Structure Report for: 6KMO

Shang, F., Xu, Y.

Title: Structural and functional analyses of the lipase CinB from Enterobacter asburiae
Shang F, Lan J, Liu W, Chen Y, Wang L, Zhao J, Chen J, Gao P, Ha NC and Xu Y <2 more author(s)> Shang F, Lan J, Liu W, Chen Y, Wang L, Zhao J, Chen J, Gao P, Ha NC, Quan C, Nam KH, Xu Y (- 2)
Ref: Biochemical & Biophysical Research Communications, 519:274, 2019 : PubMed
Abstract


ESTHER: Shang_2019_Biochem.Biophys.Res.Commun_519_274
PubMedSearch: Shang 2019 Biochem.Biophys.Res.Commun 519 274
PubMedID: 31493870
Gene_locus related to this paper: entas-cinB

Abstract

Lipases are widely present in various plants, animals and microorganisms, constituting a large category of enzymes. They have the ability to catalyze the cleavage of ester bonds. The lipase CinB from Enterobacter asburiae (E. asburiae) is an acetyl esterase. The primary amino acid sequence suggests that the EaCinB protein belongs to the alpha/beta-hydrolase (ABH) superfamily of the esterase/lipase superfamily. However, its molecular functions have not yet been determined. Here, we report the crystal structure of E. asburiae CinB at a 1.45A resolution. EaCinB contains a signal peptide, cap domain and catalytic domain. The active site of EaCinB contains the catalytic triad (Ser180-His307-Asp277) on the catalytic domain. The oxyanion hole is composed of Gly106 and Gly107 within the conserved sequence motif HGGG (amino acid residues 106-109). The substrate is accessible between the alpha1 and alpha2 helices or the alpha1 helix and catalytic domain. Narrow substrate pockets are formed by the alpha2 helix of the cap domain. Site-directed mutagenesis showed that EaCinB-W208H exhibits a higher catalytic ability than EaCinB-WT by approximately nine times. Our results provide insight into the molecular function of EaCinB.