为了能给白斑狗鱼耐高温性状的改良提供有效的分子标记,本研究基于白斑狗鱼热敏感组(109尾)和耐高温组(103尾)进行简化基因组测序,对25个染色体中的InDel标记,以前两个PCA为协变量,利用MLM模型(Masked Language Mode)与白斑狗鱼的耐热...为了能给白斑狗鱼耐高温性状的改良提供有效的分子标记,本研究基于白斑狗鱼热敏感组(109尾)和耐高温组(103尾)进行简化基因组测序,对25个染色体中的InDel标记,以前两个PCA为协变量,利用MLM模型(Masked Language Mode)与白斑狗鱼的耐热性状进行了关联分析。结果显示,大部分InDel分布在内含子(63.69%),外显子分布的InDel位点较少(1.30%)。通过GWAS分析,发现5个位点与白斑狗鱼耐热性状显著关联,分别位于safb基因、未知基因LOC117593903和CLSTN2基因内含子中。其中9N del、4N del-1和4N del-2三个InDel位点均位于CLSTN2基因第3内含子,这3个位点在212尾个体中基因型分布高度连锁。本研究中发现的5个InDel突变可能会对白斑狗鱼的耐热性状产生显著的影响,可作为白斑狗鱼耐热性状改良的候选分子标记。进一步在验证群体中利用KASP技术对部分位点进行了验证。发现9N del位点DD基因型个体在热敏感组中占优势,DI基因型个体在耐高温组中占优势,与简化基因组测序结果基本一致。位于CLSTN2基因第2内含子的3个InDel位点可能影响CLSTN2基因的转录,该基因可能是白斑狗鱼耐高温性状相关的重要候选基因。研究结果为白斑狗鱼分子标记辅助育种提供了理论依据,为白斑狗鱼耐热性状的改良提供了候选分子标记。展开更多
为探讨角蛋白关联蛋白6.2(keratin-associated protein 6.2,KAP6.2)基因遗传多态性与内蒙古绒山羊生长性状和绒细度性状的相关性,以期为内蒙古绒山羊遗传育种改良提供理论依据,本研究采集598只雌性内蒙古绒山羊耳组织,提取基因组DNA并进...为探讨角蛋白关联蛋白6.2(keratin-associated protein 6.2,KAP6.2)基因遗传多态性与内蒙古绒山羊生长性状和绒细度性状的相关性,以期为内蒙古绒山羊遗传育种改良提供理论依据,本研究采集598只雌性内蒙古绒山羊耳组织,提取基因组DNA并进行PCR扩增,检测KAP6.2基因的插入/缺失(Insertion/Deletion,InDel)突变,分析突变位点与生长性状和绒细度性状的相关性。结果显示,在育成羊中,该突变位点与胸围和十字部显著相关(P<0.05),与体长、胸宽和胸深极显著相关(P<0.01);在成年羊中,该突变位点与胸宽显著相关(P<0.05),与胸围、十字部高和胸深极显著相关(P<0.01);在育成羊和成年羊全部群体中,该突变位点与体长、胸围、十字部高、胸深和胸宽极显著相关(P<0.01),与绒细度显著相关(P<0.05)。上述结果提示,KAP6.2基因外显子区24 bp InDel突变位点与内蒙古绒山羊部分生长性状显著或极显著相关,与绒细度显著相关,可作为内蒙古绒山羊部分生长性状和绒细度性状选育的遗传标记,为内蒙古绒山羊的选育提供科学依据。展开更多
为了挖掘与萝卜表型性状显著相关的分子标记,对60份萝卜的14个表型数据进行鉴定,筛选出具有多态性的分子标记29个(其中12个SNP标记和17个InDel标记)进行遗传多样性分析,并利用TASSEL5.0软件的广义线性模型(general linear mode, GLM)对...为了挖掘与萝卜表型性状显著相关的分子标记,对60份萝卜的14个表型数据进行鉴定,筛选出具有多态性的分子标记29个(其中12个SNP标记和17个InDel标记)进行遗传多样性分析,并利用TASSEL5.0软件的广义线性模型(general linear mode, GLM)对萝卜的14个表型数据进行关联分析。研究结果表明,29个分子标记的等位基因(Na)数范围在2~3个,平均为2.14个;主等位基因频率(MAF)为0.53~0.94个,平均为0.68个;每个标记的期望杂合度(He)范围为0.12~0.93,平均为0.63。每个位点的多态性信息含量(PIC)值范围在0.11~0.37,平均为0.32;在12个表型性状中关联到17个显著相关的分子标记位点(其中7个SNP标记和10个InDel标记)(P≤0.01),贡献率在7.24%~23.25%。展开更多
Cotton fiber is one of the main raw materials for the textile industry.In recent years,many cotton fiber quality QTL have been identified,but few were applied in breeding.In this study,a genome wide association study(...Cotton fiber is one of the main raw materials for the textile industry.In recent years,many cotton fiber quality QTL have been identified,but few were applied in breeding.In this study,a genome wide association study(GWAS)of fiber-quality traits in 265 upland cotton breeding intermediate lines(GhBreeding),combined with genome-wide selective sweep analysis(GSSA)and genomic selection(GS),revealed 25 QTL.Most of these QTL were ignored by only using GWAS.The CRISPR/Cas9 mutants of GhMYB_D13 had shorter fiber,which indicates the credibility of QTL to a certain extent.Then these QTL were verified in other cotton natural populations,5 stable QTL were found having broad potential for application in breeding.Additionally,among these 5 stable QTL,superior genotypes of 4 showed an enrichment in most improved new varieties widely cultivated currently.These findings provide insights for how to identify more QTL through combined multiple genomic analysis to apply in breeding.展开更多
文摘为探讨角蛋白关联蛋白6.2(keratin-associated protein 6.2,KAP6.2)基因遗传多态性与内蒙古绒山羊生长性状和绒细度性状的相关性,以期为内蒙古绒山羊遗传育种改良提供理论依据,本研究采集598只雌性内蒙古绒山羊耳组织,提取基因组DNA并进行PCR扩增,检测KAP6.2基因的插入/缺失(Insertion/Deletion,InDel)突变,分析突变位点与生长性状和绒细度性状的相关性。结果显示,在育成羊中,该突变位点与胸围和十字部显著相关(P<0.05),与体长、胸宽和胸深极显著相关(P<0.01);在成年羊中,该突变位点与胸宽显著相关(P<0.05),与胸围、十字部高和胸深极显著相关(P<0.01);在育成羊和成年羊全部群体中,该突变位点与体长、胸围、十字部高、胸深和胸宽极显著相关(P<0.01),与绒细度显著相关(P<0.05)。上述结果提示,KAP6.2基因外显子区24 bp InDel突变位点与内蒙古绒山羊部分生长性状显著或极显著相关,与绒细度显著相关,可作为内蒙古绒山羊部分生长性状和绒细度性状选育的遗传标记,为内蒙古绒山羊的选育提供科学依据。
文摘为了挖掘与萝卜表型性状显著相关的分子标记,对60份萝卜的14个表型数据进行鉴定,筛选出具有多态性的分子标记29个(其中12个SNP标记和17个InDel标记)进行遗传多样性分析,并利用TASSEL5.0软件的广义线性模型(general linear mode, GLM)对萝卜的14个表型数据进行关联分析。研究结果表明,29个分子标记的等位基因(Na)数范围在2~3个,平均为2.14个;主等位基因频率(MAF)为0.53~0.94个,平均为0.68个;每个标记的期望杂合度(He)范围为0.12~0.93,平均为0.63。每个位点的多态性信息含量(PIC)值范围在0.11~0.37,平均为0.32;在12个表型性状中关联到17个显著相关的分子标记位点(其中7个SNP标记和10个InDel标记)(P≤0.01),贡献率在7.24%~23.25%。
基金supported by National Key Research and Development Program of China(2022YFF1001400)the National Natural Science Foundation of China(31830062 and 32172071)+1 种基金Innovation and Application of Superior Crop Germplasm Resources of Shihezi(2021NY01)Breeding of New Cotton Varieties and Application of Transgenic Breeding Technology(2022NY01)。
文摘Cotton fiber is one of the main raw materials for the textile industry.In recent years,many cotton fiber quality QTL have been identified,but few were applied in breeding.In this study,a genome wide association study(GWAS)of fiber-quality traits in 265 upland cotton breeding intermediate lines(GhBreeding),combined with genome-wide selective sweep analysis(GSSA)and genomic selection(GS),revealed 25 QTL.Most of these QTL were ignored by only using GWAS.The CRISPR/Cas9 mutants of GhMYB_D13 had shorter fiber,which indicates the credibility of QTL to a certain extent.Then these QTL were verified in other cotton natural populations,5 stable QTL were found having broad potential for application in breeding.Additionally,among these 5 stable QTL,superior genotypes of 4 showed an enrichment in most improved new varieties widely cultivated currently.These findings provide insights for how to identify more QTL through combined multiple genomic analysis to apply in breeding.