果蝇雄性特异性致死-2蛋白:结构/功能分析以及与MSL-1在染色体关联方面的依赖性
Drosophila male-specific lethal-2 protein: structure/function analysis and dependence on MSL-1 for chromosome association.
作者信息
Lyman L M, Copps K, Rastelli L, Kelley R L, Kuroda M I
机构信息
Department of Cell Biology, Baylor College of Medicine, Houston, Texas 77030, USA.
出版信息
Genetics. 1997 Dec;147(4):1743-53. doi: 10.1093/genetics/147.4.1743.
Abstract
MSL-2 is required for the male-specific assembly of a dosage compensation regulatory complex on the X chromosome of Drosophila melanogaster. We found that MSL-2 binds in a reproducible, partial pattern to the male X chromosome in the absence of MLE or MSL-3, or when ectopically expressed at a low level in females. Moreover, the pattern of MSL-2 binding corresponds precisely in each case to that of MSL-1, suggesting that the two proteins function together to associate with the X. Consistent with this hypothesis, we isolated EMS-induced loss of function msl-1 and msl-2 alleles in a screen for suppressors of the toxic effects of MSL-2 expression in females. We also used site-directed mutagenesis to determine the importance of the MSL-2 RING finger domain and second cysteine-rich motif. The mutations, including those in conserved zinc coordinating cysteines, confirm that the RING finger is essential for MSL-2 function, while suggesting a less stringent requirement for an intact second motif.
摘要
MSL-2是在黑腹果蝇X染色体上进行雄性特异性剂量补偿调节复合体组装所必需的。我们发现,在没有MLE或MSL-3的情况下,或者当在雌性中以低水平异位表达时,MSL-2以可重复的部分模式结合到雄性X染色体上。此外,在每种情况下,MSL-2的结合模式都与MSL-1的模式精确对应,这表明这两种蛋白质共同发挥作用与X染色体结合。与该假设一致,我们在筛选雌性中MSL-2表达毒性效应的抑制子时,分离出了EMS诱导的功能丧失型msl-1和msl-2等位基因。我们还使用定点诱变来确定MSL-2的RING指结构域和第二个富含半胱氨酸基序的重要性。这些突变,包括保守的锌配位半胱氨酸中的突变,证实了RING指对于MSL-2功能至关重要,同时表明对完整的第二个基序的要求不太严格。
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