Flick K E, Jurica M S, Monnat R J, Stoddard B L
Fred Hutchinson Cancer Research Center, University of Washington, Seattle 98109, USA.
Nature. 1998 Jul 2;394(6688):96-101. doi: 10.1038/27952.
Homing endonucleases are a diverse collection of proteins that are encoded by genes with mobile, self-splicing introns. They have also been identified in self-splicing inteins (protein introns). These enzymes promote the movement of the DNA sequences that encode them from one chromosome location to another; they do this by making a site-specific double-strand break at a target site in an allele that lacks the corresponding mobile intron. The target sites recognized by these small endonucleases are generally long (14-44 base pairs). Four families of homing endonucleases have been identified, including the LAGLIDADG, the His-Cys box, the GIY-YIG and the H-N-H endonucleases. The first identified His-Cys box homing endonuclease was I-PpoI from the slime mould Physarum polycephalum. Its gene resides in one of only a few nuclear introns known to exhibit genetic mobility. Here we report the structure of the I-PpoI homing endonuclease bound to homing-site DNA determined to 1.8 A resolution. I-PpoI displays an elongated fold of dimensions 25 x 35 x 80 A, with mixed alpha/beta topology. Each I-PpoI monomer contains three antiparallel beta-sheets flanked by two long alpha-helices and a long carboxy-terminal tail, and is stabilized by two bound zinc ions 15 A apart. The enzyme possesses a new zinc-bound fold and endonuclease active site. The structure has been determined in both uncleaved substrate and cleaved product complexes.
归巢内切酶是一类多样的蛋白质,由具有可移动、自我剪接内含子的基因编码。它们也在自我剪接的蛋白质内含子(蛋白内含子)中被发现。这些酶促进编码它们的DNA序列从一个染色体位置移动到另一个位置;它们通过在缺乏相应可移动内含子的等位基因的靶位点上产生位点特异性双链断裂来实现这一点。这些小内切酶识别的靶位点通常很长(14 - 44个碱基对)。已鉴定出四个归巢内切酶家族,包括LAGLIDADG、His - Cys盒、GIY - YIG和H - N - H内切酶。第一个被鉴定的His - Cys盒归巢内切酶是来自多头绒泡菌的I - PpoI。它的基因位于已知具有遗传可移动性的少数核内含子之一中。在此,我们报告了与归巢位点DNA结合的I - PpoI归巢内切酶的结构,分辨率为1.8 Å。I - PpoI呈现出尺寸为25×35×80 Å的细长折叠结构,具有混合的α/β拓扑结构。每个I - PpoI单体包含三个反平行的β折叠片层,两侧是两个长的α螺旋和一个长的羧基末端尾巴,并由两个相距15 Å的结合锌离子稳定。该酶具有一种新的锌结合折叠结构和内切酶活性位点。已在未切割的底物和切割产物复合物中确定了该结构。
