Casselton L A, Olesnicky N S
Department of Plant Sciences, University of Oxford, United Kingdom.
Microbiol Mol Biol Rev. 1998 Mar;62(1):55-70. doi: 10.1128/MMBR.62.1.55-70.1998.
The recognition of compatible mating partners in the basidiomycete fungi requires the coordinated activities of two gene complexes defined as the mating-type genes. One complex encodes members of the homeobox family of transcription factors, which heterodimerize on mating to generate an active transcription regulator. The other complex encodes peptide pheromones and 7-transmembrane receptors that permit intercellular signalling. Remarkably, a single species may have many thousands of cross-compatible mating types because the mating-type genes are multiallelic. Different alleles of both sets of genes are necessary for mating compatibility, and they trigger the initial stages of sexual development--the formation of a specialized filamentous mycelium termed the dikaryon, in which the haploid nuclei remain closely associated in each cell but do not fuse. Three species have been taken as models to describe the molecular structure and organization of the mating-type loci and the genes sequestered within them: the pathogenic smut fungus Ustilago maydis and the mushrooms Coprinus cinereus and Schizophyllum commune. Topics addressed in this review are the roles of the mating-type gene products in regulating sexual development, the molecular basis for multiple mating types, and the molecular interactions that permit different allelic products of the mating type genes to be discriminated. Attention is drawn to the remarkable conservation in the mechanisms that regulate sexual development in basidiomycetes and unicellular ascomycete yeasts, Saccharomyces cerevisiae and Schizosaccharomyces pombe, a theme which is developed in the general conclusion to include the filamentous ascomycetes Neurospora crassa and Podospora anserina.
担子菌纲真菌中识别兼容交配型伴侣需要两个定义为交配型基因的基因复合体协同作用。一个复合体编码转录因子同源异型盒家族的成员,它们在交配时异源二聚化以产生一个活性转录调节因子。另一个复合体编码肽类信息素和允许细胞间信号传导的7跨膜受体。值得注意的是,单个物种可能有数千种交叉兼容的交配型,因为交配型基因是多等位基因的。两组基因的不同等位基因对于交配兼容性是必需的,并且它们触发有性发育的初始阶段——形成一种称为双核体的特殊丝状菌丝体,其中单倍体细胞核在每个细胞中紧密相连但不融合。已选取三个物种作为模型来描述交配型位点及其内部隔离基因的分子结构和组织:致病黑粉菌玉米黑粉菌以及蘑菇灰盖鬼伞和裂褶菌。本综述讨论的主题包括交配型基因产物在调节有性发育中的作用、多种交配型的分子基础以及允许区分交配型基因不同等位基因产物的分子相互作用。文中还提到担子菌纲与单细胞子囊菌酵母酿酒酵母和粟酒裂殖酵母在调节有性发育机制上具有显著的保守性,这一主题在总结中进一步展开,还包括丝状子囊菌粗糙脉孢菌和柄孢壳菌。