D-阿拉伯糖分解代谢途径的功能分配
Functional assignment of multiple catabolic pathways for D-apiose.
机构信息
Institute for Genomic Biology, University of Illinois at Urbana-Champaign, Urbana, IL, USA.
Department of Biochemistry, University of Illinois at Urbana-Champaign, Urbana, IL, USA.
出版信息
Nat Chem Biol. 2018 Jul;14(7):696-705. doi: 10.1038/s41589-018-0067-7. Epub 2018 Jun 4.
Abstract
Colocation of the genes encoding ABC, TRAP, and TCT transport systems and catabolic pathways for the transported ligand provides a strategy for discovering novel microbial enzymes and pathways. We screened solute-binding proteins (SBPs) for ABC transport systems and identified three that bind D-apiose, a branched pentose in the cell walls of higher plants. Guided by sequence similarity networks (SSNs) and genome neighborhood networks (GNNs), the identities of the SBPs enabled the discovery of four catabolic pathways for D-apiose with eleven previously unknown reactions. The new enzymes include D-apionate oxidoisomerase, which catalyzes hydroxymethyl group migration, as well as 3-oxo-isoapionate-4-phosphate decarboxylase and 3-oxo-isoapionate-4-phosphate transcarboxylase/hydrolase, which are RuBisCO-like proteins (RLPs). The web tools for generating SSNs and GNNs are publicly accessible ( http://efi.igb.illinois.edu/efi-est/ ), so similar 'genomic enzymology' strategies for discovering novel pathways can be used by the community.
摘要
基因的共定位,这些基因编码 ABC、TRAP 和 TCT 转运系统以及被转运配体的分解代谢途径,为发现新的微生物酶和途径提供了策略。我们筛选了 ABC 转运系统的溶质结合蛋白(SBP),并鉴定出三种结合 D-阿比糖的 SBP,D-阿比糖是高等植物细胞壁中的一种支链戊糖。根据序列相似性网络(SSN)和基因组邻域网络(GNN),SBP 的身份使我们能够发现 D-阿比糖的 11 种以前未知反应的 4 种分解代谢途径。新的酶包括 D-阿比酸盐氧化异构酶,它催化羟甲基基团迁移,以及 3-氧代-异戊酸-4-磷酸脱羧酶和 3-氧代-异戊酸-4-磷酸转羧酶/水解酶,它们是 RuBisCO 样蛋白(RLP)。生成 SSN 和 GNN 的网络工具是公开可访问的(http://efi.igb.illinois.edu/efi-est/),因此社区可以使用类似的“基因组酶学”策略来发现新途径。
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