[2]Martin G B,Brommonschenkel S H,Chunwongse J,et al.Map-based cloning of a protein kinase gene conferring disease resistance in tomato [J].Science,1993,262:1432-1436.
[3]Botella M A,Coleman M J,Hughes D E,et al.Map positions of 47 Arabidopsis sequences with sequence similarity to disease resistance genes [J].Plant,1997,12:1197-1211.
[4]Speulman E,Bouchez D,Holub E B,et al.Disease resistance gene homologs correlates with disease resistance loci of Arabidopsis thaliana [J].Plant,1998,14:467-474.
[5]Kearney B,Staskawicz B J.Widespread distribution and fitness contribution of Xanthomonas campestris avirulence gene avrBs2 [J].Nature,1990,346:385-386.
[6]Tai T H,Dahlbeck D,Clark E F,et al.Expression of the Bs2 pepper gene confers resistance to bacterial spot disease in tomato [J].Proceeding of National Academy of Sciences,1999,96:14153-14158.
[7]Wit PJGM.Molecular characterization of gene-for-gene system s in plant-fungus interactions and the application of avirulence genes in control of plant pathogens [J].Annual Review of Phytopathology,1992,30:391-418.
[8]Yang Y,Klessing D F.Isolation and characterization of a tobacco mosaic virus-inducible myb oncogene homolog from tobacco [J].Proceeding of National Academy of Sciences,1996,93:14972-14977.
[9]Klessig D F,Yang Y.Genes associated with enhanced disease resistance in plants [J].US Patent,1999,593-601.
[10]Cao H,Bowling S A,Gordon S.Characterization of an Arabidopsis mutant that is nonresponsive to inducers of systemic acquired resistance [J].Plant Cell,1998,6:1583-1592.
[11]Yu D,Xie Z,Chen C,et al.Expression of tobacco class Ⅱ catalase gene activates the endogenous homologous gene and in associated with disease resistance in transgenic potato plants [J].Plant Molecular Biology,1999,39:477-488.
[12]Pieterse C M J,Ton J ,Van Loon L C.Cross-talk between plant defense signaling pathways:boost or burden [J].AgBiotechNet,2001,3:1-8.
[13]Lee M V,Qi M,Yang Y.A noval jasmonic acid-inducible rice myb gene associates with fungal infection and host cell death[J].Molecular Plant-Microbe Interactions,2001,14:527-535.
[14]王华,周鹏,郭安平.几丁质酶基因与抗真菌蛋白基因、葡聚糖酶基因双价表达载体的构建及农杆菌工程菌株的重组 [J].西北植物学报,2002,22(2):250-256.(Wang H,Zhou P,Guo A P.Recombination of Agrobacterium strains with hivalent - expression vectors containing chitinase/antifungal protein or chitinase/β-1,3-glucanase genes [J].Acta Botanica Boreali-Occidentalia Sinica,2002,22(2):250-256.)
[15]徐香玲,邹联沛,刘伟华.向大豆导入几丁质酶基因的初步研究 [J].大豆科学,1999,18(2):101-107.(Xu X L,Zou L P,Liu W H.A preliminary study on transferring chitinase gene into soybeans[J].Soybean Science,1999,18(2):101-107.)
[16]Li H Y,Zhu Y M,Chen Q.Production of transgenic soybean plants with two anti fungal protein genes via Agrobacterium and particle bombardment [J].Biologia Plantarum,2004,48(3):367-374.
[17]郭玉双,张艳菊,朱延明,等.抗真菌转基因大豆对大豆疫霉根腐病抗病性鉴定 [J].东北农业大学学报,2006,37(6):733-738.(Guo Y S,Zhang Y J,Zhu Y M,et al.Resistance identification of fungi-resistant genes transformed soybean to Phytophthora sojae[J].Journal of Northeast Agricultural University,2006,37(6):733-738.)
[18]侯丙凯,夏光敏,陈正华.植物基因工程表达载体的改进和优化策略 [J].遗传,2001,23(5):492-497.(Hou B K,Xia G M,Chen Z H.Strategies for optimizing expression vectors used in plant genetic engineering [J].Hereditas,2001,23(5):492-497.)
[19]郭玉双,张艳菊,朱延明,等.转几丁质酶和核糖体失活蛋白双价基因大豆的获得与抗病性鉴定 [J].作物学报,2006,32(12):1841-1847.(Guo Y S,Zhang Y J,Zhu Y M ,et al.Obtainment of transgenic soybean plants with chitinase and ribosome inactivating protein genes and their resistance identification [J].Acta Agronomica Sinica,2006,32(12):1841-1847.)
[20]Donaldson P A,Anderson T,Lane B G,et al.Soybean plants expressing an active oligomeric oxalate oxidase from the wheat gf-2.8(germin)gene are resistant responses to the oxalate-secreting pathogen Sclerotinia sclerotiorum[J].Physiological and Molecular Plant Pathology,2001,59:297-307.
[21]Cober E R,Rioux S,Rajcan I,et al.Partial resistance to white mold in a transgenic soybean line [J].Crop Science,2003,43:92-95.
[22]张继南,陈红霞.抗菌肽及其应用研究进展 [J].生物技术通讯,2006,17(4):669- 672.(Zhang J N,Chen H X.The advance on investigation of antibacterial peptides and their application [J].Letters in Biotechnology,2006,17(4):669 -672.)
[23]Dasgupta I,Malathi V G,Mukherjee S K.Genetic engineering for virus resistance[J].Current Science,2003,84:431-354.
[24]Di R,Purcell V,Collins G B.Production of transgenic soybean lines expressing the bean pod mottle virus coat protein precursor gene [J].Plant Cell Reports,1996,15:746-750.
[25]Wang X Y,Eggenberger A L,Nutter J R,et al.Pathogenderived transgenic resistance to soybean mosaic virus in soybean [J].Molecular Breeding,2001,8:119-127.
[26]Srinivasa R M S,Ghabrial S A,Redmond C T,et al.Resistance to bean pod mottle virus in transgenic soybean lines expressing the capsid polyprotein [J].Phytopathology,2001,91(9):831-838.
[27]Furutani N,Hidaka S,Kosaka Y,et al.Cost protein gene-mediated resistance to soybean mosaic virus in transgenic soybean [J].Breeding Science,2006,56:119-124.
[28]Furutani N,Yamagishi N,Hidaka S,et al.Soybean mosaic virus resistance in soybean caused by post-transcriptional gene silencing [J].Breeding Science,2007,57:123-128.
[29]Tougou M,Furutani N,Yamagishi N,et al.Development of resistant transgenic soybeans with inverted repeat-coat protein genes of soybean dwarf virus [J].Plant Cell Reports,2006,25:1213-1218.
[30]Tougou M,Yamagishi N,Furutani N,et al.Soybean dwarf virus-resistant transgenic soybeans with the sense coat protein gene [J].Plant Cell Reports,2007,26:1967-1975.