人胞苷脱氨酶亚基相互作用的功能特性。

Silvia Vincenzetti, Giampiero De Sanctis, Stefano Costanzi, Gloria Cristalli, Pierluigi Mariani, Giampiero Mei, Jan Neuhard, Paolo Natalini, Valeria Polzonetti, Alberto Vita
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引用次数: 9

摘要

对野生型胞苷脱氨酶(CDA)和突变酶F137W/W113F进行了与活性位点相关的亚基间相互作用研究。F137与参与亚基相互作用的枯草芽孢杆菌CDA F125是同源的。在SDS存在的情况下,野生型人CDA通过非合作转化解离成无酶活性的单体,没有中间形式。大量透析或稀释失活的单体可完全恢复活性。圆二色性测量表明,SDS浓度对亚基的二级/三级结构组织没有影响,而Phe/Trp突变导致亚基的四级结构减弱。在野生型CDA中,存在强的人类CDA竞争抑制剂5-氟西蓝碱不利于四聚体解离成亚基,但在突变酶F137W/W113F中则没有。双突变蛋白光谱中酪氨酸荧光的缺失和高得多的量子产率表明在蛋白质亚基之间发生了能量转移效应。对枯草芽孢杆菌的晶体学研究证实了这一假设,结果表明,这四个活性位点的形成都有三个不同的亚基同时发生,而与人类CDA F137同源的F125位于两个不同亚基之间的界面上,这些亚基参与了活性位点的形成。
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Functional properties of subunit interactions in human cytidine deaminase.

An intersubunit interactions study related to the active site has been performed on the wild-type cytidine deaminase (CDA) and on the mutant enzyme F137W/W113F. F137 is the homologous to the Bacillus subtilis CDA F125 involved in the subunit interactions. In the presence of SDS, wild-type human CDA dissociates into enzymatically inactive monomers without intermediate forms via a non-cooperative transition. Extensive dialysis or dilution of the inactivated monomers restores completely the activity. Circular dichroism measurements show that the secondary/tertiary structure organization of each subunit is unaffected by the SDS concentration, while the mutation Phe/Trp causes weakening in quaternary structure. The presence of the strong human CDA competitive inhibitor 5-fluorozebularine disfavours dissociation of the tetramer into subunits in the wild-type CDA, but not in mutant enzyme F137W/W113F. The absence of tyrosine fluorescence and the much higher quantum yield of the double mutant protein spectrum suggest the occurrence of an energy transfer effect between the protein subunits. This assumption is confirmed by the crystallographic studies on B.subtilis in which it is shown that three different subunits concur with the formation of each of the four active sites and that F125, homologous to the human CDA F137, is located at the interface between two different subunits contributing to the formation of active site.

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