基于细胞表面展示技术的耐冷碳酸酐酶特性和高效二氧化碳捕获。

Characteristics of cold-adapted carbonic anhydrase and efficient carbon dioxide capture based on cell surface display technology.

机构信息

School of Marine Science and Technology, Harbin Institute of Technology, Weihai 264209, China.

School of Environment, Harbin Institute of Technology, Harbin 150090, China; School of Marine Science and Technology, Harbin Institute of Technology, Weihai 264209, China.

出版信息

Bioresour Technol. 2024 May;399:130539. doi: 10.1016/j.biortech.2024.130539. Epub 2024 Mar 6.

DOI:10.1016/j.biortech.2024.130539

PMID:38458264

Abstract

Carbonic anhydrase (CA) is currently under investigation because of its potential to capture CO. A novel N-domain of ice nucleoproteins (INPN)-mediated surface display technique was developed to produce CA with low-temperature capture CO based on the mining and characterization of Colwellia sp. CA (CsCA) with cold-adapted enzyme structural features and catalytic properties. CsCA and INPN were effectively integrated into the outer membrane of the cell as fusion proteins. Throughout the display process, the integrity of the membrane of engineered bacteria BL21/INPN-CsCA was maintained. Notably, the study affirmed positive applicability, wherein 94 % activity persisted after 5 d at 15 °C, and 73 % of the activity was regained after 5 cycles of CO capture. BL21/INPN-CsCA displayed a high CO capture capacity of 52 mg of CaCO/mg of whole-cell biocatalysts during CO mineralization at 25 °C. Therefore, the CsCA functional cell surface display technology could contribute significantly to environmentally friendly CO capture.

摘要

碳酸酐酶（CA）因其捕获 CO 的潜力而受到关注。本研究基于对具有冷适应酶结构特征和催化特性的 Colwellia sp. CA（CsCA）的挖掘和表征，开发了一种新型的冰核蛋白（INPN）介导的表面展示技术，用于生产低温捕获 CO 的 CA。CsCA 和 INPN 作为融合蛋白有效地整合到细胞的外膜中。在整个展示过程中，工程菌 BL21/INPN-CsCA 的膜完整性得以维持。值得注意的是，该研究证实了其具有积极的适用性，即在 15°C 下经过 5 天，仍有 94%的活性得以保留，经过 5 次 CO 捕获循环后，有 73%的活性得以恢复。在 25°C 下进行 CO 矿化时，BL21/INPN-CsCA 显示出高的 CO 捕获能力，每毫克全细胞生物催化剂可捕获 52 毫克 CaCO。因此，CsCA 功能细胞表面展示技术可以为环保型 CO 捕获做出重要贡献。

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基于细胞表面展示技术的耐冷碳酸酐酶特性和高效二氧化碳捕获。

Characteristics of cold-adapted carbonic anhydrase and efficient carbon dioxide capture based on cell surface display technology.

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