Cheng Yi Sheng, Hsia Kuo Chiang, Doudeva Lyudmila G, Chak Kin Fu, Yuan Hanna S
Institute of Molecular Biology, Academia Sinica, Taipei 11529, Taiwan, ROC.
J Mol Biol. 2002 Nov 22;324(2):227-36. doi: 10.1016/s0022-2836(02)01092-6.
The bacterial toxin ColE7 contains an H-N-H endonuclease domain (nuclease ColE7) that digests cellular DNA or RNA non-specifically in target cells, leading to cell death. In the host cell, protein Im7 forms a complex with ColE7 to inhibit its nuclease activity. Here, we present the crystal structure of the unbound nuclease ColE7 at a resolution of 2.1A. Structural comparison between the unbound and bound nuclease ColE7 in complex with Im7, suggests that Im7 is not an allosteric inhibitor that induces backbone conformational changes in nuclease ColE7, but rather one that inhibits by blocking the substrate-binding site. There were two nuclease ColE7 molecules in the P1 unit cell in crystals and they appeared as a dimer related to each other by a non-crystallographic dyad symmetry. Gel-filtration and cross-linking experiments confirmed that nuclease ColE7 indeed formed dimers in solution and that the dimeric conformation was more favored in the presence of double-stranded DNA. Structural comparison of nuclease ColE7 with the His-Cys box homing endonuclease I-PpoI further demonstrated that H-N-H motifs in dimeric nuclease ColE7 were oriented in a manner very similar to that of the betabetaalpha-fold of the active sites found in dimeric I-PpoI. A mechanism for the binding of double-stranded DNA by dimeric H-N-H nuclease ColE7 is suggested.
细菌毒素ColE7含有一个H-N-H核酸内切酶结构域(核酸酶ColE7),该结构域可在靶细胞中非特异性地消化细胞DNA或RNA,导致细胞死亡。在宿主细胞中,蛋白质Im7与ColE7形成复合物以抑制其核酸酶活性。在此,我们展示了未结合的核酸酶ColE7的晶体结构,分辨率为2.1埃。对未结合的核酸酶ColE7以及与Im7形成复合物的结合态核酸酶ColE7进行结构比较,结果表明Im7不是一种通过诱导核酸酶ColE7主链构象变化来发挥作用的变构抑制剂,而是一种通过阻断底物结合位点来发挥抑制作用的抑制剂。晶体的P1晶胞中有两个核酸酶ColE7分子,它们通过非晶体学二重轴对称呈现为彼此相关的二聚体。凝胶过滤和交联实验证实,核酸酶ColE7在溶液中确实形成二聚体,并且在双链DNA存在的情况下,二聚体构象更受青睐。核酸酶ColE7与His-Cys盒归巢核酸内切酶I-PpoI的结构比较进一步表明,二聚体核酸酶ColE7中的H-N-H基序的取向与二聚体I-PpoI活性位点的ββα折叠非常相似。本文提出了二聚体H-N-H核酸酶ColE7结合双链DNA的机制。
