Soberón-Chávez Gloria, Alcaraz Luis D, Morales Estefanía, Ponce-Soto Gabriel Y, Servín-González Luis
Departamento de Biología Molecular y Biotecnología, Instituto de Investigaciones Biomédicas, Universidad Nacional Autónoma de México, Ciudad UniversitariaMexico City, Mexico.
Laboratorio de Ciencias de la Sostenibilidad, Instituto de Ecología, Universidad Nacional Autónoma de México, Ciudad UniversitariaMexico City, Mexico.
Front Microbiol. 2017 May 31;8:959. doi: 10.3389/fmicb.2017.00959. eCollection 2017.
One of the best-studied transcriptional regulatory proteins in bacteria is the catabolite repressor protein (CRP) that when complexed with 3'-5'-cyclic AMP (cAMP) changes its conformation and interacts with specific DNA-sequences. CRP DNA-binding can result in positive or negative regulation of gene expression depending on the position of its interaction with respect to RNA polymerase binding site. The aim of this work is to review the biological role and phylogenetic relations that some members of the CRP family of transcriptional regulators (also known as cAMP receptor protein family) have in different bacterial species. This work is not intended to give an exhaustive revision of bacterial CRP-orthologs, but to provide examples of the role that these proteins play in the expression of genes that are fundamental for the life style of some bacterial species. We highlight the conservation of their structural characteristics and of their binding to conserved-DNA sequences, in contrast to their very diverse repertoire of gene activation. CRP activates a wide variety of fundamental genes for the biological characteristic of each bacterial species, which in several instances form part of their core-genome (defined as the gene sequences present in all members of a bacterial species). We present evidence that support the fact that some of the transcriptional regulators that belong to the CRP family in different bacterial species, and some of the genes that are regulated by them, can be inherited by horizontal gene transfer. These data are discussed in the framework of bacterial evolution models.
细菌中研究得最为透彻的转录调节蛋白之一是分解代谢物阻遏蛋白(CRP),它与3'-5'-环磷酸腺苷(cAMP)结合后会改变其构象,并与特定的DNA序列相互作用。CRP与DNA的结合可导致基因表达的正调控或负调控,这取决于其与RNA聚合酶结合位点的相互作用位置。这项工作的目的是综述转录调节因子CRP家族(也称为cAMP受体蛋白家族)的一些成员在不同细菌物种中的生物学作用和系统发育关系。这项工作并非旨在详尽地修订细菌CRP直系同源物,而是提供这些蛋白质在某些细菌物种生活方式所必需的基因表达中所起作用的实例。我们强调它们的结构特征以及与保守DNA序列结合的保守性,尽管它们的基因激活功能非常多样。CRP激活了各种对每个细菌物种生物学特性至关重要的基因,在某些情况下,这些基因构成了它们核心基因组的一部分(定义为细菌物种所有成员中都存在的基因序列)。我们提供的证据支持这样一个事实,即不同细菌物种中属于CRP家族的一些转录调节因子以及受它们调控的一些基因可以通过水平基因转移遗传。这些数据将在细菌进化模型的框架内进行讨论。
