Secretory production of spider silk proteins in metabolically engineered Corynebacterium glutamicum for spinning into tough fibers

蜘蛛丝 谷氨酸棒杆菌 分泌物 丝绸 代谢工程 分泌蛋白 生物化学 生物 重组DNA 生物物理学 细胞生物学 蜘蛛 化学 材料科学 基因 复合材料 动物
作者
Qing Jin,Pan Fang,Chun‐Fei Hu,Sang Yup Lee,Xiao‐Xia Xia,Zhi‐Gang Qian
出处
期刊:Metabolic Engineering [Elsevier BV]
卷期号:70: 102-114 被引量:52
标识
DOI:10.1016/j.ymben.2022.01.009
摘要

Spider dragline silk is a remarkable fiber made of unique proteins-spidroins-secreted and stored as a concentrated aqueous dope in the major ampullate gland of spiders. This feat has inspired engineering of microbes to secrete spidroins for spinning into tough synthetic fibers, which remains a challenge due to the aggregation-prone feature of the spidroins and low secretory capacity of the expression hosts. Here we report metabolic engineering of Corynebacterium glutamicum to efficiently secrete recombinant spidroins. Using a model spidroin MaSpI16 composed of 16 consensus repeats of the major ampullate spidroin 1 of spider Trichonephila clavipes, we first identified the general Sec protein export pathway for its secretion via N-terminal fusion of a translocation signal peptide. Next we improved the spidroin secretion levels by selection of more suitable signal peptides, multiplexed engineering of the bacterial host, and by high cell density cultivation of the resultant recombinant strains. The high abundance (>65.8%) and titer (554.7 mg L-1) of MaSpI16 in the culture medium facilitated facile, chromatography-free recovery of the spidroin with a purity of 93.0%. The high solubility of the purified spidroin enabled preparation of highly concentrated aqueous dope (up to 66%) amenable for spinning into synthetic fibers with an appreciable toughness of 70.0 MJ m-3. The above metabolic and processing strategies were also found applicable for secretory production of the higher molecular weight spidroin MaSpI64 (64 consensus repeats) to yield similarly tough fibers. These results suggest the good potential of secretory production of protein polymers for sustainable supply of fibrous materials.
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