Ma L, Tibbitts T T, Kantrowitz E R
Department of Chemistry, Merkert Chemistry Center, Boston College, Chestnut Hill, Massachusetts 02167, USA.
Protein Sci. 1995 Aug;4(8):1498-506. doi: 10.1002/pro.5560040807.
The X-ray structure of a mutant version of Escherichia coli alkaline phosphatase (H412N) in which His-412 was replaced by Asn has been determined at both low (-Zn) and high (+Zn) concentrations of zinc. In the wild-type structure, His-412 is a direct ligand to one of the two catalytically critical zinc atoms (Zn1) in the active site. Characterization of the H412N enzyme in solution revealed that the mutant enzyme required high concentrations of zinc for maximal activity and for high substrate and phosphate affinity (Ma L, Kantrowitz ER, 1994, J Biol Chem 269:31614-31619). The H412N enzyme was also inhibited by Tris, in contrast to the wild-type enzyme, which is activated more than twofold by 1 M Tris. To understand these kinetic properties at the molecular level, the structure of the H412N (+Zn) enzyme was refined to an R-factor of 0.174 at 2.2 A resolution, and the structure of the H412N(-Zn) enzyme was refined to an R-factor of 0.166 at a resolution of 2.6 A. Both indicated that the Asn residue substituted for His-412 did not coordinate well to Zn1. In the H412N(-Zn) structure, the Zn1 site had very low occupancy and the phosphate was shifted by 1.8 A from its position in the wild-type structure. The Mg binding site was also affected by the substitution of Asn for His-412. Both structures of the H412N enzyme also revealed a surface-accessible cavity near the Zn1 site that may serve as a binding site for Tris.(ABSTRACT TRUNCATED AT 250 WORDS)
已确定大肠杆菌碱性磷酸酶(H412N)突变体在低锌(-Zn)和高锌(+Zn)浓度下的X射线结构,该突变体中His-412被Asn取代。在野生型结构中,His-412是活性位点中两个催化关键锌原子之一(Zn1)的直接配体。对溶液中的H412N酶进行表征发现,突变酶需要高浓度的锌才能达到最大活性以及具有高底物和磷酸盐亲和力(马L,坎特罗维茨ER,1994,《生物化学杂志》269:31614 - 31619)。与野生型酶相反,H412N酶也受到Tris的抑制,野生型酶被1 M Tris激活两倍多。为了在分子水平上理解这些动力学特性,将H412N(+Zn)酶的结构在2.2 Å分辨率下精修至R因子为0.174,将H412N(-Zn)酶的结构在2.6 Å分辨率下精修至R因子为0.166。两者均表明取代His-412的Asn残基与Zn1的配位不佳。在H412N(-Zn)结构中,Zn1位点占有率非常低,磷酸盐相对于其在野生型结构中的位置偏移了1.8 Å。Mg结合位点也受到His-412被Asn取代的影响。H412N酶的两种结构还揭示了Zn1位点附近一个可接近表面的腔,它可能作为Tris的结合位点。(摘要截断于250字)