The Roco family consists of multidomain Ras-GTPases that include LRRK2, a protein mutated in familial Parkinson's disease. The genome of the cellular slime mold Dictyostelium discoideum encodes 11 Roco proteins. To study the functions of these proteins, we systematically knocked out the roco genes. Previously described functions for GbpC, Pats1, and QkgA (Roco1 to Roco3) were confirmed, while novel developmental defects were identified in roco4- and roco11-null cells. Cells lacking Roco11 form larger fruiting bodies than wild-type cells, while roco4-null cells show strong developmental defects during the transition from mound to fruiting body; prestalk cells produce reduced levels of cellulose, leading to unstable stalks that are unable to properly lift the spore head. Detailed phylogenetic analysis of four slime mold species reveals that QkgA and Roco11 evolved relatively late by duplication of an ancestor roco4 gene (later than ∼300 million years ago), contrary to the situation with other roco genes, which were already present before the split of the common ancestor of D. discoideum and Polysphondylium pallidum (before ∼600 million years ago). Together, our data show that the Dictyostelium Roco proteins serve a surprisingly diverse set of functions and highlight Roco4 as a key protein for proper stalk cell formation.
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机译:Roco家族由包括RKRK2在内的多域Ras-GTP酶组成,LRRK2是在家族性帕金森氏病中突变的蛋白质。细胞粘液霉菌盘基网柄菌的基因组编码11种Roco蛋白。为了研究这些蛋白质的功能,我们系统地敲除了roco基因。确认了先前描述的GbpC,Pats1和QkgA(Roco1至Roco3)的功能,而在roco4-和roco11-null细胞中发现了新的发育缺陷。缺乏Roco11的细胞比野生型细胞形成更大的子实体,而roco4-null细胞在从丘到子实体的过渡过程中显示出强大的发育缺陷。前茎细胞产生的纤维素水平降低,导致不稳定的茎杆无法正确提起孢子头。对四种粘液霉菌物种的详细系统发育分析表明,QkgA和Roco11通过祖先roco4基因的复制(相对于大约3亿年前)进化得相对较晚,这与其他roco基因的情况相反,后者已经存在。 D. discoideum和Palsphondylium pallidum的共同祖先(约6亿年前)。在一起,我们的数据表明,网状棒状杆菌Roco蛋白具有令人惊讶的多样化功能,并突出了Roco4作为适当的茎细胞形成的关键蛋白。
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