[1]杨欢欢,邓丽廷,冯春颖,等.番茄抗颈腐根腐病基因Frl的定位分析[J].北方园艺,2024,(2):1-7.[doi:10.11937/bfyy.20232390]
　YANG Huanhuan,DENG Liting,FENG Chunying,et al.Mapping Analysis of Tomato Fusarium Crown and Root Rot Resistance Gene Frl[J].Northern Horticulture,2024,(2):1-7.[doi:10.11937/bfyy.20232390]

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番茄抗颈腐根腐病基因Frl的定位分析

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 期数: 2024年2 页码: 1-7 栏目: 出版日期: 2024-01-31

Title:: Mapping Analysis of Tomato Fusarium Crown and Root Rot Resistance Gene Frl

文章编号:: 1001-0009(2024)02-0001-07

作者:: 杨欢欢; 邓丽廷; 冯春颖; 王钰涵; 杨蓁茹; 姜景彬; （东北农业大学园艺园林学院，黑龙江哈尔滨 150030）

Author(s):: YANG Huanhuan; DENG Liting; FENG Chunying; WANG Yuhan; YANG Zhenru; JIANG Jingbin; (School of Horticulture and Landscape Architecture，Northeast Agricultural University，Harbin，Heilongjiang 150030)

关键词:: 番茄; 颈腐根腐病; Frl 基因; 定位

Keywords:: tomato; fusarium crown and root rot; Frl gene; mapping

分类号:: S 436.412.1

DOI:: 10.11937/bfyy.20232390

文献标志码:: A

摘要:: 以含有番茄颈腐根腐病抗病基因Frl的番茄材料19912与感病材料Moneymaker构建F2群体，采用父母本的重测序技术结合BSA的关联分析方法,进一步对番茄颈腐根腐病抗病基因Frl候选区间关联分析，以期筛选得到抗性基因的候选区间。结果表明：通过对父母本的重测序及BSA混池关联分析，将Frl基因定位于1号染色体的2.63~81.19 Mb区间；利用SNP分型技术，结合BSA的测序结果，将区间缩小至17.4~23.5 Mb。该研究不仅可以为抗病基因的克隆及应用提供参考依据，还将为解析番茄颈腐根腐病抗性机制奠定基础。

Abstract:: F2 population was constructed using tomato material 19912 containing the resistance gene Frl to tomato neck rot root rot and susceptible material Moneymaker.The association analysis method of BSA was used to further analyze the candidate intervals of the resistance gene Frl in tomato fusarium crown and root rot，with the aim of screening candidate intervals for resistance genes.The results showed that by resequencing the father and mother parents and analyzing the mixed pool association of BSA，the Frl gene was located in the 2.63-81.19 Mb interval of chromosome 1.By using SNP typing technology and combining with the sequencing results of BSA，the interval was reduced to 17.4-23.5 Mb.This study will not only provide a basis for the cloning and application of disease resistance genes，but also lay a foundation for analyzing the resistance mechanism of tomato neck rot root rot disease.

参考文献/References:

［1］许向阳,赵爽,何梦曦,等.128份番茄种质资源主要农艺性状鉴定及抗病性评价［J］.东北农业大学学报,2022,53(5):32-41.［2］程琳,张生,李艳青,等.番茄颈腐根腐病病原菌鉴定与抗病种质材料的筛选［J］.园艺学报,2016,43(4):781-788.［3］KIM J T,PARK I H,HAHM Y D,et al.Crown and root rot of greenhouse tomato caused by Fusarium oxysporum f.sp.radicis-lycopersici in Korea［J］.Plant Pathology Journal,2001(5):290-294.［4］李景富,孙亚莉,赵婷婷,等.番茄颈腐根腐病菌分离鉴定与生物学特性研究［J］.东北农业大学学报,2018,49(2):22-30.［5］VAKALOUNAKIS D J.The genetic analysis of resistance to Fusarium crown and root rot of tomato［J］.Plant Pathology,1988,37(1):71-73.［6］LATERROT H,MORETTI A.Allelism of various FORL resistance sources［J］.Rep Tomato Genet Coop,1991,41:28-30.［7］LATERROT H,MORETTI A.Confirmation of linkage Tm-22-ah-Frl［J］.Rep Tomato Genet Coop,1995,45:29.［8］刘蕾,王辉,李文丽,等.与番茄颈腐根腐病抗病基因Frl连锁的标记及应用［J］.江苏农业科学,2018,46(16):91-93.［9］BERRY S Z,OAKES G L.Inheritance of resistance to Fusarium crown and root rot in tomato［J］.HortScience,1987,22(1):110-111.［10］VAKALOUNAKIS D J,LATERROT H,MORETTI A,et al.Linkage between Frl (Fusarium oxysporum f.sp.radicis-lycopersici resistance) and Tm-2(tobacco mosaic virus resistance-2)loci in tomato (Lycopersicon esculentum)［J］.Annals of Applied Biology,1997,130(2):319-323.［11］ELKIND Y,KEDAR N,KATAN Y,et al.Linkage between Tm-2 and Fusarium oxysporum f.sp.Radicislycopersici resistance (FORL)［J］.Rep Tomato Genet Coop,1988,38:22.［12］LATERROT H,COUTEAUDIER Y.Linkage between TMV and FORL resistance［J］.Rep Tomato Genet Coop,1989,39:21.［13］YOUNG N D,ZAMIR D,GANAL M W,et al.Use of isogenic lines and simultaneous probing to identify DNA markers tightly linked to the Tm-2a gene in tomato［J］.Genetics,1988,120(2):579-585.［14］YOUNG N D,TANKSLEY S D.RFLP analysis of the size of chromosomal segments retained around the Tm-2 locus of tomato during backcross breeding［J］.Theor Appl Genet,1989,77(3):353-359.［15］FRARY A,PRESTING G,TANKSLEY S D.Molecular mapping of the centromeres of tomato chromosomes 7 and 9［J］.Mol Gen Genet,1996,250(3):295-304.［16］FAZIO G,STEVENS M R,SCOTT J W.Identification of RAPD markers linked to fusarium crown and root rot resistance (Frl) in tomato［J］.Euphytica,1999,105(3):205-210.［17］DEVRAN Z,KAHVECI E,HONG Y,et al.Identifying molecular markers suitable for Frl selection in tomato breeding［J］.Theoretical and Applied Genetics,2018,131(10):2099-2105. ［18］MURRAY M G,THOMPSON W F.Rapid isolation of high molecular weight plant DNA［J］.Nucleic Acids Research,1980,8(19):4321-4326.［19］CHEN Y S.Amapreduce acceleration-supported software for integrated quality control and preprocessing of high-throughput sequencing data［J］.Giga Science,2018(7):1-6.［20］LI H.Aligning sequence reads,clone sequences and assembly contigs with BWA-MEM［EB/OL］.(2013-05-26)［2023-06-02］.https://arxiv.org/abs/1303.3997.［21］LI H,HANDSAKER B,WYSOKER A.The sequence alignment/map format and samtools［J］.Bioinformatics,2009(25):2078-2079.［22］MCKENNA A,HANNA M,BANKS E.The genome analysis toolkit:A mapreduce framework for analyzing next-generation DNA sequencing data［J］.Genome Research，2010,20(9):1297-1303.［23］BERARDINI T Z,MUNDODI S,REISER L,et al.Functional annotation of the Arabidopsis genome using controlled vocabularies［J］.Plant Physiology,2004,135:745-755.［24］LAM E,KATO N,LAWTON M.Programmed cell death，mitochondria and the plant hypersensitive response［J］.Nature,2001,411(6839):848-853.［25］吕锐玲,陈实,王杰,等.基于ISSR标记的我国羊肚菌栽培品种遗传多样性分析［J］.北方园艺,2023(8):107-114.［26］周超,马银鹏,包旭翔,等.DNA分子标记技术在黑木耳中的研究进展［J］.北方园艺,2023(7):125-131.

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备注/Memo

第一作者简介：杨欢欢(1988-)，女，博士，副教授，博士生导师，现主要从事番茄遗传育种等研究工作。E-mail:huanyaya0126@sina.com.责任作者：姜景彬(1978-)，男，博士，高级农艺师，硕士生导师，现主要从事番茄育种等研究工作。E-mail:jjb1248@126.com.基金项目：国家自然科学基金资助项目（32002059）；黑龙江省自然科学基金资助项目（LH2019C037）。收稿日期：2023-07-16

更新日期/Last Update: 2024-02-08