Characterization of maltose-binding protein-fused heparinases with enhanced thermostability by application of rigid and flexible linkers.

IF 3.2 4区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Biotechnology and applied biochemistry Pub Date : 2024-07-28 DOI:10.1002/bab.2642
Xi Wu, Zhenyu Yun, Nan Su, Lin Zhao, Hui Zhang, Mengyan Zhang, Qi Wu, Chong Zhang, Xin-Hui Xing
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Abstract

Heparinases, including heparinases I-III (HepI, HepII, and HepIII, respectively), are important tools for producing low-molecular-weight heparin, an improved anticoagulant. The poor thermostability of heparinases significantly hinders their industrial and laboratory applications. To improve the thermostability of heparinases, we applied a rigid linker (EAAAK)5 (R) and a flexible linker (GGGGS)5 (F) to fuse maltose-binding protein (MBP) and HepI, HepII, and HepIII from Pedobacter heparinus, replacing the original linker from the plasmid pMAL-c2X. Compared with their parental fusion protein, MBP-fused HepIs, HepIIs, and HepIIIs with linkers (EAAAK)5 or (GGGGS)5 all displayed enhanced thermostability (half-lives at 30°C: 242%-464%). MBP-fused HepIs and HepIIs exhibited higher specific activity (127%-324%), whereas MBP-fused HepIIIs displayed activity similar to that of their parental fusion protein. Kinetics analysis revealed that MBP-fused HepIIs showed a significantly decreased affinity toward heparin with increased Km values (397%-480%) after the linker replacement, whereas the substrate affinity did not change significantly for MBP-fused HepIs and HepIIIs. Furthermore, it preliminarily appeared that the depolymerization mechanism of these fusion proteins may not change after linker replacement. These findings suggest the superior enzymatic properties of MBP-fused heparinases with suitable linker designs and their potential for the bioproduction of low-molecular-weight heparin.

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应用刚性和柔性连接体鉴定麦芽糖结合蛋白融合肝素酶的特性,以提高其热稳定性。
肝素酶,包括肝素酶 I-III(分别为 HepI、HepII 和 HepIII),是生产低分子量肝素(一种改良的抗凝剂)的重要工具。肝素酶的热稳定性较差,严重阻碍了它们在工业和实验室中的应用。为了提高肝素酶的热稳定性,我们应用刚性连接子(EAAAK)5 (R)和柔性连接子(GGGGS)5 (F)融合了麦芽糖结合蛋白(MBP)和肝磷脂杆菌的HepI、HepII和HepIII,取代了质粒pMAL-c2X的原始连接子。与亲代融合蛋白相比,带有连接子 (EAAAK)5 或 (GGGGS)5 的 MBP 融合 HepI、HepII 和 HepIII 都显示出更强的热稳定性(30°C 时的半衰期:242%-464%)。MBP 融合的 HepIs 和 HepIIs 表现出更高的特异性活性(127%-324%),而 MBP 融合的 HepIIIs 表现出与其亲本融合蛋白相似的活性。动力学分析表明,MBP 融合的 HepIIs 对肝素的亲和力明显下降,Km 值增加(397%-480%),而 MBP 融合的 HepIs 和 HepIIIs 对底物的亲和力变化不大。此外,初步看来,这些融合蛋白的解聚机制在更换连接体后可能不会发生变化。这些研究结果表明,具有合适连接体设计的 MBP 融合肝素酶具有优异的酶学特性,并具有生物生产低分子量肝素的潜力。
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来源期刊
Biotechnology and applied biochemistry
Biotechnology and applied biochemistry 工程技术-生化与分子生物学
CiteScore
6.00
自引率
7.10%
发文量
117
审稿时长
3 months
期刊介绍: Published since 1979, Biotechnology and Applied Biochemistry is dedicated to the rapid publication of high quality, significant research at the interface between life sciences and their technological exploitation. The Editors will consider papers for publication based on their novelty and impact as well as their contribution to the advancement of medical biotechnology and industrial biotechnology, covering cutting-edge research in synthetic biology, systems biology, metabolic engineering, bioengineering, biomaterials, biosensing, and nano-biotechnology.
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