Dual Strategy for Enhancing the Production Efficiency of Protein-Glutaminase in Escherichia coli Nissle 1917

Jiajing Wu; Shuai Lv; Cong Wang; Wei Su; Wenjing Zhao; Zheng Zhang; Yanning Niu; Zhongyi Chang; Mingfei Jin; Hongliang Gao; Jing Huang

doi:10.1021/acs.jafc.5c06346

Dual Strategy for Enhancing the Production Efficiency of Protein-Glutaminase in Escherichia coli Nissle 1917

Jiajing Wu, Shuai Lv, Cong Wang, Wei Su, Wenjing Zhao, Zheng Zhang, Yanning Niu, Zhongyi Chang, Mingfei Jin, Hongliang Gao^*, Jing Huang^*

^*Corresponding author for this work

School of Life Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Protein-glutaminase (PG) is a novel deamidase that has significant potential applications in the improvement of the functional properties of food proteins. However, the low production level of PG restricts its industrial applications. A dual strategy was applied to enhance the production efficiency of PG in heterologous expression systems. Strategy one was to improve the PG expression level by constructing the T7RNA polymerase-P_T7plasmid in probiotic Escherichia. coli Nissle 1917, coupled with optimizations in the translation initiation region and fermentation processes, thereby increasing the PG yield 18.11-fold. Strategy two was to improve the PG activity by reshaping the substrate binding pocket, resulting in the acquisition of mutant PG-M8 with the highest specific activity. Combining the above two strategies, the PG yield reached 73.62 U/mL. This yield demonstrates its potential for industrial applications.

Original language	English
Pages (from-to)	28274-28284
Number of pages	11
Journal	Journal of Agricultural and Food Chemistry
Volume	73
Issue number	44
DOIs	https://doi.org/10.1021/acs.jafc.5c06346
State	Published - 5 Nov 2025

Keywords

E. coliNissle 1917
heterologous expression
molecular modification
protein-glutaminase
T7RNA polymerase

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10.1021/acs.jafc.5c06346

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title = "Dual Strategy for Enhancing the Production Efficiency of Protein-Glutaminase in Escherichia coli Nissle 1917",

abstract = "Protein-glutaminase (PG) is a novel deamidase that has significant potential applications in the improvement of the functional properties of food proteins. However, the low production level of PG restricts its industrial applications. A dual strategy was applied to enhance the production efficiency of PG in heterologous expression systems. Strategy one was to improve the PG expression level by constructing the T7RNA polymerase-PT7plasmid in probiotic Escherichia. coli Nissle 1917, coupled with optimizations in the translation initiation region and fermentation processes, thereby increasing the PG yield 18.11-fold. Strategy two was to improve the PG activity by reshaping the substrate binding pocket, resulting in the acquisition of mutant PG-M8 with the highest specific activity. Combining the above two strategies, the PG yield reached 73.62 U/mL. This yield demonstrates its potential for industrial applications.",

keywords = "E. coliNissle 1917, heterologous expression, molecular modification, protein-glutaminase, T7RNA polymerase",

author = "Jiajing Wu and Shuai Lv and Cong Wang and Wei Su and Wenjing Zhao and Zheng Zhang and Yanning Niu and Zhongyi Chang and Mingfei Jin and Hongliang Gao and Jing Huang",

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doi = "10.1021/acs.jafc.5c06346",

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T1 - Dual Strategy for Enhancing the Production Efficiency of Protein-Glutaminase in Escherichia coli Nissle 1917

AU - Wu, Jiajing

AU - Lv, Shuai

AU - Wang, Cong

AU - Su, Wei

AU - Zhao, Wenjing

AU - Zhang, Zheng

AU - Niu, Yanning

AU - Chang, Zhongyi

AU - Jin, Mingfei

AU - Gao, Hongliang

AU - Huang, Jing

PY - 2025/11/5

Y1 - 2025/11/5

N2 - Protein-glutaminase (PG) is a novel deamidase that has significant potential applications in the improvement of the functional properties of food proteins. However, the low production level of PG restricts its industrial applications. A dual strategy was applied to enhance the production efficiency of PG in heterologous expression systems. Strategy one was to improve the PG expression level by constructing the T7RNA polymerase-PT7plasmid in probiotic Escherichia. coli Nissle 1917, coupled with optimizations in the translation initiation region and fermentation processes, thereby increasing the PG yield 18.11-fold. Strategy two was to improve the PG activity by reshaping the substrate binding pocket, resulting in the acquisition of mutant PG-M8 with the highest specific activity. Combining the above two strategies, the PG yield reached 73.62 U/mL. This yield demonstrates its potential for industrial applications.

AB - Protein-glutaminase (PG) is a novel deamidase that has significant potential applications in the improvement of the functional properties of food proteins. However, the low production level of PG restricts its industrial applications. A dual strategy was applied to enhance the production efficiency of PG in heterologous expression systems. Strategy one was to improve the PG expression level by constructing the T7RNA polymerase-PT7plasmid in probiotic Escherichia. coli Nissle 1917, coupled with optimizations in the translation initiation region and fermentation processes, thereby increasing the PG yield 18.11-fold. Strategy two was to improve the PG activity by reshaping the substrate binding pocket, resulting in the acquisition of mutant PG-M8 with the highest specific activity. Combining the above two strategies, the PG yield reached 73.62 U/mL. This yield demonstrates its potential for industrial applications.

KW - E. coliNissle 1917

KW - heterologous expression

KW - molecular modification

KW - protein-glutaminase

KW - T7RNA polymerase

UR - https://www.scopus.com/pages/publications/105020753445

U2 - 10.1021/acs.jafc.5c06346

DO - 10.1021/acs.jafc.5c06346

M3 - 文章

C2 - 41139938

AN - SCOPUS:105020753445

SN - 0021-8561

VL - 73

SP - 28274

EP - 28284

JO - Journal of Agricultural and Food Chemistry

JF - Journal of Agricultural and Food Chemistry

IS - 44

ER -

Dual Strategy for Enhancing the Production Efficiency of Protein-Glutaminase in Escherichia coli Nissle 1917

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Keywords

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