Blindauer C A, Harrison M D, Parkinson J A, Robinson A K, Cavet J S, Robinson N J, Sadler P J
Department of Chemistry, University of Edinburgh, United Kingdom.
Proc Natl Acad Sci U S A. 2001 Aug 14;98(17):9593-8. doi: 10.1073/pnas.171120098. Epub 2001 Aug 7.
Zinc is essential for many cellular processes, including DNA synthesis, transcription, and translation, but excess can be toxic. A zinc-induced gene, smtA, is required for normal zinc-tolerance in the cyanobacterium Synechococcus PCC 7942. Here we report that the protein SmtA contains a cleft lined with Cys-sulfur and His-imidazole ligands that binds four zinc ions in a Zn(4)Cys(9)His(2) cluster. The thiolate sulfurs of five Cys ligands provide bridges between the two ZnCys(4) and two ZnCys(3)His sites, giving two fused six-membered rings with distorted boat conformations. The inorganic core strongly resembles the Zn(4)Cys(11) cluster of mammalian metallothionein, despite different amino acid sequences, a different linear order of the ligands, and presence of histidine ligands. Also, SmtA contains elements of secondary structure not found in metallothioneins. One of the two Cys(4)-coordinated zinc ions in SmtA readily exchanges with exogenous metal ((111)Cd), whereas the other is inert. The thiolate sulfur ligands bound to zinc in this site are buried within the protein. Regions of beta-strand and alpha-helix surround the inert site to form a zinc finger resembling the zinc fingers in GATA and LIM-domain proteins. Eukaryotic zinc fingers interact specifically with other proteins or DNA and an analogous interaction can therefore be anticipated for prokaryotic zinc fingers. SmtA now provides structural proof for the existence of zinc fingers in prokaryotes, and sequences related to the zinc finger motif can be identified in several bacterial genomes.
锌对于许多细胞过程至关重要,包括DNA合成、转录和翻译,但过量的锌可能有毒。锌诱导基因smtA是蓝藻聚球藻PCC 7942正常耐锌性所必需的。在此我们报告,蛋白质SmtA含有一个裂隙,其内壁排列着半胱氨酸硫和组氨酸咪唑配体,该裂隙在一个Zn(4)Cys(9)His(2)簇中结合四个锌离子。五个半胱氨酸配体的硫醇盐硫在两个ZnCys(4)和两个ZnCys(3)His位点之间形成桥梁,形成两个融合的六元环,具有扭曲的船型构象。尽管氨基酸序列不同、配体的线性顺序不同且存在组氨酸配体,但该无机核心与哺乳动物金属硫蛋白的Zn(4)Cys(11)簇非常相似。此外,SmtA含有金属硫蛋白中未发现的二级结构元件。SmtA中两个由半胱氨酸配位的锌离子之一很容易与外源金属((111)Cd)交换,而另一个则是惰性的。该位点与锌结合的硫醇盐硫配体埋藏在蛋白质内部。β-链和α-螺旋区域围绕着惰性位点,形成一个类似于GATA和LIM结构域蛋白中的锌指结构。真核生物的锌指与其他蛋白质或DNA特异性相互作用,因此可以预期原核生物的锌指也有类似的相互作用。SmtA现在为原核生物中锌指的存在提供了结构证据,并且在几个细菌基因组中可以鉴定出与锌指基序相关的序列。