从人FMRP和纤维蛋白序列中获得的富含甘氨酸和精氨酸的肽的精氨酸甲基化。

L S Ai, C H Lin, M Hsieh, C Li
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引用次数: 0

摘要

在富含精氨酸和甘氨酸的RGG盒的RNA结合蛋白的精氨酸残基上已经鉴定出n -甲基化。我们发现在人纤维蛋白和脆性X智力迟钝蛋白(FMRP)中存在RGG序列的合成肽R9 (GGRGRGGGF)可以被大鼠脑提取物特异性甲基化。在相同条件下,所有精氨酸都被赖氨酸取代的对照肽K9不能被甲基化,表明肽中的精氨酸是甲基化位点。在一个典型的脆性X患者中,一种新的错义突变将FMRP RGG盒区域的精氨酸变为组氨酸。我们的体外甲基化系统对具有Arg- >His (GGRGHGGGF)取代的合成肽的甲基化程度要小得多。对甲基化R9肽进行氨基酸分析,鉴定甲基化氨基酸为单甲基精氨酸。R9肽可为RGG蛋白精氨酸甲基化的进一步研究提供参考。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arginine methylation of a glycine and arginine rich peptide derived from sequences of human FMRP and fibrillarin.

N-methylation at the arginine residues in RNA binding proteins with the arginine and glycine rich RGG box has been identified. We show that a synthetic peptide R9 (GGRGRGGGF) with the RGG sequence present in human fibrillarin and fragile X mental retardation protein (FMRP) can be specifically methylated by rat brain extract. A control peptide K9 with all arginines replaced by lysines could not be methylated under the same conditions, indicating that the arginines in the peptide were the methylation sites. A novel missense mutation, which changes an arginine to a histidine in the RGG box region of FMRP in a typical fragile X patient, has been identified. A synthetic peptide with this Arg-->His (GGRGHGGGF) substitution was methylated by our in vitro methylation system to a much less extent. Amino acid analysis of the methylated R9 peptide identified the methylated amino acid as monomethylarginine. The R9 peptide may be useful for further studies on arginine methylation in RGG proteins.

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