碳水化合物结合模块
酶
生物化学
化学
突变
结合位点
计算生物学
生物
糖苷水解酶
突变
基因
作者
Meng-Shu Hao,Scott Mazurkewich,He Li,Alma Kvammen,Srijani Saha,Salla Koskela,Annie R. Inman,Masahiro Nakajima,Nobukiyo Tanaka,Hiroyuki Nakai,Gisela Brändén,Vincent Bulone,Johan Larsbrink,Lauren S. McKee
标识
DOI:10.1038/s41467-024-47584-y
摘要
Abstract Carbohydrate-binding modules (CBMs) are non-catalytic proteins found appended to carbohydrate-active enzymes. Soil and marine bacteria secrete such enzymes to scavenge nutrition, and they often use CBMs to improve reaction rates and retention of released sugars. Here we present a structural and functional analysis of the recently established CBM family 92. All proteins analysed bind preferentially to β−1,6-glucans. This contrasts with the diversity of predicted substrates among the enzymes attached to CBM92 domains. We present crystal structures for two proteins, and confirm by mutagenesis that tryptophan residues permit ligand binding at three distinct functional binding sites on each protein. Multivalent CBM families are uncommon, so the establishment and structural characterisation of CBM92 enriches the classification database and will facilitate functional prediction in future projects. We propose that CBM92 proteins may cross-link polysaccharides in nature, and might have use in novel strategies for enzyme immobilisation.
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