Expression of a Copper Activated Xylanase in Yeast: Location of the His-Tag in the Protein Significantly Affects the Enzymatic Properties

Overview

Journal Mol Biotechnol

Publisher Springer

Specialties Biotechnology
Molecular Biology

Date 2022 Nov 29

PMID 36445609

Authors

Fatma Elgharbi

Hajer Ben Hlima

Sameh Ben Mabrouk

Aida Hmida-Sayari

Affiliations

Soon will be listed here.

Abstract

A copper activated xylanase produced by E. coli BL21 was expressed in Pichia pastoris using the pGAPZαB expression vector. Two recombinant GH11 xylanase forms were obtained (N-His-rXAn11 and N-C-His-rXAn11). The findings revealed that the two recombinant xylanases displayed different behaviors toward the copper. In the presence of 3-mM Cu, the relative activity of the N-His-rXAn11 was enhanced by about 52%. However, the xylanase activity of the N- and C-terminal tagged one (N-C-His-rXAn11) was strongly inhibited by copper. In the presence of 3-mM Cu, the N-His-rXAn11 revealed to be thermostable at 60 °C with a half-life of 10 min. However, the N-C-His-rXAn11 was noted to be unstable since it was inactivated after 15 min of incubation at 55 °C. 3D models of the two recombinant forms showed that the created copper site in the N-His-rXAn11 was loosed in the C-terminal tagged protein. The C-terminal tag could trigger some structural changes with a notable displacement of secondary structures leading to great hindrance of the active site due to high fluctuations and probably new interactions among the N- and C-terminal amino acids.

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