ZHANG Lin-huan , SUN Mi , WANG Wei , SUN Jing-jing , LIU Jun-zhong , HAO Jian-hua . Research progress of serralysin and its inhibitor[J]. Food and Fermentation Industries, 2018 , 44(11) : 313 -318 . DOI: 10.13995/j.cnki.11-1802/ts.017925

[1] 尹静. 沙雷氏菌产耐有机溶剂蛋白酶的研究[D]. 无锡:江南大学, 2011.
[2] 黄志强. 产碱性蛋白酶海洋细菌的筛选及其基因克隆[D]. 福州:福建农林大学, 2006.
[3] TURK V. Proteases: new perspectives[M]. Boston, Berlin: Birkhuser Verlag, Basel, 1999.
[4] 巩晓芳,张宗舟,薛林贵. 蛋白酶的研究进展[J]. 中国食品工业, 2011 (10):50-52.
[5] 胡学智,王俊. 蛋白酶生产和应用的进展[J]. 工业微生物, 2008, 38(4):49-61.
[6] 梁高丽,谢占玲. 微生物源金属蛋白酶的研究进展[J]. 青海畜牧兽医杂志, 2017, 47(3):45-48.
[7] JIANG Wei-ping, BOND J S. Families of metalloendopeptidases and their relationships[J]. FEBS Letters, 1992, 312(2-3):110-114.
[8] HOOPER N M. Families of zinc metalloproteases[J]. FEBS Letters, 1994, 354(1):1-6.
[9] BASU B, APTE S K. A novel serralysin metalloprotease from Deinococcus radiodurans[J]. Biochimica et Biophysica Acta (BBA)-Proteins and Proteomics, 2008, 1 784(9):1 256-1 264.
[10] 闫鸿斌. 四种绦虫蛋白酶及其抑制剂的系统挖掘与功能分析[D]. 北京:中国农业科学院, 2013.
[11] RAWLINGS N D, BARRETT A J. Chapter 77-introduction: metallopeptidases and their clans. Handbook of Proteolytic Enzymes[M]. 3rd ed.Manhattan, New York: Acodemic Press, 2013:325-370.
[12] BODE W, Gomis-Rüth F X, HUBER R, et al. Structure of astacin and implications for activation of astacins and zinc-ligation of collagenases[J]. Nature, 1992, 358(6 382):164-167.
[13] STÕCKER W, GRAMS F, BAUMANN U, et al. The metzincins-topological and sequential relations between the astacins,adamalysins,serralysins,and matrixins (collagenases) define a superfamily of zinc-peptidases[J]. Protein Science, 1995, 4(5):823-840.
[14] 郑媛,盛军,纪晓峰,等. 锌金属蛋白酶家族的结构与催化机理[J]. 中国生物化学与分子生物学报, 2013(8):719-726.
[15] 孙谧,郝建华,王伟,等. 海洋细菌新型低温碱性蛋白酶MP晶体:中国, 101717762 B[P]. 2010-06-02.
[16] 刘均忠,孙谧,王伟,等. 海洋细菌新型低温碱性蛋白酶mp:中国, 101691565 B[P]. 2010-04-07.
[17] WANG Fang, HAO Jian-hua, YANG Cheng-ye, et al. Cloning, expression, and identification of a novel extracellular cold-adapted alkaline protease gene of the marine bacterium strain YS-80-122[J]. Applied Biochemistry and Biotechnology, 2010, 162(5):1 497-1 505.
[18] KWAK J, LEE K, SHIN D H, et al. Biochemical and genetic characterization of arazyme, an extracellular metalloprotease produced from Serratia proteamaculans HY-3.[J]. Journal of Microbiology & Biotechnology, 2007, 17(5):761-768.
[19] KIM H J, TAMANOUE Y, JEOHN G H, et al. Purification and characterization of an extracellular metalloprotease from Pseudomonas fluorescens[J]. The Journal of Biochemistry, 1997, 121(1):82-88.
[20] KIM H S, GOLYSHIN P N, TIMMIS K N. Characterization and role of a metalloprotease induced by chitin in Serratia sp. KCK[J]. Journal of industrial microbiology & biotechnology, 2007, 34(11):715-721.
[21] WU Dong-xia, LI Peng-peng, ZHOU Jia-le, et al. Identification of a toxic serralysin family protease with unique thermostable property from S. marcescens FS14[J]. International Journal of Biological Macromolecules, 2016, 93: 98-106.
[22] MAEDA H, MORIHARA K. Serralysin and related bacterial proteinases[J]. Methods in Enzymology, 1995, 248:395-413.
[23] WASSIF C, CHEEK D, BELAS R. Molecular analysis of a metalloprotease from Proteus mirabilis[J]. Journal of Bacteriology, 1995, 177(20):5 790-5 798.
[24] STELLA N A, CALLAGHAN J D, ZHANG Liang, et al. SlpE is a calcium-dependent cytotoxic metalloprotease associated with clinical isolates of Serratia marcescens[J]. Research in Microbiology, 2017, 168(6): 567-574.
[25] 郝俊. 柑橘黄龙病Serralysin蛋白的重组表达和纯化[D]. 武汉:华中农业大学, 2011.
[26] 赵爱平,孙聪,展恩玲,等. 蛋白酶抑制剂对梨小食心虫幼虫中肠蛋白酶活性的影响[J]. 昆虫学报, 2016, 59(10):1 069-1 078.
[27] SANTIAGO R,MICHEL K,LESZEK K,et al. Metzincin proteases and their inhibitors: Foes or friends in nervous system physiology?[J].The Journal of Neuroscience.2010,30(46):15 337-15 357.
[28] ARUMUGAM S, GRAY R D, LANE A N. NMR structure note: Alkaline proteinase inhibitor APRin from Pseudomonas aeruginosa[J]. Journal of Biomolecular NMR, 2008, 40(3):213-217.
[29] ODA K, KAYAMA T, MURAO S. Purification and properties of a proteinaceous metallo-proteinase inhibitor from Streptomyces nigrescens TK-23[J]. BBA-Enzymology, 1979, 571(1):147-156.
[30] LIANG Peng-juan, LI Shang-yong, WANG Kun, et al. A thermostable serralysin inhibitor from marine bacterium Flavobacterium sp. YS-80-122[J]. Chinese Journal of Oceanology and Limnology, 2017(3):1-7.
[31] KIM K S, KIM T U, KIM I J, et al. Characterization of a metalloprotease inhibitor protein (SmaPI) of Serratia marcescens[J]. Applied and Environmental Microbiology, 1995, 61(8):3 035-3 041.
[32] FELTZER R E, GRAY R D, DEAN W L, et al. Alkaline proteinase inhibitor of Pseudomonas aeruginosa. Interaction of native and N-terminally truncated inhibitor proteins with Pseudomonas metalloproteinases[J]. Journal of Biological Chemistry, 2000, 275(28):21 002-21 009.
[33] KIDA Y, HIGASHIMOTO Y, INOUE H, et al. A novel secreted protease from Pseudomonas aeruginosa activates NF-kappaB through protease-activated receptors[J]. Cellular Microbiology, 2008, 10(7):1 491-1 504.
[34] Gomis-Rüth F X. Structural aspects of the metzincin clan of metalloendopeptidases[J]. Molecular Biotechnology, 2003, 24(2):157-202.
[35] CARSON L, CATHCART G R, CERI H, et al. Comparison of the binding specificity of two bacterial metalloproteases, LasB of Pseudomonas aeruginosa and ZapA of Proteus mirabilis, using N-alpha mercaptoamide template-based inhibitor analogues[J]. Biochemical and Biophysical Research Communications, 2012, 422(2): 316-320.
[36] PANDHARE J, ZOG K, DESHPANDE V V. Differential stabilities of alkaline protease inhibitors from actinomycetes: effect of various additives on thermostability[J]. Bioresource Technology, 2002, 84(2):165-169.
[37] OTLEWSKI J, Jelen F, ZAKRZEWSKA M, et al. The many faces of protease–protein inhibitor interaction[J]. The EMBO Journal, 2005, 24(7):1 303-1 310.
[38] FELTZER R E, TRENT J O, GRAY R D. Alkaline proteinase inhibitor of Pseudomonas aeruginosa: a mutational and molecular dynamics study of the role of N-terminal residues in the inhibition of Pseudomonas alkaline proteinase[J]. Journal of Biological Chemistry, 2003, 278(28): 25 952-25 957.
[39] HEGE T, FELTZER R E, GRAY R D, et al. Crystal structure of a complex between Pseudomonas aeruginosa alkaline protease and its cognate inhibitor[J]. Journal of Biological Chemistry, 2001, 276(37):35 087-35 092.
[40] Létoffé S, DELEPELAIRE P, WANDERSMAN C. Cloning and expression in Escherichia coli of the Serratia marcescens metalloprotease gene: secretion of the protease from E. coli in the presence of the Erwinia chrysanthemi protease secretion functions[J]. Journal of Bacteriology, 1991, 173(7):2 160-2 166.
[41] BAE K H, KIM I C, KIM K S, et al. The Leu-3 residue of serratia marcescens metalloprotease inhibitor is important in inhibitory activity and binding with serratia marcescens metalloprotease[J]. Archives of Biochemistry and Biophysics, 1998, 352(1):37-43.
[42] LÉTOFFÉ S, DELEPELAIRE P, WANDERSMAN C. Characterization of a protein inhibitor of extracellular proteases produced by Erwinia chrysanthemi[J]. Molecular Microbiology, 1989, 3(1):79-86.
[43] BAUMANN U, BAUER M, LÉTOFFÉ S, et al. Crystal structure of a complex between Serratia marcescens metallo-protease and an inhibitor from Erwinia chrysanthemi[J]. Journal of Molecular Biology, 1995, 248(3): 653-661.
[44] 王昆,梁朋娟,李尚勇,等. 碱性蛋白酶抑制剂lupI-MSSS原核表达载体的构建及其蛋白表达、纯化[J]. 食品与发酵工业, 2017, 43(7):20-26.
[45] 梁朋娟. 海洋碱性蛋白酶与其抑制剂的相互作用研究//全国第二届海洋与陆地多糖多肽及天然创新药物研发学术会议论文集[C].中国,漠河,2015:3.