详细信息
多鳞[鱼喜](Sillago sihama)高密度遗传连锁图谱构建及生长性状QTL定位分析 被引量:1
CONSTRUCTION OF A HIGH-DENSITY GENETIC LINKAGE MAP AND QTL DETECTION OF GROWTH TRAITS OF SILVER SILLAGO(SILLAGO SIHAMA)
文献类型:期刊文献
中文题名:多鳞[鱼喜](Sillago sihama)高密度遗传连锁图谱构建及生长性状QTL定位分析
英文题名:CONSTRUCTION OF A HIGH-DENSITY GENETIC LINKAGE MAP AND QTL DETECTION OF GROWTH TRAITS OF SILVER SILLAGO(SILLAGO SIHAMA)
作者:田昌绪[1,2];朱奕安[1];钟键[3];林星桦[1];叶明慧[1];黄洋[1,2];张玉蕾[1];朱春华[1,2];李广丽[1,2]
机构:[1]广东海洋大学水产学院、广东省名特优鱼类生殖调控与繁育工程技术研究中心、广东省水产动物病害防控与健康养殖重点实验室,广东湛江524088;[2]南方海洋科学与工程广东省实验室(湛江),广东湛江524088;[3]湛江海关技术中心,广东湛江524022
年份:2023
卷号:54
期号:1
起止页码:194
中文期刊名:海洋与湖沼
外文期刊名:Oceanologia Et Limnologia Sinica
收录:CSTPCD、、Scopus、CSCD2023_2024、北大核心、CSCD、北大核心2020
基金:广东省基础与应用基础研究基金,2021A1515010733号,2019A1515110619号;广东海洋大学创新强校工程项目,2019KTSCX060号;广东海洋大学科研启动经费资助项目,R19026号;2021年广东省科技创新专项资金,SDZX2021041号;广东省南美白对虾现代种业产业园项目,K22221号;广东大学生科技创新培育专项资金资助项目,pdjh2022b0239号;2022年国家级大学生创新创业训练计划项目,202210566003号;海关总署2021年科技项目,2021HK205号。
语种:中文
中文关键词:多鳞[鱼喜];基因分型测序(GBS);数量性状位点(QTL);生长相关性状;候选基因
外文关键词:Sillago sihama;genotyping-by-sequencing(GBS);quantitative trait loci(QTL);growth-related traits;candidate genes
中文摘要:为构建多鳞[鱼喜](Sillago sihama)遗传连锁图谱并鉴定生长等重要经济性状数量性状位点(QTL),实验通过基因分型测序(GBS)技术对163个多鳞[鱼喜]个体(2个亲本和161个全同胞家系F1代)进行测序及标记分型,并通过复合区间定位法对该物种的体重、体高、体厚、眼径、体长和背鳍前长6个生长性状进行QTL定位分析。结果显示,多鳞[鱼喜]首张高密度遗传连锁图谱全长2 154.803 c M,标记间平均遗传距离0.455 c M,共有4 735个SNP标记分配到24个连锁群。QTL定位分析结果发现在6个生长性状中共检测到20个生长显著相关QTL位点,分布在8个连锁群上,单个QTL的LOD值范围为3.02~4.23,可解释的表型变异范围为0.14%~8.42%。其中,在连锁群LG08聚集了8个生长性状显著相关的QTL。通过对候选QTL区间内的基因进行功能注释,共筛选到了19个潜在生长调控相关基因,包含igf1、igf2、sstr5、sst1a、tgfbr2、gas1、igfals、gfg6、gfg20、bmp7、kdm5c、tti1以及rbm10等。实验获得的遗传标记及相关候选基因是多鳞[鱼喜]生长相关性状标记辅助选择(MAS)的有用基因资源,为进一步研究鱼类生长调控机制提供了更多的理论依据。
外文摘要:Construction of high-density genetic map and quantitative trait loci(QTL) mapping are powerful tools for identifying genetic markers and candidate genes that may be responsible for such polygenic trait as growth. The first SNP-based high-density genetic linkage map was constructed by sequencing 163 silver sillago(Sillago sihama) individuals(2 parents and 161 F1 offspring) according to a genotyping-by-sequencing(GBS) method. The consensus map spanned 2 154.803 cM, on average marker interval of 0.455 cM. In total, 4 735 SNPs were assigned to 24 linkage groups(LGs).Then, the QTL of 6 growth related traits was mapped via composite interval mapping(CIM), including body weight, body length, body thickness, body height, pre-dorsal length, and eye diameter. Twenty significant QTLs were identified on 8LGs and explained 0.14%~8.42% of the phenotypic variance. The logarithm of odds(LOD) value ranged from 3.02 to 4.23.Specially, 8 QTLs were distributed on one linkage group(LG08), and the regions showed overlapping on LG08. Through the functional annotation of the genes in the candidate QTL interval, 19 potential growth-related genes were screened,including igf1, igf2, sstr5, sst1a, tgfbr2, gas1, igfals, gfg6, gfg20, bmp7, kdm5c, tti1, and rbm10. These genetic markers and candidate genes are useful genomic resources for marker-assisted selection(MAS) in silver sillago and the QTLs are useful tools for growth mechanism analysis of this fish.
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