机构地区:[1]青海大学,西宁810016 [2]青海省畜牧兽医科学院草原研究所,西宁810016 [3]清华大学深圳研究生院生命与健康科学学部,深圳518055 [4]香港理工大学应用生物学和化学科学系,香港999077
出 处:《菌物研究》2016年第2期96-112,共17页Journal of Fungal Research
基 金:国家科技支撑计划课题(2011BAI05B03);"十二五"农村领域国家科技计划课题(2013BAD16B012);青海省科技促进新农村项目(2011-N-513)
摘 要:摘要:应用真菌特异性引物PCR测序、克隆测序和SNP质谱基因分型法,鉴定2株蝙蝠蛾幼虫活体肠道的真菌分离株(CHl和CH2)中的多种菌物。应用这2株分离株与中国被毛孢分生孢子联合侵染蝙蝠蛾幼虫,观察其协同侵染活性。结果表明这2株分离株呈现中国被毛孢的体外培养生长和显微形态特征。通用引物ITS4/5和蝙蝠蛾拟青霉特异性引物Pp4/5扩增子测序检出蝙蝠蛾拟青霉和中国被毛孢ITS序列。扩增子克隆一测序和SNP基因分型法证实多种转换和颠换点突变基因型在2株分离株中共存。反复固体、液体培养证实蝙蝠蛾拟青霉和中国被毛孢ITS序列共存,并非真菌间DNA片段漂移。应用子囊孢子或中国被毛孢侵染4~5龄蝙蝠蛾幼虫,幼虫染菌率为1.37%~3.52%,幼虫变僵时间为35~50d。应用2株分离株与中国被毛孢分生孢子联合侵染,幼虫变僵时间为5—8d,染菌率达55.2%(P〈0.001),侵染效能提高15~39倍。蝙蝠蛾拟青霉和多种点突变基因型冬虫夏草菌(包括中国被毛孢)在蝙蝠蛾幼虫肠道以天然真菌复合体形式共存;多种菌物组成的侵染源联合侵染蝙蝠蛾幼虫大幅度提高侵染效能,呈现多菌协同侵染的共生关系。In order to identify 2 wild-type fungal isolates, CH1 and CH2, from the intestines of liv- ing larvae of Hepialus lagii Yah, and to examine the inoculation synergy of multiple fungal sources on H. armoricanus larvae. The two wild-type fungal isolates were examined through PCR using fun- gus-specific primers for Paecilomyces hepiali and mutant genotypes of Ophiocordyceps sinensis, mo- lecular cloning and sequencing, and Single Nucleotide Polymorphism (SNP) mass spectrometry genotyping techniques. Inoculated H. armoricanus larvae of 4- 5 instars with combined fungal sources to explore the inoculation synergy. Both CH1 and CH2 isolates featured with the in vitro culture-growth and morphologic characteristics of Hirsutella sinensis, but contained both ITS se- quences of P. hepiali and H. sinensis. Amplicon cloning-sequencing and SNP genotyping demon- strated coexistence of several genotypes of O. sinensis with multiple transition and transversion point mutations in these 2 wild-type isolates. Repeated alternative solid-/liquid-phase cultures revealed co-existence of living P. hepiali and H. sinensis, rather than genetic drifts among fungi. The phe- nomenon of the fungal (species) complex was further confirmed through examining several pure H. sinensis strains. Inoculating larvae of H. armoricanus with the ascospores of natural Cordyceps sinen- sis or the conidia or mycelia of H. sinensis resulted in infection rates of 1.37%-3.52% and the lar- val death latency of 35-50 days. The combined use of CH1, CH2 and the conidia of H. sinensis as the inoculation source significantly increased the infection rate to 55.2% (15-to 39-fold increases in inoculation potency, P〈0. 001 ) and largely shortened the larval death latency to 5-8 days. P. hepiali and several mutants of O. sinensis (including H. sinensis) co-exist as a natural symbiotic fungal (species) complex in the intestines of H. lagii larvae, and are difficult to be purified during fungal purification processes. The combined use of the natural fung
关 键 词:天然冬虫夏草 蝙蝠蛾拟青霉 转换点突变和颠换点突变基因型冬虫夏草菌 中国被毛孢 多菌联合侵染
分 类 号:S567.35[农业科学—中草药栽培]
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