真菌有三个具有不同功能的四跨膜蛋白家族。
Fungi have three tetraspanin families with distinct functions.
作者信息
Lambou Karine, Tharreau Didier, Kohler Annegret, Sirven Catherine, Marguerettaz Mélanie, Barbisan Crystel, Sexton Adrienne C, Kellner Ellen M, Martin Francis, Howlett Barbara J, Orbach Marc J, Lebrun Marc-Henri
机构信息
UMR 5240 CNRS-UCB-INSA-Bayer CropScience, Microbiologie, Adaptation et Pathogénie, Bayer CropScience, 14-20 rue Pierre Baizet, 69263 Lyon Cedex 09, France.
出版信息
BMC Genomics. 2008 Feb 3;9:63. doi: 10.1186/1471-2164-9-63.
BACKGROUND
Tetraspanins are small membrane proteins that belong to a superfamily encompassing 33 members in human and mouse. These proteins act as organizers of membrane-signalling complexes. So far only two tetraspanin families have been identified in fungi. These are Pls1, which is required for pathogenicity of the plant pathogenic ascomycetes, Magnaporthe grisea, Botrytis cinerea and Colletotrichum lindemuthianum, and Tsp2, whose function is unknown. In this report, we describe a third family of tetraspanins (Tsp3) and a new family of tetraspanin-like proteins (Tpl1) in fungi. We also describe expression of some of these genes in M. grisea and a basidiomycete, Laccaria bicolor, and also their functional analysis in M. grisea.
RESULTS
The exhaustive search for tetraspanins in fungal genomes reveals that higher fungi (basidiomycetes and ascomycetes) contain three families of tetraspanins (Pls1, Tsp2 and Tsp3) with different distribution amongst phyla. Pls1 is found in ascomycetes and basidiomycetes, whereas Tsp2 is restricted to basidiomycetes and Tsp3 to ascomycetes. A unique copy of each of PLS1 and TSP3 was found in ascomycetes in contrast to TSP2, which has several paralogs in the basidiomycetes, Coprinus cinereus and Laccaria bicolor. A tetraspanin-like family (Tpl1) was also identified in ascomycetes. Transcriptional analyses in various tissues of L. bicolor and M. grisea showed that PLS1 and TSP2 are expressed in all tissues in L. bicolor and that TSP3 and TPL1 are overexpressed in the sexual fruiting bodies (perithecia) and mycelia of M. grisea, suggesting that these genes are not pseudogenes. Phenotypic analysis of gene replacementmutants Deltatsp3 and Deltatpl1 of M. grisea revealed a reduction of the pathogenicity only on rice, in contrast to Deltapls1 mutants, which are completely non-pathogenic on barley and rice.
CONCLUSION
A new tetraspanin family (Tsp3) and a tetraspanin-like protein family (Tpl1) have been identified in fungi. Functional analysis by gene replacement showed that these proteins, as well as Pls1, are involved in the infection process of the plant pathogenic fungus M. grisea. The next challenge will be to decipher the role(s) of tetraspanins in a range of symbiotic, saprophytic and human pathogenic fungi.
背景
四跨膜蛋白是一类小的膜蛋白,属于一个超家族,在人类和小鼠中包含33个成员。这些蛋白作为膜信号复合物的组织者发挥作用。到目前为止,在真菌中仅鉴定出两个四跨膜蛋白家族。其中一个是Pls1,它是植物病原性子囊菌稻瘟病菌、灰葡萄孢和菜豆炭疽菌致病性所必需的;另一个是Tsp2,其功能尚不清楚。在本报告中,我们描述了真菌中的第三个四跨膜蛋白家族(Tsp3)和一个新的类四跨膜蛋白家族(Tpl1)。我们还描述了其中一些基因在稻瘟病菌和担子菌双色蜡蘑中的表达情况,以及它们在稻瘟病菌中的功能分析。
结果
在真菌基因组中对四跨膜蛋白进行详尽搜索后发现,高等真菌(担子菌和子囊菌)包含三个四跨膜蛋白家族(Pls1、Tsp2和Tsp3),它们在不同门中的分布有所不同。Pls1存在于子囊菌和担子菌中,而Tsp2仅限于担子菌,Tsp3仅限于子囊菌。与TSP2不同,在子囊菌中发现PLS1和TSP3各有一个独特的拷贝,而TSP2在担子菌灰盖鬼伞和双色蜡蘑中有几个旁系同源基因。在子囊菌中还鉴定出一个类四跨膜蛋白家族(Tpl1)。对双色蜡蘑和稻瘟病菌不同组织的转录分析表明,PLS1和TSP2在双色蜡蘑的所有组织中均有表达,而TSP3和TPL1在稻瘟病菌的有性子实体(子囊壳)和菌丝体中过表达,这表明这些基因不是假基因。对稻瘟病菌基因替换突变体Δtsp3和Δtpl1的表型分析表明,与完全丧失在大麦和水稻上致病性的Δpls1突变体相比,只有Δtsp3突变体在水稻上的致病性降低。
结论
在真菌中鉴定出了一个新的四跨膜蛋白家族(Tsp3)和一个类四跨膜蛋白家族(Tpl1)。通过基因替换进行的功能分析表明,这些蛋白以及Pls1都参与了植物病原真菌稻瘟病菌的侵染过程。下一个挑战将是解读四跨膜蛋白在一系列共生、腐生和人类致病真菌中的作用。
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