[1] Hayward AC.Biology and epidemiology of bacterial wilt caused by pseudomonas solanacearum[J]. Annual Review of Phytopathology, 1991, 29:65-87. [2] Jiang G, Wei Z, Xu J, et al.Bacterial wilt in china:History, current status, and future perspectives[J]. Frontiers in Plant Science, 2017, 8:1549. [3] Swanson MM, Fraser G, Daniell TJ, et al.Viruses in soils:Morphological diversity and abundance in the rhizosphere[J]. Annals of Applied Biology, 2009, 155(1):51-60. [4] Yamada T, Satoh S, Ishikawa H, et al.A jumbo phage infecting the phytopathogen ralstonia solanacearum defines a new lineage of the myoviridae family[J]. Virology, 2010, 398(1):135-147. [5] Fujiwara A, Kawasaki T, Usami S, et al.Genomic characterization of ralstonia solanacearum phage phi rsa1 and its related prophage(phi rsx)in strain gmi1000[J]. J Bacteriol, 2008, 190(1):143-156. [6] Kawasaki T, Shimizu M, Satsuma H, et al.Genomic characterization of ralstonia solanacearum phage phi rsb1, a t7-like wide-host-range phage[J]. Journal of Bacteriology, 2009, 191(1):422-427. [7] Kawasaki T, Nagata S, Fujiwara A, et al.Genomic characterization of the filamentous integrative bacteriophages ΦRSS1 and ΦRSM1, which infect Ralstonia solanacearum[J]. Journal of Bacteriology, 2007, 189(16):5792-5802. [8] Fujiwara A, Fujisawa M, Hamasaki R, et al.Biocontrol of Ralstonia solanacearum by treatment with lytic bacteriophages[J]. Applied and Environmental Microbiology, 2011, 77(12):4155-4162. [9] Abedon ST.Phage therapy:Eco-physiological pharmacology[J]. Scientifica(Cairo), 2014, 2014:581639. [10] Jones JB, Jackson LE, Balogh B, et al.Bacteriophages for plant disease control[J]. Annu Rev Phytopathol, 2007, 45:245-262. [11] Levin BR, Bull JJ.Population and evolutionary dynamics of phage therapy[J]. Nat Rev Microbiol, 2004, 2(2):166-173. [12] 韦中. 生物有机肥防控土传番茄青枯病的效果及其机制研究[D]. 南京:南京农业大学, 2012. Wei Z.Effects and mechanisms of bio-organic fertilizers on suppression of bacterial wilt of tomato[D]. Nanjing:Nanjing Agricultural University, 2012. [13] Wei Z, Yang XM, Yin SX, et al.Efficacy of bacillus-fortified organic fertiliser in controlling bacterial wilt of tomato in the field[J]. Applied Soil Ecology, 2011, 48(2):152-159. [14] Chen Y, Yan F, Chai YR, et al.Biocontrol of tomato wilt disease by bacillus subtilis isolates from natural environments depends on conserved genes mediating biofilm formation[J]. Environmental Microbiology, 2013, 15(3):848-864. [15] Elphinstone JG, Hennessy J, Wilson JK, et al.Sensitivity of different methods for the detection of Ralstonia solanacearum in potato tuber extracts[J]. EPPO Bulletin, 1996, 26(3-4):663-678. [16] Kawasaki T, Narulita E, Matsunami M, et al.Genomic diversity of large-plaque-forming podoviruses infecting the phytopathogen Ralstonia solanacearum[J]. Virology, 2016, 492:73-81. [17] Bernheim A, Sorek R.The pan-immune system of bacteria:Antiviral defence as a community resource[J]. Nature Reviews Microbiology, 2020, 18(2):113-119. [18] Jacobssera D, Marinelli LJ, Bowman CA, et al.On the nature of mycobacteriophage diversity and host preference[J]. Virology, 2012, 434(2):187-201. [19] Kimura M, Jia ZJ, Nakayama N, et al.Ecology of viruses in soils:Past, present and future perspectives[J]. Soil Science and Plant Nutrition, 2008, 54(1):1-32. [20] 丛聪, 袁玉玉, 渠坤丽, 等. 关于噬菌体实用保藏方法的研究进展[J]. 中国抗生素杂志, 2017, 42(9):742-748. Cong C, Yuan YY, Qu KL, et al.Research progress on the methods of bacteriophages collection[J]. Chinese Journal of Antibiotics, 2017, 42(9):742-748. [21] Dini C, de Urraza PJ. Effect of buffer systems and disaccharides concentration on podoviridae coliphage stability during freeze drying and storage[J]. Cryobiology, 2013, 66(3):339-342. [22] Lee WJ, Billington C, Hudson J, et al.Isolation and characterization of phages infecting bacillus cereus[J]. Letters in Applied Microbiology, 2011, 52(5):456-464. [23] Wang W.Lyophilization and development of solid protein pharmaceuticals[J]. International Journal of Pharmaceutics, 2000, 203(1-2):1-60. |