Abstract
BackgroundIn terms of protein production, the internal environment of the host influences the activity of expression elements, thus affecting the expression level of the target protein. Native expression elements from a specific strain always function well in the original host. In the present study, to enhance the endoxylanase (XynA) production level in Corynebacterium glutamicum CGMCC1.15647 with its native expression elements, approaches to reduce host expression obstacles and to promote expression were evaluated.ResultsWe identified the signal peptide of CspB2 in C. glutamicum CGMCC1.15647 by MALDI-TOF and applied it along with its promoter for the production of endoxylanase (XynA) in this strain. The native cspB2 promoter and cspB2 signal peptide are superior to the well-used cspB1 promoter and cspA signal peptide for XynA expression in C. glutamicum CGMCC1.15647, and expression in this strain is superior to the expression in C. glutamicum ATCC13032. The highest XynA secretion efficiency level in deep 24-well plates level (2492.88 U/mL) was achieved by disruption of the cell wall protein CspB2 and the protease ClpS, chromosomal integration of xynA and coexisting plasmid expression, which increased expression 11.43- and 1.35-fold compared to that of chromosomal expression and pXMJ19-xynA-mediated expression in the original strain, respectively. In fed-batch cultivation, the highest XynA accumulation (1.77 g/L) was achieved in the culture supernatant after 44 h of cultivation.ConclusionAdaptation between the expression elements and the host is crucial for XynA production in C. glutamicum CGMCC1.15647. Strategies including host optimization, chromosomal integration, and coexistence of plasmids were useful for efficient protein production in C. glutamicum.
Highlights
In terms of protein production, the internal environment of the host influences the activity of expression elements, affecting the expression level of the target protein
Identification of the CspB2 protein of C. glutamicum CGMCC1.15647 Expression systems based on different backbones, promoters and signal peptides for heterologous protein production in C. glutamicum have been summarized [23, 24], and recombination of these expression elements resulted in different expression levels of the same target protein
Considering the heterologous expression elements may not function well in this strain, we wanted to develop an expression system that is suitable for C. glutamicum CGMCC1.15647 by using its endogenous expression elements
Summary
In terms of protein production, the internal environment of the host influences the activity of expression elements, affecting the expression level of the target protein. Efforts have been made to increase the protein production levels by optimizing the adaptation between the expression elements and the host in Escherichia coli [2], Bacillus subtilis [3], Saccharomyces cerevisiae [4] and Corynebacterium glutamicum [5]. Chromosomal expression of GFP and AprE could be 2.9-fold and 1.5-fold-increased compared to that of expression from the common integration site amyE by random knock-in in B. subtilis [16]. These cases indicated that host optimization would be a useful method to improve protein production, and we believe these approaches could be attempted to improve recombinant protein expression in C. glutamicum
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