Efficient production of recombinant hybrid mussel proteins with improved adhesion

Rui Xue; Juan Wang; Weiwei Huang; Yibin Qiu; Hong Xu; Rui Wang; Sha Li

doi:10.1016/j.ijbiomac.2025.139937

Efficient production of recombinant hybrid mussel proteins with improved adhesion

Rui Xue, Juan Wang, Weiwei Huang, Yibin Qiu, Hong Xu, Rui Wang, Sha Li

COLLEGE OF FOOD SCIENCE AND LIGHT INDUSTRY

Nanjing Tech University

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

Abstract

Mussel foot proteins (mfps) play important roles in surface interaction and underwater adhesion. However, limited production and the lack of adhesion of recombinant mfps have restricted their widespread use. Here, we present a general strategy for enhancing both the expression and function of mfps by connecting multiple protein fragments. We demonstrate that fp-535, the fusion protein comprising fp-5 at each fp-3 terminus, exhibits best adhesion strength up to 1.43 MPa and coating ability, while achieving a higher yield of 91.13 mg/L in the flask culture. After optimizing the fermentation parameters such as temperature and volume as well as the culture medium, the yield of fp-535 was increased to 1.70 g/L in a 5-L bioreactor. Our approach highlights the advantage of fusion mfps and provides potential for the sustainable supply of practical bioadhesive materials.

Original language	English
Article number	139937
Journal	International Journal of Biological Macromolecules
Volume	289
DOIs	https://doi.org/10.1016/j.ijbiomac.2025.139937
State	Published - Feb 2025

Keywords

Fermentation optimization
High cell density culture
Hybrid design
Mussel proteins

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10.1016/j.ijbiomac.2025.139937

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title = "Efficient production of recombinant hybrid mussel proteins with improved adhesion",

abstract = "Mussel foot proteins (mfps) play important roles in surface interaction and underwater adhesion. However, limited production and the lack of adhesion of recombinant mfps have restricted their widespread use. Here, we present a general strategy for enhancing both the expression and function of mfps by connecting multiple protein fragments. We demonstrate that fp-535, the fusion protein comprising fp-5 at each fp-3 terminus, exhibits best adhesion strength up to 1.43 MPa and coating ability, while achieving a higher yield of 91.13 mg/L in the flask culture. After optimizing the fermentation parameters such as temperature and volume as well as the culture medium, the yield of fp-535 was increased to 1.70 g/L in a 5-L bioreactor. Our approach highlights the advantage of fusion mfps and provides potential for the sustainable supply of practical bioadhesive materials.",

keywords = "Fermentation optimization, High cell density culture, Hybrid design, Mussel proteins",

author = "Rui Xue and Juan Wang and Weiwei Huang and Yibin Qiu and Hong Xu and Rui Wang and Sha Li",

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doi = "10.1016/j.ijbiomac.2025.139937",

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T1 - Efficient production of recombinant hybrid mussel proteins with improved adhesion

AU - Xue, Rui

AU - Wang, Juan

AU - Huang, Weiwei

AU - Qiu, Yibin

AU - Xu, Hong

AU - Wang, Rui

AU - Li, Sha

PY - 2025/2

Y1 - 2025/2

N2 - Mussel foot proteins (mfps) play important roles in surface interaction and underwater adhesion. However, limited production and the lack of adhesion of recombinant mfps have restricted their widespread use. Here, we present a general strategy for enhancing both the expression and function of mfps by connecting multiple protein fragments. We demonstrate that fp-535, the fusion protein comprising fp-5 at each fp-3 terminus, exhibits best adhesion strength up to 1.43 MPa and coating ability, while achieving a higher yield of 91.13 mg/L in the flask culture. After optimizing the fermentation parameters such as temperature and volume as well as the culture medium, the yield of fp-535 was increased to 1.70 g/L in a 5-L bioreactor. Our approach highlights the advantage of fusion mfps and provides potential for the sustainable supply of practical bioadhesive materials.

AB - Mussel foot proteins (mfps) play important roles in surface interaction and underwater adhesion. However, limited production and the lack of adhesion of recombinant mfps have restricted their widespread use. Here, we present a general strategy for enhancing both the expression and function of mfps by connecting multiple protein fragments. We demonstrate that fp-535, the fusion protein comprising fp-5 at each fp-3 terminus, exhibits best adhesion strength up to 1.43 MPa and coating ability, while achieving a higher yield of 91.13 mg/L in the flask culture. After optimizing the fermentation parameters such as temperature and volume as well as the culture medium, the yield of fp-535 was increased to 1.70 g/L in a 5-L bioreactor. Our approach highlights the advantage of fusion mfps and provides potential for the sustainable supply of practical bioadhesive materials.

KW - Fermentation optimization

KW - High cell density culture

KW - Hybrid design

KW - Mussel proteins

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U2 - 10.1016/j.ijbiomac.2025.139937

DO - 10.1016/j.ijbiomac.2025.139937

M3 - 文章

AN - SCOPUS:85215380503

SN - 0141-8130

VL - 289

JO - International Journal of Biological Macromolecules

JF - International Journal of Biological Macromolecules

M1 - 139937

ER -

Efficient production of recombinant hybrid mussel proteins with improved adhesion

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Keywords

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