Page 139 - 《水产学报》2026年第3期

P. 139

3 期吴叶凡，等：海洋细菌胞外多糖可拉酸提取及其对厚壳贻贝稚贝附着的作用 50 卷

22(1): 67-73 (in Chinese). sugar deficiency on colanic acid biosynthesis in Escherichia
[ 6 ] 杨金龙, 慎佩晶, 王冲, 等. 微生物膜对厚壳贻贝稚贝附着的 coli[J]. Journal of Bacteriology, 2016, 198(11): 1576-1584,
影响 [J]. 水产学报, 2013, 37(6): 904-909. [17] Ju E Y, Yoonho C, Ree N H, et al. Increased production of
Yang J L, Shen P J, Wang C, et al. Effects of biofilms on settle- colanic acid by an Engineered Escherichia coli strain, mediated
ment of plantigrades of the mussel Mytilus coruscus[J]. Journal by genetic and environmental perturbations[J]. Applied bio-
of Fisheries of China, 2013, 37(6): 904-909 (in Chinese). chemistry and biotechnology, 2021, 193(12): 1-14.
[ 7 ] Peng L H, Liang X, Chang R H, et al. A bacterial polysacchar- [18] Wu H Y, Chen S W, Ji M H, et al. Activation of colanic acid
ide biosynthesis-related gene inversely regulates larval settle- biosynthesis linked to heterologous expression of the polyhy-
ment and metamorphosis of Mytilus coruscus[J]. Biofouling,
droxybutyrate pathway in Escherichia coli[J]. International
2020, 36(7): 753-765,
Journal of Biological Macromolecules, 2019, 128: 752-760,
[ 8 ] 解静仪, 王小雨, 李局, 等. 海洋细菌生物被膜可拉酸含量影
[19] Han H M, Kim I J, Yun E J, et al. Overproduction of exopoly-
响厚壳贻贝稚贝附着 [J]. 海洋学报, 2023, 45(8): 96-107.
saccharide colanic acid by Escherichia coli by strain engineer-
Xie J Y, Wang X Y, Li J, et al. Effect of the content of colanic
ing and media optimization[J]. Applied Biochemistry and Bio-
acid in marine bacterial biofilms on the settlement of Mytilus
technology, 2021, 193(1): 111-127,
coruscus plantigrades[J]. Haiyang Xuebao, 2023, 45(8): 96-107
[20] Mao Y, Doyle M P, Chen J R. Insertion mutagenesis of wca
(in Chinese).
reduces acid and heat tolerance of enterohemorrhagic Escheri-
[ 9 ] Goebel W F. Colanic acid[J]. Proceedings of the National
chia coli O157: H7[J]. Journal of Bacteriology, 2001, 183(12):
Academy of Sciences of the United States of America, 1963,
3811-3815,
49(4): 464-471,
[21] Mao Y, Doyle M P, Chen J. Role of colanic acid exopolysac-
[10] Han B, Sivaramakrishnan P, Lin C C J, et al. Microbial genetic
charide in the survival of enterohaemorrhagic Escherichia coli
composition tunes host longevity[J]. Cell, 2018, 173(4): 1058,
O157: H7 in simulated gastrointestinal fluids[J]. Letters in
[11] Obadia B, Lacour S, Doublet P, et al. Influence of tyrosine-
Applied Microbiology, 2006, 42(6): 642-647,
kinase Wzc activity on colanic acid production in Escherichia
[22] Waite H J. Mussel adhesion - essential footwork[J]. Journal of
coli K12 cells[J]. Journal of Molecular Biology, 2007, 367(1):
Experimental Biology, 2017, 220(4): 517-530,
42-53,
[23] Ahn B K. Perspectives on mussel-inspired wet adhesion[J].
[12] Tsvetikova S A, Koshel E I. Optimized protocol for production
Journal of the American Chemical Society, 2017, 139(30):
and extraction of colanic acid from E. coli culture[J]. Russian
10166-10171,
Journal of Bioorganic Chemistry, 2024, 50(4): 1357-1364,
[24] Silverman H G, Roberto F F. Byssus formation in
[13] Wu J X, Huang M, Zhan Y, et al. Regulating cardiolipin bio-
Mytilus[M]//Byern J, Grunwald I. Biological adhesive systems:
synthesis for efficient production of colanic acid in Escherichia
from nature to technical and medical application. Vienna:
coli[J]. Journal of Agricultural and Food Chemistry, 2023,
Springer, 2010: 273-283,
71(22): 8516-8526,
[14] 孙海红, 毛文君, 钱叶苗, 等. 海洋微生物活性胞外多糖的研 [25] Lin Q, Gourdon D, Sun C J, et al. Adhesion mechanisms of the
究进展 [J]. 海洋科学, 2011, 35(11): 134-138. mussel foot proteins mfp-1 and mfp-3[J]. Proceedings of the
National Academy of Sciences of the United States of America,
Sun H H, Mao W J, Qian Y M, et al. Advances on the charac-
2007, 104(10): 3782-3786,
teristics and bioactivities of exopolysaccharides from marine
[26] Danner E W, Kan Y J, Hammer M U, et al. Adhesion of mus-
microorganism[J]. Marine Sciences, 2011, 35(11): 134-138 (in
sel foot protein mefp-5 to mica: an underwater superglue[J].
Chinese).
[15] 张姗姗, 王长云, 魏晓蕾, 等. 海洋微生物胞外多糖结构与生 Biochemistry, 2012, 51(33): 6511-6518,
物活性研究进展 [J]. 微生物学通报, 2007, 34(1): 153-156. [27] Waite J H. The formation of mussel byssus: anatomy of a nat-
Zhang S S, Wang C Y, Wei X L, et al. Progress of the research ural manufacturing process[J]. Results and Problems in Cell
on the structure and bioactivities of marine microbial exopoly- Differentiation, 1992, 19: 27-54,
saccharide[J]. Microbiology China, 2007, 34(1): 153-156 (in [28] Qin C L, Pan Q D, Qi Q, et al. In-depth proteomic analysis of
Chinese). the byssus from marine mussel Mytilus coruscus[J]. Journal of
[16] Ren G, Wang Z, Li Y, et al. Effects of lipopolysaccharide core Proteomics, 2016, 144: 87-98,

中国水产学会主办 sponsored by China Society of Fisheries https://www.china-fishery.cn
11

134 135 136 137 138 139 140 141 142 143 144