摘要
明确烟草野火病菌多位点序列分型(MLST)情况,能为制订有效防治措施和选育品种提供强力技术支撑,并为病菌的生物学特性研究提供新视角。从湖南、重庆等5个产烟省(市)烟草生产区采集烟草野火病样,组织分离并鉴定,应用MLST分型,筛选管家基因,分析供试菌株遗传多样性。结果表明,从湖南等5个产烟省(市)分离获得烟草野火病菌144株,筛选得到Pgi、Pfk和Gap 3个管家基因,共获得92个ST型。以Pgi基因为标准,供试菌株可分出亚群5个,单一群4个,亚群1和亚群2菌株数量较多,亚群1菌株来自5个产烟省(市),此亚群的ST43属于中国主要种群。说明中国烟草野火病菌遗传多态性丰富,烟草品种与病菌组群间不存在关联性。
The objectives of this study were to clarify the multi locus sequence typing(MLST)of tobacco wildfire pathogen,and provide strong technical support for formulating effective control measures and breeding varieties,and a new perspective for biological characteristics study of the pathogen.Wildfire disease samples were collected from five tobacco production areas in Hunan,Chongqing and other provinces(Municipalities).And then tissue isolation and identification were carried out.MLST typing was applied to screen housekeeping gene,and the genetic diversity of the tested strains was analyzed.The results showed that 144 strains of tobacco wildfire pathogen were isolated from five tobacco producing provinces(Municipalities).Three housekeeping gene,Pgi,Pfk,and Gap were screened,and a total of 92 ST genotypes were obtained.Using the Pgi gene as the standard,the tested strains could be divided into 5 subgroups,4 single groups,with a large number of subgroup 1 and subgroup 2 strains.The subgroup 1 strains came from 5 tobacco producing provinces(Municipalities),and ST43 of this subgroup belonged to the main population in China.It indicated that the genetic polymorphism of tobacco wildfire pathogens in China was rich,and there was no correlation between tobacco varieties and pathogen groups.
作者
林凡力
彭建斐
邓泽征
郭璐璐
姚廷山
马皓月
马冠华
LIN Fanli;PENG Jianfei;DENG Zezheng;GUO Lulu;YAO Tingshan;MA Haoyue;MA Guanhua(College of Plant Protection,Southwest University,Chongqing 400716;Huaihua Tobacco Company of Hunan Tobacco Corporation,Huaihua,Hunan 418000)
出处
《中国农学通报》
2024年第9期139-144,共6页
Chinese Agricultural Science Bulletin
基金
中国烟草总公司湖南省公司怀化市科技项目(JSCX-2021-03)。
关键词
烟草野火病
丁香假单胞杆菌烟草致病变种
遗传多样性
多位点序列分型
亚群
tobacco wildfire disease
clove pseudomonas tobacco pathogenic variant
genetic diversity
multi locus sequence typing
subgroup
