TY - JOUR
T1 - 多功能生物材料蛛丝蛋白的一级结构特征和生物合成进展
AU - Lin, Baoyang
AU - Xiong, Yongji
AU - Chen, Huiyu
AU - Wei, Shengnan
AU - Ren, Pengpeng
AU - Cheng, Cheng
AU - He, Bingfang
N1 - Publisher Copyright:
©2024 Chin J Biotech, All rights reserved.
PY - 2024/3/25
Y1 - 2024/3/25
N2 - Spider silk is a natural fiber known as “biosteel” with the strongest composite performance, such as high tensile strength and toughness. It is also equipped with excellent biocompatibility and shape memory ability, thus shows great potential in many fields such as biomedicine and tissue engineering. Spider silk is composed of macromolecular spidroin with rich structural diversity. The characteristics of the primary structure of natural spidroin, such as the high repeatability of amino acids in the core repetitive region, the high content of specific amino acids, the large molecular weight, and the high GC content of the spidroin gene, have brought great difficulties in heterologous expression. This review discusses focuses on the relationship between the featured motifs of the microcrystalline region in the repetitive unit of spidroin and its structure, as well as the spinning performance and the heterologous expression. The optimization design for the sequence of spidroin combined with heterologous expression strategy has greatly promoted the development of the biosynthesis of spider silk proteins. This review may facilitate the rational design and efficient synthesis of recombinant spidroin.
AB - Spider silk is a natural fiber known as “biosteel” with the strongest composite performance, such as high tensile strength and toughness. It is also equipped with excellent biocompatibility and shape memory ability, thus shows great potential in many fields such as biomedicine and tissue engineering. Spider silk is composed of macromolecular spidroin with rich structural diversity. The characteristics of the primary structure of natural spidroin, such as the high repeatability of amino acids in the core repetitive region, the high content of specific amino acids, the large molecular weight, and the high GC content of the spidroin gene, have brought great difficulties in heterologous expression. This review discusses focuses on the relationship between the featured motifs of the microcrystalline region in the repetitive unit of spidroin and its structure, as well as the spinning performance and the heterologous expression. The optimization design for the sequence of spidroin combined with heterologous expression strategy has greatly promoted the development of the biosynthesis of spider silk proteins. This review may facilitate the rational design and efficient synthesis of recombinant spidroin.
KW - classification
KW - expression strategy
KW - recombinant spider silk protein
KW - sequence design
KW - structural characteristics
UR - http://www.scopus.com/inward/record.url?scp=85189252096&partnerID=8YFLogxK
U2 - 10.13345/j.cjb.230444
DO - 10.13345/j.cjb.230444
M3 - 文献综述
C2 - 38545971
AN - SCOPUS:85189252096
SN - 1000-3061
VL - 40
SP - 687
EP - 704
JO - Shengwu Gongcheng Xuebao/Chinese Journal of Biotechnology
JF - Shengwu Gongcheng Xuebao/Chinese Journal of Biotechnology
IS - 3
ER -