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121 GtfB 4,6-α-葡聚糖转移酶氨基酸残基的突变影响反应和产物特异性。

Mutations in Amino Acid Residues of 121 GtfB 4,6-α-Glucanotransferase that Affect Reaction and Product Specificity.

机构信息

State Key laboratory of Food Science and Technology, Jiangnan University, Wuxi 214122, Jiangsu Province, China.

School of Food Science and Technology, Jiangnan University, Wuxi 214122, Jiangsu Province, China.

出版信息

J Agric Food Chem. 2022 Feb 16;70(6):1952-1961. doi: 10.1021/acs.jafc.1c07618. Epub 2022 Feb 7.

DOI:10.1021/acs.jafc.1c07618
PMID:35129339
Abstract

121 4,6-α-glucanotransferase (Lr121 4,6-α-GTase), belonging to the glycosyl hydrolase (GH) 70 GtfB subfamily, converts starch and maltodextrins into linear isomalto/malto polysaccharides (IMMPs) with consecutive (α1 → 6) linkages. The recent elucidation of its crystal structure allowed identification and analysis of further structural features that determine its reaction and product specificity. Herein, sequence alignments between GtfB enzymes with different product linkage specificities (4,6-α-GTase and 4,3-α-GTase) identified amino acid residues in GH70 homology motifs, which may be critical for reaction and product specificity. Based on these alignments, four Lr121 GtfB-ΔN mutants (I1020M, S1057P, H1056G, and Q1126I) were constructed. Compared to wild-type Lr121 GtfB-ΔN, mutants S1057P and Q1126I had considerably improved catalytic efficiencies. Mutants H1056G and Q1126I showed a 9% decrease and an 11% increase, respectively, in the ratio of (α1 → 6) over (α1 → 4) linkages in maltodextrin-derived products. A change in linkage type (e.g., (α1 → 6) linkages to (α1 → 3) linkages) was not observed. The possible functional roles of these Lr121 GtfB-ΔN residues located around the acceptor substrate-binding subsites are discussed. The results provide new insights into structural determinants of the reaction and product specificity of Lr121 GtfB 4,6-α-GTase.

摘要

121 4,6-α-葡聚糖转移酶(Lr121 4,6-α-GTase)属于糖苷水解酶(GH)70 GtfB 亚家族,将淀粉和麦芽糊精转化为具有连续(α1 → 6)键的线性异麦芽糖/麦芽糖多聚糖(IMMPs)。最近其晶体结构的阐明使我们能够确定并分析进一步的结构特征,这些特征决定了其反应和产物特异性。本文通过比较具有不同产物键合特异性(4,6-α-GTase 和 4,3-α-GTase)的 GtfB 酶的序列比对,确定了 GH70 同源基序中的氨基酸残基,这些残基可能对反应和产物特异性至关重要。基于这些比对,构建了四个 Lr121 GtfB-ΔN 突变体(I1020M、S1057P、H1056G 和 Q1126I)。与野生型 Lr121 GtfB-ΔN 相比,突变体 S1057P 和 Q1126I 的催化效率显著提高。突变体 H1056G 和 Q1126I 使麦芽糊精衍生产物中(α1 → 6)与(α1 → 4)键的比例分别降低了 9%和增加了 11%。未观察到键型的改变(例如,(α1 → 6)键变为(α1 → 3)键)。讨论了这些位于受体底物结合亚基周围的 Lr121 GtfB-ΔN 残基的可能功能作用。这些结果为 Lr121 GtfB 4,6-α-GTase 的反应和产物特异性的结构决定因素提供了新的见解。

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