KRAB型锌指蛋白的进化及在物种演化中的功能

C2H2型锌指蛋白家族是目前发现的哺乳动物中最大的转录/转录调控因子家族,由一小群古老的含有真核锌指结构的转录因子经过多次基因复制和功能分化演化而来。KRAB型锌指蛋白(KRAB-containing zinc finger proteins, KRAB-ZFPs)作为C2H2型锌指蛋白家族中最大的亚家族,最早出现在四足脊椎动物,并随物种的进化数量快速增长,在人类中占据C2H2型锌指蛋白的60%左右。在物种演化中,进化压力主要改变KRAB-ZFPs的DNA结合能力,而KRAB-ZFPs介导的转录抑制能力则稳定存在。同时,多种KRAB-ZFPs能够与KRAB相关蛋白1(KRAB-associated protein 1, KAP1)协同作用沉默哺乳动物中反转录元件的活性,并与之协同进化,严格限制反转录原件的跳跃能力。本文综述了KRAB-ZFPs的数量倍增、锌指结构的灵活多变、KRAB-ZFPs/KAP1的转录抑制能力和反转录元件的跳跃性在促进哺乳动物调控网络的差异、基因组稳定性的变化和物种进化中的作用,旨在进一步揭示KRAB-ZFPs在推动物种稳定演化中的特点和功能。     

Multiple genes encoding zinc finger domains are expressed in human T cells

Proteins containing zinc finger domains have been implicated in developmental control of gene expression in Drosophila, Xenopus, mouse, and humans. Multiple cDNAs encoding zinc (II) finger structures were isolated from human cell lines of T-cell origin to explore whether zinc finger genes participate in the differentiation of human hematopoietic cells. Initial restriction analysis, genomic Southern blotting, and partial sequence comparisons revealed at least 30 nonoverlapping cDNAs designated cKox(1-30) encoding zinc finger motifs. Analysis of cKox1 demonstrated that Kox1 is a single-copy gene that is expressed in a variety of hematopoietic and nonhaematopoietic cell lines. cKox1 encodes 11 zinc fingers that were shown to bind zinc when expressed as a beta-gal-Kox1 fusion protein. Further analysis of the predicted amino acid sequence revealed a heptad repeat of leucines NH2-terminal to the finger region, which suggests a potential domain for homo- or heterodimer protein formation. On the basis of screening results it was estimated that approximately 70 zinc finger genes are expressed in human T cells. Zinc finger motifs are probably present in a large family of proteins with quite diverse and distinct functions. However, comparisons of individual finger regions in cKox1 with finger regions of cKox2 to cKox30 showed that some zinc fingers are highly conserved in their putative alpha-helical DNA binding region, supporting the notion of a zinc finger-specific DNA recognition code.