来自嗜热古菌嗜气焦杆菌的新型半乳糖1 -磷酸尿苷基转移酶的独特活性位点形成

T. Ohshida, J. Hayashi, K. Yoneda, T. Ohshima, H. Sakuraba
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引用次数: 1

摘要

在嗜热古细菌嗜气焦杆菌(Pyrobaculum aerophilum)中发现了一个编码半乳糖1 -磷酸尿苷转移酶(GalT)的基因。该基因在大肠杆菌中过表达,随后对其产物进行了纯化和鉴定。表达的酶具有高度的热稳定性,在90°C的温度下孵育10分钟后仍保持约90%的活性。我们确定了两种不同的空气细菌GalT晶体结构:无底物酶在2.33 Å和UDP结合的H140F突变酶在1.78 Å。嗜气假单胞菌GalT单体的主链坐标与大肠杆菌和人类GalT的结构相似,二聚体的排列也相似。然而,在嗜气假杆菌GalT和其他两种酶之间存在显著的拓扑差异。在大肠杆菌和人类酶中,N端链从一个亚基延伸到另一个亚基,并在邻近亚基中形成底物结合袋的一部分。相比之下,嗜气假杆菌GalT的N端链延伸到同一亚基的底物结合位点。氨基酸序列比对表明,在N端区域较短的表面环有助于P. aerophilum GalT的独特拓扑结构。无底物酶与UDP结合的H140F的结构比较表明,底物的葡萄糖部分的结合,而不是UDP部分的结合,在活性位点周围引起了很大的结构变化。这可能反过来为酶反应提供一个适当的环境。
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Unique active site formation in a novel galactose 1‐phosphate uridylyltransferase from the hyperthermophilic archaeon Pyrobaculum aerophilum
A gene encoding galactose 1‐phosphate uridylyltransferase (GalT) was identified in the hyperthermophilic archaeon Pyrobaculum aerophilum. The gene was overexpressed in Escherichia coli, after which its product was purified and characterized. The expressed enzyme was highly thermostable and retained about 90% of its activity after incubation for 10 minutes at temperatures up to 90°C. Two different crystal structures of P. aerophilum GalT were determined: the substrate‐free enzyme at 2.33 Å and the UDP‐bound H140F mutant enzyme at 1.78 Å. The main‐chain coordinates of the P. aerophilum GalT monomer were similar to those in the structures of the E. coli and human GalTs, as was the dimeric arrangement. However, there was a striking topological difference between P. aerophilum GalT and the other two enzymes. In the E. coli and human enzymes, the N‐terminal chain extends from one subunit into the other and forms part of the substrate‐binding pocket in the neighboring subunit. By contrast, the N‐terminal chain in P. aerophilum GalT extends to the substrate‐binding site in the same subunit. Amino acid sequence alignment showed that a shorter surface loop in the N‐terminal region contributes to the unique topology of P. aerophilum GalT. Structural comparison of the substrate‐free enzyme with UDP‐bound H140F suggests that binding of the glucose moiety of the substrate, but not the UDP moiety, gives rise to a large structural change around the active site. This may in turn provide an appropriate environment for the enzyme reaction.
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