[1]SATO Y,SUZUKI N.Continued mycovirus discovery expanding our understanding of virus lifestyles,symptom
expression,and host defense[J].Current Opinion in Microbiology,2023,75:102337.
[2]VILLAN LARIOS D C,DIAZ REYES B M,PIROVANI C P,et al.Exploring the mycovirus universe:Identification,diversity,and biotechnological applications[J].Journal of Fungi,2023,9(3):361.
[3]ZHANG L H,WANG S C,RUAN S J,et al.A mycovirus VIGS vector confers hypovirulence to a plant pathogenic
fungus to control wheat FHB[J].Advanced Science,2023,10(29):e2302606.
[4]ZHOU L L,LI X P,KOTTA⁃LOIZOU I,et al.A mycovirus modulates the endophytic and pathogenic traits of a plant associated fungus[J].The ISME Journal,2021,15:1893⁃1906.
[5]HOUGH B,STEENKAMP E,WINGFIELD B,et al.Fungal viruses unveiled:A comprehensive review of mycoviruses[J].Viruses,2023,15(5):1202.
[6]RIGLING D,PROSPERO S.Cryphonectria parasitica,the causal agent of chestnut blight:Invasion history,population biology and disease control[J].Molecular Plant Pathology,2018,19(1):7⁃20.
[7]QU Z,FU Y P,LIN Y,et al.Transcriptional responses of Sclerotinia sclerotiorum to the infection by SsHADV⁃1[J].Journal of Fungi,2021,7(7):493.
[8]LI P F,BHATTACHARJEE P,WANG S C,et al.Mycoviruses in Fusarium species:An update[J].Frontiers in Cellular and Infection Microbiology,2019,9:257.
[9]LI H,BIAN R L,LIU Q,et al.Identification of a novel hypovirulence⁃inducing hypovirus from Alternaria alternata[J].Frontiers in Microbiology,2019,10:1076.
[10]WANG Q Q,CHENG S F,XIAO X Q,et al.Discovery of two mycoviruses by high⁃throughput sequencing and assembly of mycovirus⁃derived small silencing RNAs from a hypovirulent strain of Sclerotinia sclerotiorum[J].Frontiers in Microbiology,2019,10:1415.
[11]TRAN T T,LI H,NGUYEN D Q,et al.Co⁃infection with three mycoviruses stimulates growth of a Monilinia fructicola isolate on nutrient medium,but does not induce hypervirulence in a natural host[J].Viruses,2019,11(1):89. [12]YAEGASHI H,KANEMATSU S,ITO T.Molecular characterization of a new hypovirus infecting a phytopathogenic fungus,Valsa ceratosperma[J].Virus Research,2012,165(2):143⁃150.
[13]BROWN M,JAYAWEERA D P,HUNT A,et al.Yield losses and control by sedaxane and fludioxonil of soilborne Rhizoctonia,Microdochium,and Fusarium species in winter wheat[J].Plant Disease,2021,105 (9):2521⁃2530. [14]ABBAS A,MUBEEN M,ZHENG H X,et al.Trichoderma spp. genes involved in the biocontrol activity against Rhizoctonia solani[J].Frontiers in Microbiology,2022,13:884469.
[15]ABBAS A,KHAN S U,KHAN W U,et al.Antagonist effects of strains of Bacillus spp. against Rhizoctonia solani for their protection against several plant diseases:Alternatives to chemical pesticides[J].Comptes Rendus Biologies,2019,342(5/6):124⁃135.
[16]ABDOULAYE A H,FODA M F,KOTTA⁃LOIZOU I.Viruses infecting the plant pathogenic fungus Rhizoctonia solan[J].Viruses,2019,11(12):1113.
[17]CASTANHO B.The association of double⁃stranded RNA with Rhizoctonia decline[J].Phytopathology,1978,68(10):1515.
[18]UMER M,MUBEEN M,SHAKEEL Q,et al.Mycoviruses:Antagonistic potential,fungal pathogenesis,and their interaction with Rhizoctonia solani[J].Microorganisms,2023,11(10):2515.
[19]BARTHOLOMÄUS A,WIBBERG D,WINKLER A,et al.Identification of a novel mycovirus isolated from Rhizoctonia solani(AG 2⁃2 IV)provides further information about genome plasticity within the order Tymovirales[J].Archives of Virology,2017,162(2):555⁃559.
[20]SUN A L,ZHAO L J,SUN Y,et al.Horizontal and vertical transmission of a mycovirus closely related to the partitivirus RhsV717 that confers hypovirulence in Rhizoctonia solani[J].Viruses,2023,15(10):2088.
[21]ZHANG M L,HE Z R,HUANG X T,et al.Genome organizations and functional analyses of a novel gammapartitivirus from Rhizoctonia solani AG⁃1 IA strain D122[J].Viruses,2021,13(11):2254.
[22]PICARELLI M A S C,FORGIA M,RIVAS E B,et al.Extreme diversity of mycoviruses present in isolates of Rhizoctonia solani AG2⁃2 LP from Zoysia japonica from Brazil[J].Frontiers in Cellular and Infection Microbiology,2019,9:244.
[23]ZHENG L,LIU H Q,ZHANG M L,et al.The complete genomic sequence of a novel mycovirus from Rhizoctonia solani AG⁃1 IA strain B275[J].Archives of Virology,2013,158(7):1609⁃1612.
[24]LI Y T,LI S W,ZHAO Y M,et al.Six novel mycoviruses containing positive single⁃stranded RNA and double⁃stranded RNA genomes co⁃infect a single strain of the Rhizoctoniasolani AG⁃3 PT[J].Viruses,2022,14(4):813. [25]MORRIS T J. Isolation and analysis of double⁃stranded RNA from virus⁃infected plant and fungal tissue[J].Phytopathology,1979,69(8):854.
[26]ABDOULAYE A H,HAI D,TANG Q,et al.Two distant helicases in one mycovirus:Evidence of horizontal gene transfer between mycoviruses,coronaviruses and other nidoviruses[J].Virus Evolution,2021,7(1):veab043.
[27]MCCABE P M,PFEIFFER P,VAN ALFEN N K.The influence of dsRNA viruses on the biology of plant pathogenic fungi[J].Trends in Microbiology,1999,7 (9):377⁃381.
[28]张露露,刘兴菊,马源,等.7个常用草地早熟禾品种对立枯丝核菌侵染的生理响应[J].草原与草坪,2022,42(3):81⁃90.
ZHANG L L,LIU X J,MA Y,et al.Physiological responses of seven common Poa pratensis varieties to infection by Rhizoctonia solani[J].Grassland and Turf,2022,42(3):81⁃90.
[29]郭秀娜.立枯丝核菌纤维素酶EG1激发功能关键位点及其互作蛋白功能研究[D].泰安:山东农业大学,2022.
GUO X N.Study on the key sites of cellulase EG1 elicitor function in Rhizoctonia solani and the function of its interacting protein[D].Taian:Shandong Agricultural University,2022.
[30]夏善勇,牛志敏,李庆全,等.马铃薯黑痣病立枯丝核菌及其综合防控研究进展[J].江苏农业科学,2022,50(12):28⁃34.
XIA S Y,NIU Z M,LI Q Q,et al.Research progress on Rhizoctonia solani and its integrated control of potato black spot disease[J].Jiangsu Agricultural Sciences,2022,50(12):28⁃34.
[31]孙爱丽.侵染立枯丝核菌AG-3与AG-4部分病毒的分子特性及功能研究[D].昆明:云南农业大学,2023.
SUN A L.Study on molecular characterization and function of partial viruses infecting AG⁃3 and AG⁃4 in Rhizoctonia solani[D].Kunming:Yunnan Agricultural University,2023.
[32]高梦义.玉米纹枯病菌(Rhizoctonia solani)多糖单加氧酶RsPM0159酶学特性及其功能初步分析[D].泰安:山东农业大学,2023.
GAO M Y.Preliminary analysis of enzymatic characteristics and functions of polysaccharide monooxygenase RsPM0159 from Rhizoctonia solani[D].Taian:Shandong Agricultural University,2023.
[33]张正禹,董文汉,包文静,等.立枯丝核菌AG-1IA对水稻致病力及粗毒素活性的测定方法研究[J].植物病理学报,2017,47(1):82⁃91.
ZHANG Z Y,DONG W H,BAO W J,et al.Assessment of methods to pathogenicity of Rhizoctonia solani AG⁃1 IA and bioactivity of the crude toxin on rice[J].Acta Phytopathologica Sinica,2017,47(1):82⁃91.
[34]唐滔.利用SIGS技术进行立枯丝核菌致病基因功能与病害防控研究[D].扬州:扬州大学,2022.
TANG T.Research on the function of pathogenic genes and disease control of Rhizoctonia solani using SIGS technology[D].Yangzhou:Yangzhou University,2022.
[35]邓路长,崔丽娜,杨麟,等.玉米苯丙氨酸解氨酶家族基因的鉴定与纹枯病的抗病分析[J].分子植物育种,2019,17(3):891⁃897.
DENG L C,CUI L N,YANG L,et al.Identification of gene family of phenylalanine ammonia⁃lyase and analysis of resistance to maize sheath blight in corn[J].Molecular Plant Breeding,2019,17(3):891⁃897.
[36]曾兴.144份玉米自交系纹枯病抗性相关性状的关联分析[D].雅安:四川农业大学,2011.
ZENG X.Association analysis of resistance trait of banded leaf and sheath blight in 144 maize inbred lines[D].Yaan:Sichuan Agricultural University,2011.
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