Domain structure and function of α-1,3-glucanase Agl-EK14 from the gram-negative bacterium Flavobacterium sp. EK-14

IF 2.3 4区生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY

Journal of bioscience and bioengineering Pub Date : 2024-06-01 DOI:10.1016/j.jbiosc.2024.05.004

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引用次数: 0

Abstract

The α-1,3-glucanase Agl-EK14 from Flavobacterium sp. EK-14 comprises a signal peptide (SP), a catalytic domain (CAT), a first immunoglobulin-like domain (Ig1), a second immunoglobulin-like domain (Ig2), a ricin B-like lectin domain (RicinB), and a carboxy-terminal domain (CTD). SP and CTD are predicted to be involved in extracellular secretion, while the roles of Ig1, Ig2, and RicinB are unclear. To clarify their roles, domain deletion enzymes Agl-EK14ΔRicinB, Agl-EK14ΔIg2RicinB, and Agl-EK14ΔIg1Ig2RicinB were constructed. The insoluble α-1,3-glucan hydrolytic, α-1,3-glucan binding, and fungal cell wall hydrolytic activities of the deletion enzymes were almost the same and lower than those of Agl-EK14. Kinetic analysis revealed that the K_m values of the deletion enzymes were similar and uniformly higher than those of Agl-EK14. These results suggest that the deletion of RicinB causes a decline in binding and hydrolytic activity and increases the K_m value. To confirm the role of RicinB, Ig1, Ig2, and RicinB were fused with green fluorescent protein (GFP). As a result, RicinB-fused GFP (GFP-RicinB) showed binding to insoluble α-1,3-glucan and Aspergillus oryzae cell walls, whereas Ig1- and Ig2-fused GFP did not. These results indicated that RicinB is involved in α-1,3-glucan binding. The fusion protein GFP-Ig1Ig2RicinB was also constructed and GFP-Ig1Ig2RicinB showed strong binding to the cell wall of A. oryzae compared to GFP-RicinB. Gel filtration column chromatography suggested that the strong binding was due to GFP-Ig1Ig2RicinB loosely associated with itself.

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革兰氏阴性菌黄杆菌 EK-14 的 α-1,3-葡聚糖酶 Agl-EK14 的结构域和功能。

黄杆菌（Flavobacterium sp. EK-14）的α-1,3-葡聚糖酶Agl-EK14由信号肽（SP）、催化结构域（CAT）、第一免疫球蛋白样结构域（Ig1）、第二免疫球蛋白样结构域（Ig2）、蓖麻毒素B样凝集素结构域（RicinB）和羧基末端结构域（CTD）组成。据预测，SP 和 CTD 参与细胞外分泌，而 Ig1、Ig2 和 RicinB 的作用尚不清楚。为了明确它们的作用，我们构建了结构域缺失酶Agl-EK14ΔRicinB、Agl-EK14ΔIg2RicinB和Agl-EK14ΔIg1Ig2RicinB。缺失酶的不溶性α-1,3-葡聚糖水解活性、α-1,3-葡聚糖结合活性和真菌细胞壁水解活性基本相同，均低于Agl-EK14。动力学分析表明，缺失酶的 Km 值与 Agl-EK14 相似，且一致高于 Agl-EK14。这些结果表明，缺失 RicinB 会导致结合和水解活性下降，Km 值升高。为了证实 RicinB 的作用，Ig1、Ig2 和 RicinB 与绿色荧光蛋白（GFP）融合。结果，融合了 RicinB 的 GFP（GFP-RicinB）与不溶性 α-1,3-葡聚糖和黑曲霉细胞壁结合，而融合了 Ig1 和 Ig2 的 GFP 则没有。这些结果表明，蓖麻毒素B参与了α-1,3-葡聚糖的结合。我们还构建了融合蛋白 GFP-Ig1Ig2RicinB，与 GFP-RicinB 相比，GFP-Ig1Ig2RicinB 与 A. oryzae 细胞壁的结合力更强。凝胶过滤柱层析表明，这种强结合是由于 GFP-Ig1Ig2RicinB 与自身松散地结合在一起。

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来源期刊

Journal of bioscience and bioengineering 生物-生物工程与应用微生物

CiteScore

5.90

自引率

3.60%

发文量

144

审稿时长

51 days

期刊介绍： The Journal of Bioscience and Bioengineering is a research journal publishing original full-length research papers, reviews, and Letters to the Editor. The Journal is devoted to the advancement and dissemination of knowledge concerning fermentation technology, biochemical engineering, food technology and microbiology.