红色毛癣菌分泌性蛋白酶的分析被引量：1

Analysis of secreted proteases of Trichophyton rubrum

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摘要分泌性蛋白酶是红色毛癣菌致病的潜在毒力因子。在构建红色毛癣菌6个不同时间段cDNA文库的基础上,共获得了9683条uniqueESTs,通过生物信息学分析从中得到了18个可能的分泌性蛋白酶的EST序列,包括4个分泌性肽酶、1个分泌性金属蛋白酶、2个细胞外丝氨酸蛋白酶、1个分泌性天冬氨酸蛋白酶、9个分泌性枯草杆菌蛋白酶样丝氨酸蛋白酶、1个空泡丝氨酸蛋白酶。这些分泌性蛋白酶在红色毛癣菌感染过程中可能分别与其获得营养、扩大侵袭范围及激起宿主免疫应答有关,这些结果为进一步研究红色毛癣菌感染和发病机制提供了重要的分子基础和线索。 Secreted proteases are thought as potential virulent factors of Tricophyton rubrum. Based on cDNA libraries of 6 physiological phases of Tricophyton rubrum, 9683 uniqueESTs were obtained by DNA sequencing. By bioinformatic analysis, 18 ESTs of putative secreted proteases were obtained from the established ESTs library, including 4 secreted peptidases, 1 secreted metalloprotease, 2 extracellular serine proteases, 1 secreted aspartic proteinase, 9 secreted subtilisin-like proteases and 1 vacuolar serine protease. These secreted proteases are related to nutrient uptake, lesion extension and host immune responses elicitation in the process of T. rubrum infection. These results provide a clue to further research on the infection and pathogencity of T. rubrum.

作者冷文川王玲玲卫灿东杨剑金奇

机构地区中国疾病预防控制中心病毒基因工程国家重点实验室

出处《微生物学报》 CAS CSCD 北大核心 2005年第4期601-605,共5页 Acta Microbiologica Sinica

基金国家"863计划"(2001AA223021) 国家重大科技攻关计划(2002BA711A14)~~

关键词红色毛癣菌分泌性蛋白酶表达序列标签 T. rubrum, Secreted proteases, Expressed sequence tag

分类号 R379 [医药卫生—病原生物学]

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参考文献14

1Samdani A J, Dykes P J, Marks R. The proteolytic activity of strains of T. mentagrophytes and T. rubrum isolated from tinea pedis and tinea unguium infections. J Med Vet Mycol, 1995,33(3):167 - 170.
2Apodaca G, McKerrow J H. Expression of proteolytic activity by cultures of Trichrophyton rubrum. J Med Vet Mycol, 1990,28:159- 171.
3Apodaca G, McKerrow J H. Regulation of Trichophyton rubrum proteolytic activity. Infect Immun, 1989,57(10) :3081 - 3090.
4Asahi M, Lindquist R, Fukuyama K, et al. Purification and characterization of major extracellular proteinases from Trichophyton rubrum. Biochem J, 1985,232(1) :139 - 144.
5Meevootisom V, Niederpruem D J. Control of exocellular proteases in dermatophytes and especially Trichophyton rubrum. Sabouraudia,1979,17(2) :91 - 106.
6Jousson O, Lechenne B, Bontems O, et al. Multiplication of an ancestral gene encoding secreted fungalysin preceded species differentiation in the dermatophytes Trichophyton and Microsporum.Microbiology, 2004,150(Pt 2):301 - 310.
7Jousson O, Lechenne B, Bontems O, et al. Secreted subtilisin gene family in Trichophyton rubrum. Gene, 2004,15(339) :79 - 88.
8Fannon M R. Gene expression in normal and disease states identification of therapeutic targets. Trends Biotechnol, 1996, 14(8) :294 - 298.
9Judith A, Lisa M, Rohan V, et al. Trichophyton antigens associated with IgE antibodies and delayed type hypersensitivity.Sequence homology to two families of serine proteinases. J Biol Chem, 1998, 273(45) :29489 - 29496.
10Brouta F, Descamps F, Monod M, et al. Secreted metalloprotease gene family of Microsporum canis. Infect Immun, 2002,70(10):5676 - 5683.

二级参考文献13

1Denning D W, Venkateswarlu K, Oakley K L, et al. Itraconazole resistance in Aspergillusfumigatus. Antimicrob Agent Chemother,1997, 41(6): 1364-1368
2Fontaine T, Magnin T, Melhert A, et al. Structures of the glycosylphosphatidylinositol membrane anchors from Aspergillus fumigatus membrane proteins. Glycobiology, 2003, 13(3): 169-177
3Kitagaki H, Wu H, Shimoi H, Ito K. Two homologous genes,DCW1 (YKL046c) and DFG5, are essential for cell growth and encode glycosylphosphatidylinositol (GPI)-anchored membrane proteins required for cell wall biogenesis in Saccharomyces cerevisiae. Mol Micr
4Richard M, De Groot P, Courtin O, et al. GPI7 affects cell-wall protein anchorage in Saccharomyces cerevisiae and Candida albicans. Microbiology, 2002, 148(Pt 7): 2125-2133
5Clemons K V, Miller T K, Selitrennikoff C P, et al. fos-1, a putative histidine kinase as a virulence factor for systemic aspergillosis. Med Mycol, 2002, 40(3): 259-262
6Pott G B, Miller T K, Bartlett J A, et al. The isolation of FOS-l, a gene encoding a putative two-component histidine kinase from Aspergillus fumigatus. Fungal Genet Biol, 2000, 31 (1): 55-67
7Selitrennikoff C P, Alex L, Miller T K, et al. COS1, a putative two-component histidine kinase of Candida albicans, is an vivo virulence factor. Med Mycol, 2001, 39(1): 69-74
8Torosantucci A, Chiani P, De Bernardis F, et al. Deletion of the two-component histidine kinase gene (CHK1) of Candida albicans contributes to enhanced growth inhibition and killing by human neutrophils in vitro. Infect Immun, 2002, 70(2): 985～987
9Samdani A J, Dykes P J, Marks R. The proteolytic activity of strains of T. mentagrophytes and T. rubrum isolated from tinea pedis and tinea unguium infections. J Med Vet Mycol, 1995,33(3): 167-170
10Apodaca G, McKerrow J H. Expression of proteolytic activity by cultures of Trichrophyton rubrum. J Med Vet Mycol, 1990, 28:159-171

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1苏志熙,董新姣,张兵,曾燕舞,傅衍,于军,胡松年.泌乳前后家猪乳腺基因表达谱的构建以及不同猪种和不同发育时期差异表达基因的确定[J].中国科学（C辑）,2005,35(5):462-471. 被引量：2
2李方,弓太生,曹云红.鞋用抗菌剂及其制品抗菌效力的评价方法[J].中国皮革,2007,36(1):46-49. 被引量：2
3杨莉,王玲玲,彭俊平,于录,刘涛,冷文川,杨剑,陈立宏,张文亮,张骞,齐义鹏,金奇.红色毛癣菌孢子期与萌芽期基因表达比较分析[J].中国科学（C辑）,2007,37(2):227-233. 被引量：3
4张海燕,杨谦.角毛壳菌生物防治相关基因的筛选[J].中国生物防治,2007,23(2):191-194. 被引量：4
5张海燕,杨谦.角毛壳菌降解粗纤维基因的筛选[J].林产化学与工业,2007,27(3):21-26.
6傅裕,鲍迎秋,常建民,李若瑜.红色毛癣菌的生物学特性和致病特点[J].中华全科医师杂志,2007,6(8):482-484. 被引量：6
7徐星晔,刘涛,冷文川,董杰,薛颖,杨汉春,金奇.红色毛癣菌不同生长阶段的基因表达谱分析[J].中国科学：生命科学,2011,41(5):414-421. 被引量：3

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2朱敬先,胡沙沙,高顺强,林元珠.犬小孢子菌胞外酶活性研究[J].中国皮肤性病学杂志,2004,18(8):458-459. 被引量：5
3赵小东,付萌,王冬青,孙林潮,张海龙,刘红娟,刘玉峰.角蛋白与毛发诱导须癣毛癣菌产生角蛋白酶的比较[J].中国美容医学,2004,13(5):519-521. 被引量：2
4牛桃香,骆志成,武三卯,李文竹,周晓黎.几种常见皮肤癣菌的随机扩增多态性DNA分型[J].中华皮肤科杂志,2006,39(8):472-473. 被引量：4
5李筱芳,刘维达,陈辉,陈先进,沈永年,吕桂霞.甲真菌病分离菌株体外角蛋白酶活性的测定[J].中国皮肤性病学杂志,2007,21(8):455-457. 被引量：4
6Ellis D, Marriott D, Hajjeh RA, et al. Trichophyton rubrum in- fection by multiple strain[J]. Med Mycol, 2000, 38(13): 78-82.
7Mnhsin TM, Hadi RB. Degradation of keratin substrates by fungi iso- lated from sewage sludge[J]. Mycopathologia, 2002, 154(4): 185-189.
8Apprich V, Spergser J, Rosengarten R, et al. In vitro degrada- tion of equine keratin by dermatophytes and other keratinophilic fungi[J]. Vet Mierobiol, 2006, 114(3-4): 352-358.
9李民,王家俊,章强强,李莉,兰和奎,任大明.用聚合酶链反应进行红色毛癣菌种内分型[J].中华皮肤科杂志,2002,35(5):355-357. 被引量：11

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2伍燕兵,雷鹏程,冯小菊,陈荣,孙华中.球毛壳甲真菌病合并红色毛癣菌感染[J].岭南皮肤性病科杂志,1996,3(1):36-37. 被引量：2
3钱晓玲,魏玉平,张晓晖,李文竹.阴道嗜酸乳酸杆菌对白念珠菌影响的体外研究[J].临床皮肤科杂志,2013,42(3):157-159. 被引量：3
4De Berker D.A.R.,Perrin C.,Baran R.,罗素菊,冯义国.局限性纵向红甲:诊断意义及生理解释[J].世界核心医学期刊文摘（皮肤病学分册）,2005,0(2):10-11.
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6刘晓明,王是.必亮乳膏治疗皮肤浅部真菌病疗效观察[J].中国医药指南,2008,6(21):108-109.
7聂祝湘.角朊细胞粘合性连接的分子基础[J].中国皮肤性病学杂志,1996,10(4):227-229.
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红色毛癣菌分泌性蛋白酶的分析被引量：1

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