Grotewold E, Sainz M B, Tagliani L, Hernandez J M, Bowen B, Chandler V L
Department of Plant Biology and Plant Biotechnology Center, Ohio State University, Columbus, OH 43210, USA. 1Wosu.edu
Proc Natl Acad Sci U S A. 2000 Dec 5;97(25):13579-84. doi: 10.1073/pnas.250379897.
The maize Myb transcription factor C1 depends on the basic helix-loop-helix (bHLH) proteins R or B for regulatory function, but the closely related Myb protein P does not. We have used the similarity between the Myb domains of C1 and P to identify residues that specify the interaction between the Myb domain of C1 and the N-terminal region of R. Substitution of four predicted solvent-exposed residues in the first helix of the second Myb repeat of P with corresponding residues from C1 is sufficient to confer on P the ability to physically interact with R. However, two additional Myb domain amino acid changes are needed to make the P regulatory activity partially dependent on R in maize cells. Interestingly, when P is altered so that it interacts with R, it can activate the Bz1 promoter, normally regulated by C1 + R but not by P. Together, these findings demonstrate that the change of a few amino acids within highly similar Myb domains can mediate differential interactions with a transcriptional coregulator that plays a central role in the regulatory specificity of C1, and that Myb domains play important roles in combinatorial transcriptional regulation.
玉米Myb转录因子C1的调控功能依赖于碱性螺旋-环-螺旋(bHLH)蛋白R或B,但与之密切相关的Myb蛋白P则不然。我们利用C1和P的Myb结构域之间的相似性,确定了决定C1的Myb结构域与R的N端区域之间相互作用的残基。用C1相应的残基替换P的第二个Myb重复序列第一个螺旋中四个预测的溶剂暴露残基,足以使P具有与R发生物理相互作用的能力。然而,还需要另外两个Myb结构域氨基酸变化,才能使P的调控活性在玉米细胞中部分依赖于R。有趣的是,当P发生改变从而与R相互作用时,它可以激活Bz1启动子,该启动子通常由C1 + R调控,而不是由P调控。总之,这些发现表明,高度相似的Myb结构域内几个氨基酸的变化可以介导与转录共调节因子的差异相互作用,该共调节因子在C1的调控特异性中起核心作用,并且Myb结构域在组合转录调控中起重要作用。