胞反应迅速,并且在群体中同步和均匀地发生。通过这个实验,我们证明了a位点(而不是b位点)的不同等位基因对于共轭管的形成是必要的。我们还发现b基因座决定了细胞融合后形成的丝的类型:不同的b等位基因导致真丝的形成,而相同的b等位基因导致假丝的产生。其次,我们分析了a和b在二倍体菌株中导致丝形成的融合后事件中的作用。我们发现,对a和b杂合的二倍体菌株在从富氮培养基转移到低氮培养基时,能够从酵母样生长到丝状生长的二态转变。这种转变有两个组成部分:第一个依赖于a位点并产生类似于共轭管的结构;第二个基因依赖于b位点并产生真正的菌丝结构。我们推测类似的事件也发生在双核丝的形成过程中。
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