[1]Pegg G F, Brady B L. Verticillium Wilts. Wallingford, UK: CABI Publishing, 2002.[2]Choi J, Park J, Kim D, Jung K, Kang S, Lee Y H. Fungal secretome database: integrated platform for annotation of fungal secretomes. BMC Genomics, 2010, 11: doi: 10.1186/1471-2164-11-105.[3]Fradin E F, Thomma B P. Physiology and molecular aspects of Verticillium wilt diseases caused by V. dahliae and V. albo-atrum. Molecular Plant Pathology, 2006, 7(2): 71-86.[4]Benhamou N, Rey P, Picard K, Tirilly Y. Ultrastructural and cytochemical aspects of the interaction between the mycoparasite Pythium oligandrum and soilborne plant pathogens. Phytopathology, 1999, 89(6): 506-517. [5]Davis D A, Lowb P S, Heinstein P. Purification of a glycoprotein elicitor of phytoalexin formation from Verticillium dahliae. Physiological and Molecular Plant Pathology, 1998, 52(4): 259-273.[6]储昭庆, 贾军伟, 周向军, 陈晓亚. 大丽轮枝菌分泌糖蛋白的分离及其致萎性研究. 植物学报, 1999, 41(9): 972-976.Chu Z Q, Jia J W, Zhou X J, Chen X Y. Isolation of glycoproteins form Verticillium dahliae and their phytotoxicity. Acta Botanica Sinica, 1999, 41(9): 972-976. (in Chinese)[7]Wang B, Yang X, Zeng H, Liu H, Zhou T, Tan B, Yuan J, Guo L, Qiu D. The purification and characterization of a novel hypersensitive-like response-inducing elicitor from Verticillium dahliae that induces resistance responses in tobacco. Applied Microbiology and Biotechnology, 2012, 93(1): 191-201.[8]Wang J Y, Cai Y, Gou J Y, Mao Y B, Xu Y H, Jiang W H, Chen X Y. VdNEP, an elicitor from Verticillium dahliae, induces cotton plant wilting. Applied and Environmental Microbiology, 2004, 70(8): 4989-4995.[9]Klosterman S J, Subbarao K V, Kang S, Veronese P, Gold S E, Thomma B P, Chen Z, Henrissat B, Lee Y H, Park J, Garcia-Pedrajas M D, Barbara D J, Anchieta A, de Jonge R, Santhanam P, Maruthachalam K, Atallah Z, Amyotte S G, Paz Z, Inderbitzin P, Hayes R J, Heiman D I, Young S, Zeng Q, Engels R, Galagan J, Cuomo C A, Dobinson K F, Ma L J. Comparative genomics yields insights into niche adaptation of plant vascular wilt pathogens. PLoS Pathogen, 2011, 7(7): e1002137.[10]de Jonge R, van Esse H P, Maruthachalam K, Bolton M D, Santhanam P, Saber M K, Zhang Z, Usami T, Lievens B, Subbarao K V, Thomma B P. Tomato immune receptor Ve1 recognizes effector of multiple fungal pathogens uncovered by genome and RNA sequencing. Proceedings of the National Academy of Sciences of the United States of America, 2012, 109(13): 5110-5115.[11]El-Bebany A F, Rampitsch C, Daayf F. Proteomic analysis of the phytopathogenic soilborne fungus Verticillium dahliae reveals differential protein expression in isolates that differ in aggressiveness. Proteomics, 2010, 10(2): 289-303.[12]Paper J M, Scott-Craig J S, Adhikari N D, Cuomo C A, Walton J D. Comparative proteomics of extracellular proteins in vitro and in planta from the pathogenic fungus Fusarium graminearum. Proteomics, 2007, 7(17): 3171-3183.[13]Manavalan A, Sunil S A, Sze S K. iTRAQ-based quantitative secretome analysis of Phanerochaete chrysosporium. Journal of Proteomics, 2011, 75: 642-654.[14]Phalip V, Delalande F, Carapito C, Goubet F, Hatsch D, Leize-Wagner E, Dupree P, Dorsselaer A V, Jeltsch J M. Diversity of the exoproteome of Fusarium graminearum grown on plant cell wall. Current Genetics, 2005, 48(6): 366-379.[15]Weber S S, Parente A F, Borges C L, Parente J A, Bailão A M, de Almeida Soares C M. Analysis of the secretomes of Paracoccidioides mycelia and yeast cells. PLoS One, 2012, 7(12): e52470.[16]张宇, 贺丹, 王爽, 张艳华, 李涵, 王丽. 烟曲霉分泌蛋白质提取方法的比较. 中国生物制品学杂志, 2010, 23(3): 313-316. Zhang Y, He D, Wang S, Zhang Y H, Li H, Wang L. Comparison of methods for extraction of protein secreted form Aspergillus fumigatus. Chinese Journal of Biologicals, 2010, 23(3): 313-316. (in Chinese)[17]Kaffarnik F A, Jones A M, Rathjen J P, Peck S C. Effector proteins of the bacterial pathogen Pseudomonas syringae alter the extracellular proteome of the host plant, Arabidopsis thaliana. Molecular & Cellular Proteomics, 2009, 8(1): 145-156. [18]Morais do Amaral A, Antoniw J, Rudd J J, Hammond-Kosack K E. Defining the predicted protein secretome of the fungal wheat leaf pathogen Mycosphaerella graminicola. PLoS One, 2012, 7(12): e49904.[19]Vanden Wymelenberg A, Minges P, Sabat G, Martinez D, Aerts A, Salamov A, Grigoriev I, Shapiro H, Putnam N, Belinky P, Dosoretz C, G. Computational analysis of the Phanerochaete chrysosporium v2.0 genome database and mass spectrometry identification of peptides in ligninolytic cultures reveal complex mixtures of secreted proteins. Fungal Genetic Biology, 2006, 43(5): 343-356. [20]田李, 陈捷胤, 陈相永, 汪佳妮, 戴小枫. 大丽轮枝菌 (Verticillium dahliae VdLs.17)分泌组预测及分析. 中国农业科学, 2011, 44(15): 3142-3153. Tian L, Chen J Y, Chen X Y, Wang J N, Dai X F. Prediction and analysis of Verticillium dahliae VdLs.17 secretome. Scientia Agricultura Sinica, 2011, 44(15): 3142-3153. (in Chinese)[21]Tian L, Zhang L, Zhang J, Song Y, Guo Y. Differential proteomic analysis of soluble extracellular proteins reveals the cysteine protease and cystatin involved in suspension-cultured cell proliferation in rice. Biochimica et Biophysica Acta, 2009, 1794(3): 459-467.[22]Lippert D N, Ralph S G, Phillips M, White R, Smith D, Hardie D, Gershenzon J, Ritland K, Borchers C H, Bohlmann J. Quantitative iTRAQ proteome and comparative transcriptome analysis of elicitor-induced Norway spruce (Picea abies) cells reveals elements of calcium signaling in the early conifer defense response. Proteomics, 2009, 9(2): 350-367.[23]曹晶, 沈诚频, 张军, 姚鋆, 申华莉, 刘银坤, 陆豪杰, 杨芃原. 肝癌细胞分泌蛋白质的多种提取方法比较. 中国科学: 生命科学, 2010, 40(9): 853-858.Cao J, Shen C P, Zhang J, Yao J, Shen H L, Liu Y K, Lu H J, Yang P Y. Comparison of alternative extraction methods for secretome profiling in human hepatocellular carcinoma cells. Scientia Sinica Vitae, 2010, 40(9): 853-858. (in Chinese)[24]Kikot G E, Hours R A, Alconada T M. Contribution of cell wall degrading enzymes to pathogenesis of Fusarium graminearum: a review. Journal of Basic Microbiology, 2009, 49(3): 231-241.[25]Petsalaki E I, Bagos P G, Litou Z I, Hamodrakas S J. PredSL: a tool for the N-terminal sequence-based prediction of protein subcellular localization. Genomics, Proteomics & Bioinformatics, 2006, 4(1): 48-55.[26]Saunders D G, Win J, Cano L M, Szabo L J, Kamoun S, Raffaele S. Using hierarchical clustering of secreted protein families to classify and rank candidate effectors of rust fungi. PLoS One, 2012, 7(1): e29847.[27]Tzima A K, Paplomatas E J, Rauyaree P, Ospina-Giraldo M D, Kang S. VdSNF1, the sucrose non-fermenting protein kinase gene of Verticillium dahliae, is required for virulence and expression of genes involved in cell-wall degradation. Molecular Plant-Microbe Interactions, 2011, 24(1): 129-142. [28]de Jonge R, Bolton M D, Kombrink A, van den Berg G C, Yadeta K A, Thomma B P. Extensive chromosomal reshuffling drives evolution of virulence in an asexual pathogen. Genome Research, 2013, 23: 1271-1282.[29]Zhang T, Sun X, Xu Q, Zhu C, Li Q, Li H. PdSNF1, a sucrose non-fermenting protein kinase gene, is required for Penicillium digitatum conidiation and virulence. Applied Microbiology and Biotechnology, 2013, 97(12): 5433-5445.[30]Saunders D G, Breen S, Win J, Schornack S, Hein I, Bozkurt T O, Champouret N, Vleeshouwers V G, Birch P R, Gilroy E M, Kamoun S. Host protein BSL1 associates with Phytophthora infestans RXLR effector AVR2 and the Solanum demissum immune receptor R2 to mediate disease resistance. The Plant Cell, 2012, 24(8): 3420-3434. [31]Rey T, Nars A, Bonhomme M, Bottin A, Huguet S, Balzergue S, Jardinaud M F, Bono J J, Cullimore J, Dumas B, Gough C, Jacquet C. NFP, a LysM protein controlling Nod factor perception, also intervenes in Medicago truncatula resistance to pathogens. New Phytologist, 2013, 198(3): 875-886.[32]Shao S, Hegde R S. A calmodulin-dependent translocation pathway for small secretory proteins. Cell, 2011, 147(7): 1576-1588. [33]Martijn R. Small proteins of plant-pathogenic fungi secreted during host colonization. FEMS Microbiology Letters, 2005, 253(1): 19-27.[34]Teertstra W R, Krijgsheld P, Wösten H A. Absence of repellents in Ustilago maydis induces genes encoding small secreted proteins. Antonie Van Leeuwenhoek, 2011, 100(2): 219-229. |