GCM蛋白与DNA结合的结构要求。

Structural requirements for DNA binding of GCM proteins.

作者信息

Schreiber J, Enderich J, Wegner M

机构信息

Zentrum für Molekulare Neurobiologie, Universität Hamburg, Martinistrasse 52, D-20246 Hamburg, Germany.

出版信息

Nucleic Acids Res. 1998 May 15;26(10):2337-43. doi: 10.1093/nar/26.10.2337.

DOI:10.1093/nar/26.10.2337

PMID:9580683

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC147556/

Abstract

Members of the GCM family of transcription factors contain a DNA binding domain unrelated to any other known DNA binding domain and bind to a DNA sequence motif not recognized by any other known transcription factor. Here we show that positions 2, 3, 6 and 7 of the 5'-ATGCGGGT-3' motif are particularly important for DNA binding and that methylation of several G residues on the upper strand, but not on the lower strand, interfered with binding of GCM proteins. No differences were detected between the DNA binding of Drosophila GCM and mammalian mGCMa. Alanine scan mutagenesis of the DNA binding domain of mGCMa identified the three conserved amino acids K74, C76 and C125 as being essential for DNA binding. Conserved cysteine residues were also found to be important for maintaining the overall integrity of the DNA binding domain and for mediating redox sensitivity of DNA binding. These cysteine residues are arranged in a symmetrical structure that bears no resemblance to other cysteine-containing structures, such as zinc fingers. In agreement with this, DNA binding of mGCMa was not dependent on zinc ions. Our results give insights into the exact nature of the GCM binding sites expected in target genes and point to a role for redox regulation in the function of GCM proteins.

摘要

GCM转录因子家族的成员包含一个与任何其他已知DNA结合域无关的DNA结合域，并能结合到任何其他已知转录因子都无法识别的DNA序列基序上。在此我们表明，5'-ATGCGGGT-3'基序的第2、3、6和7位对于DNA结合尤为重要，并且上链上几个G残基的甲基化（而非下链上的）会干扰GCM蛋白的结合。在果蝇GCM和哺乳动物mGCMa的DNA结合之间未检测到差异。对mGCMa的DNA结合域进行丙氨酸扫描诱变，确定了三个保守氨基酸K74、C76和C125对DNA结合至关重要。还发现保守的半胱氨酸残基对于维持DNA结合域的整体完整性以及介导DNA结合的氧化还原敏感性很重要。这些半胱氨酸残基排列成一种对称结构，与其他含半胱氨酸的结构（如锌指）毫无相似之处。与此一致的是，mGCMa的DNA结合不依赖于锌离子。我们的结果深入了解了靶基因中预期的GCM结合位点的确切性质，并指出氧化还原调节在GCM蛋白功能中的作用。

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