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Dissection of QTLs for Yield Traits Using Near Isogenic Lines Derived from Residual Heterozygous Lines in Rice 被引量:1
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作者 Jing-hong DU Ye-yang FAN +1 位作者 Lei WANG Jie-yun ZHUANG 《Rice science》 SCIE 2008年第4期259-266,共8页
Three residual heterozygous lines (RHLs) carrying heterozygous segments in the intervals RM587–RM225, RM204–RM6119 and RM6119–RM402 on the short arm of rice chromosome 6, respectively, were selected from a rice pop... Three residual heterozygous lines (RHLs) carrying heterozygous segments in the intervals RM587–RM225, RM204–RM6119 and RM6119–RM402 on the short arm of rice chromosome 6, respectively, were selected from a rice population derived from an RHL for the interval RM587–RM402. Ten maternal homozygotes, 10 paternal homozygotes and 20 heterozygotes were selected from each of the F2 populations derived from the three RHLs. The three sets of near isogenic lines (NILs) were grown to detect the grain yield per plant, number of panicles per plant, number of filled grains per panicle and 1000-grain weight. With analysis on the phenotypic differences among the three genotype groups in each NIL set and those among overlapping chromosome segment substitution lines, three QTLs for number of filled grains per panicle and two QTLs for grain yield per plant were resolved. They were located in the intervals ranging from 0.66 Mb to 2.49 Mb. The additive effect was higher than the dominance effect at each locus. The allele for increasing the trait value was derived from the paternal parent at qNFGP6-1, and from the maternal alleles at other QTLs. Based on the present study, an approach for constructing new genetic resource to facilitate fine mapping of QTLs in rice was proposed. 展开更多
关键词 residual heterozygous line near isogenic line quantitative trait locus yield traits rice (Oryza sativa)
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Verification and fine-mapping of QTLs conferring days to flowering in soybean using residual heterozygous lines 被引量:6
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作者 SU ChengFu LU WeiGuo +1 位作者 ZHAO TuanJie GAI JunYi 《Chinese Science Bulletin》 SCIE EI CAS 2010年第6期499-508,共10页
The results of QTL mapping based on a primary mapping population should be further verified and refined for its real utilization in marker-assisted selection or map-based cloning.The primary mapping population contain... The results of QTL mapping based on a primary mapping population should be further verified and refined for its real utilization in marker-assisted selection or map-based cloning.The primary mapping population contains 114 BC1F1 plants of the backcross between Essex (maturity group V,MG V) as the donor parent and ZDD2315 (MG II) as the recurrent parent.In this study,a genetic linkage map with 250 SSR markers spanning a total length of 2963.5 cM on 25 linkage groups (LG) was constructed using software MAPMAKER3.0.Six kinds of genetic statistical models of 4 softwares,i.e.WinQTL Cartographer Version 2.5,IciMapping Version 2.0,MapQTL Version 5.0 and QTLnetwork Version 2.0,were used to map QTLs conferring days to flowering of the BC1F3 lines.Nine QTLs were mapped on 6 different linkage groups (LG).Of those,6 QTLs were detected by at least two different genetic statistical models,while the other three were detected by only one procedure.Among the three QTLs,Flwdt7 was mapped between Sat_213 and Satt643 on LG C2 with only 11.0% contribution rate.For confirmation of Flwdt7,5 RHL populations were developed through selfing eight BC1F5 plants heterozygous at seven markers around the locus.The RHL populations with the same segregating loci were bulked and used to construct a secondary linkage map of the specific segment using software JoinMap 3.0.The genetic distances among the markers on the specific segment became shorter than those of the whole genome map.On the secondary map,Flwdt7 was mapped between Satt277 and Satt489,next to its primary interval Sat_213-Satt643,with distance 1.40 cM to Satt277 and 0.45 cM to Satt489,confidence interval narrowed to 2.7 cM,and contribution rate increased to 36.8%.The results were confirmed with significance analysis among marker genotypes on individual loci and comparison analysis of target marker intervals among near isogenic lines (plants).Thus the strategy by using residual heterozygous lines for QTL fine-mapping on target segments based on primary whole genome scanning with multiple mapping models was demonstrated to be effective. 展开更多
关键词 大豆 回交线 rhl (剩余异质接合的线) SSR (简单顺序重复) 标记 flowering 日期 QTL 好印射
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利用剩余杂合株系定位油菜根系发育主效QTL位点RT.C08
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作者 黄林涛 沙爱华 +2 位作者 王新发 顿小玲 匡列琼 《中国油料作物学报》 CAS CSCD 北大核心 2023年第2期260-270,共11页
油菜根系发育主效QTL的发掘与利用,对明确油菜根系发育机制,从根系形态建成的角度为油菜高产育种提供指导具有重要意义。本研究前期通过对一个重组自交系(RIL)群体(中双11×4D122)的QTL扫描,获得了1个控制根系发育的主效QTL位点RT.C... 油菜根系发育主效QTL的发掘与利用,对明确油菜根系发育机制,从根系形态建成的角度为油菜高产育种提供指导具有重要意义。本研究前期通过对一个重组自交系(RIL)群体(中双11×4D122)的QTL扫描,获得了1个控制根系发育的主效QTL位点RT.C08,最高可解释14.1%的根总体积表型变异。在此基础上,利用SNP芯片分型数据挑选出7个覆盖整个区间的剩余杂合单株,并以其构建RHL-F_(2)和RHL-F_(3)分离群体用作定位群体。基于SNP芯片数据和亲本序列差异,本研究在RT.C08的初定位区间开发了10个竞争性等位基因特异性(KASP)标记用于定位群体的基因分型,结合表型和基因型分析,发现剩余杂合系R53、R107和R260分离获得的B基因型(4D122基因型)株系在地上生物量、根鲜重、总根长、根表面积和根体积上优于A基因型(中双11号基因型)株系,这与RT.C08位点增效基因来自4D122一致,其它剩余杂合系未出现这种差异。进一步利用R53和R107的交换株系R53-F_(3)-5和R107-F_(3)-8,最终将RT.C08区间锁定在KASP标记NC8-6和C8-24663之间,且仍有三个KASP标记NC8-7、C8-1和C8-24013与其共分离,该区间在甘蓝型油菜Darmor参考基因组的物理距离约2.24 Mb。利用亲本重测序数据和基因表达谱分析,在此区间内共筛选出66个候选基因,其中BnaC08g21500D(CYCLIN D3)等12个基因已被报道调控根、叶片和/或下胚轴的生长。本研究为油菜优异根系分子标记辅助选择育种和重要基因的克隆奠定了良好的基础。 展开更多
关键词 甘蓝型油菜 根系 剩余杂合系 QTL定位 KASP标记
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水稻第6染色体短臂产量性状QTL簇的分解 被引量:13
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作者 杜景红 樊叶杨 +1 位作者 吴季荣 庄杰云 《中国农业科学》 CAS CSCD 北大核心 2008年第4期939-945,共7页
【目的】将水稻第6染色体短臂上产量性状QTL分解到更小的区间中。【方法】从珍汕97B/密阳46重组自交系群体筛选到针对第6染色体短臂RM587-RM19784区间的剩余杂合体,衍生了一个由221个株系组成的F2:3群体,种植于海南和浙江两地,考察每株... 【目的】将水稻第6染色体短臂上产量性状QTL分解到更小的区间中。【方法】从珍汕97B/密阳46重组自交系群体筛选到针对第6染色体短臂RM587-RM19784区间的剩余杂合体,衍生了一个由221个株系组成的F2:3群体,种植于海南和浙江两地,考察每株穗数、每穗实粒数、每穗总粒数、千粒重、结实率和单株产量,建立SSR标记连锁图,应用Windows QTL Cartographer2.5检测QTL。【结果】在所分析的6个性状中,除穗数外在第6染色体短臂上的目标区间均检测到QTL,分别座落于目标区域中3个以上的不同区间中,单个QTL对群体性状表型变异的贡献率为6.3%~35.2%;控制产量构成因子的QTL基本以加性作用为主,但3个单株产量QTL的显性度分别为1.65、0.84和0.42。【结论】目标区间存在3个以上的产量性状QTL,且同一区间控制不同性状的QTL、不同区间控制同一个性状的QTL在遗传作用模式、效应方向和效应大小上存在一定差异。 展开更多
关键词 水稻(Oryza SATIVA L.) 产量性状 剩余杂合体(rhl) 数量性状座位(QTL) 第6染色体短臂
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一个控制水稻株高QTL qPH3的遗传分析 被引量:12
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作者 罗炬 邵高能 +5 位作者 魏祥进 陈明亮 唐绍清 焦桂爱 谢黎虹 胡培松 《中国水稻科学》 CAS CSCD 北大核心 2012年第4期417-422,共6页
利用D50/HB277衍生的重组自交系群体,对水稻株高进行QTL分析。在杭州和海南两种环境条件下,共检测到6个控制株高的加性效应QTL,分别位于第1、2、3、4、6和8染色体上,其中,位于第3染色体的QTL qPH3效应较大,在两种环境条件均能稳定表达... 利用D50/HB277衍生的重组自交系群体,对水稻株高进行QTL分析。在杭州和海南两种环境条件下,共检测到6个控制株高的加性效应QTL,分别位于第1、2、3、4、6和8染色体上,其中,位于第3染色体的QTL qPH3效应较大,在两种环境条件均能稳定表达且贡献率分别为16.52%和16.60%。进一步筛选获得1个剩余杂合体,对其衍生的RHL-F2群体进行遗传分析,其qPH3检测贡献率达76.13%。通过后代验证,最终将其锁定于标记RM16211和RM16237之间物理距离约204kb区域内。这将为该基因的精细定位及克隆奠定基础。 展开更多
关键词 水稻 重组自交系 株高 数量性状座位 剩余杂合体
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应用剩余杂合体衍生的近等基因系分解水稻产量性状QTL 被引量:15
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作者 杜景红 樊叶杨 +1 位作者 王磊 庄杰云 《中国水稻科学》 CAS CSCD 北大核心 2008年第1期1-7,共7页
以杂合区间为RM587-RM402的水稻剩余杂合体(RHL)衍生群体为材料,应用SSR标记检测,筛选刮杂合区间分别为RM587-RM225、RM204-RM6119和RM6119-RM402的3个单株,进一步检测其F2群体,分别获得母本纯合型材料10株、父本纯合型材料10株... 以杂合区间为RM587-RM402的水稻剩余杂合体(RHL)衍生群体为材料,应用SSR标记检测,筛选刮杂合区间分别为RM587-RM225、RM204-RM6119和RM6119-RM402的3个单株,进一步检测其F2群体,分别获得母本纯合型材料10株、父本纯合型材料10株和杂合型材料20株。种植这3套近等基因系材料,考查单株产量及其构成因子每株穗数、每穗实粒数和千粒重。经应用目标区间内等位基因效应分析和交迭重组染色体片段代换系分析,分解出3个控制每穗实粒数的QTL和2个控制单株产量的QTL,这些QTL分别位于物理距离为0.66~2.49Mb的区间中,全部表现为加性作用为主,增效等位基因除qNFGP6-1来自父本密阳46外.其余均来自母本珍汕97B。提出了构建新型遗传材料,提高水稻QTL精细定位效率的策略。 展开更多
关键词 剩余杂合体 近等基因系 数量性状座位 产量性状 水稻
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水稻第1染色体短臂粒长和粒宽QTL的精细定位 被引量:11
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作者 余守武 樊叶杨 +1 位作者 杨长登 李西明 《中国水稻科学》 CAS CSCD 北大核心 2008年第5期465-471,共7页
以第1染色体短臂RM1-RM3746和RM151-RM243区间内呈杂合、背景基本纯合的2个水稻剩余杂合体(RHL)衍生两个F6群体,将控制水稻粒长和粒宽的2个粒形QTL(qGL-1和qGW-1)定位于RM3746-RM243区间内。在此基础上,应用SSR标记检测,从其中1个群体... 以第1染色体短臂RM1-RM3746和RM151-RM243区间内呈杂合、背景基本纯合的2个水稻剩余杂合体(RHL)衍生两个F6群体,将控制水稻粒长和粒宽的2个粒形QTL(qGL-1和qGW-1)定位于RM3746-RM243区间内。在此基础上,应用SSR标记检测,从其中1个群体中筛选到杂合区间分别为RM151-RM10404、RM10398-RM5359、RM10435-RM259和RM10381-RM243的4个单株,应用SSR标记进一步检测4套F2群体,从每套F2群体中分别筛选到母本珍汕97B和父本密阳46纯合型材料各10株,自交获得4套近等基因系材料并考查其粒长和粒宽。利用交迭重组染色体片段代换系分析法,将控制粒长和粒宽的QTL(qGL-1和qGW-1)界定于437.5kb的RM10390-RM1344区间和392.9kb的RM10376-RM10398区间,增效等位基因均来自母本珍汕97B,表明qGL-1和qGW-1是紧密连锁的不同座位。 展开更多
关键词 粒形 剩余杂合体 近等基因系 数量性状座位 水稻 精细定位
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水稻色素原基因C的精细定位 被引量:9
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作者 范方军 樊叶杨 +1 位作者 杜景红 庄杰云 《中国水稻科学》 CAS CSCD 北大核心 2007年第5期454-458,共5页
应用籼稻组合珍汕97B/密阳46的衍生材料,针对水稻第6染色体短臂色素原基因C的可能位置,筛选到在C基因周围区间呈不同基因型组合的7个剩余杂合体,收获种子建立F2∶3群体。在各个植株上,稃尖颜色和叶鞘颜色的表现完全相同。通过各个群体... 应用籼稻组合珍汕97B/密阳46的衍生材料,针对水稻第6染色体短臂色素原基因C的可能位置,筛选到在C基因周围区间呈不同基因型组合的7个剩余杂合体,收获种子建立F2∶3群体。在各个植株上,稃尖颜色和叶鞘颜色的表现完全相同。通过各个群体颜色表现与原剩余杂合体基因型的比较,将C基因定位于微卫星标记RM314与RM253之间。在该基础上,应用两个分离群体共1279个样本,经标记检测和连锁分析,进一步将C基因定位于RM111和RM253之间,与RM111和RM253的遗传距离分别为0.7 cM和0.4 cM。最后,应用区间内的另外6个微卫星标记和1个源于C基因候选基因OsC1的标记,检测在RM111-C基因-RM253区间内发生了重组的22个个体,将C基因定位于一个大小为59.3 kb、涵盖C基因候选基因OsC1座位的区间中。 展开更多
关键词 色素原基因 精细定位 候选基因 剩余杂合体 水稻
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用分离群体中的残余杂合系定位大豆C1连锁群的分枝数qBN-c1-1位点 被引量:8
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作者 何冉 关荣霞 +3 位作者 刘章雄 朱晓丽 常汝镇 邱丽娟 《中国农业科学》 CAS CSCD 北大核心 2009年第4期1152-1157,共6页
【目的】大豆分枝数与大豆株型及产量关系密切,检测世代间可稳定遗传的大豆分枝数QTL,为大豆株型和产量育种的分子标记辅助选择奠定基础。【方法】根据科新3号×中黄20杂交组合F2群体构建的分子遗传图谱,对F2:4群体进行QTL定位,并... 【目的】大豆分枝数与大豆株型及产量关系密切,检测世代间可稳定遗传的大豆分枝数QTL,为大豆株型和产量育种的分子标记辅助选择奠定基础。【方法】根据科新3号×中黄20杂交组合F2群体构建的分子遗传图谱,对F2:4群体进行QTL定位,并利用定位QTL两侧的标记选择残余杂合个体,构建残余杂合系,对分枝数相关的QTL进行验证。【结果】在F2:4群体将分枝数QTL(qBN-c1-1)定位在C1连锁群区间Satt294-Satt399,贡献率为12.01%,来自于科新3号亲本的加性效应为-0.51;用F2:5选出残余杂合系,将控制大豆分枝数QTL定位在C1连锁群Satt399-Satt361区间,贡献率为11.16%,来自于科新3号的加性效应为-1.74,研究结果与F2:4群体一致。【结论】位于C1连锁群的与分枝数相关的QTL在该遗传背景下可稳定遗传。 展开更多
关键词 大豆 分枝数 残余杂合系 QTL
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水稻第6染色体短臂谷壳硅含量QTL的分解 被引量:3
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作者 吴季荣 范方军 +2 位作者 杜景红 樊叶杨 庄杰云 《中国水稻科学》 CAS CSCD 北大核心 2010年第1期12-17,共6页
报道了水稻谷壳硅含量QTLqHUS6的分解研究。针对前期定位的qHUS-6区域,应用在第6染色体短臂RM587-RM19784区间分离、背景基本纯合的F2:3群体,将qHUS-6分解为2个QTL;其中,qHUS-6-1位于目标区间的上部,qHUS-6-2位于下部。同时,筛选出在目... 报道了水稻谷壳硅含量QTLqHUS6的分解研究。针对前期定位的qHUS-6区域,应用在第6染色体短臂RM587-RM19784区间分离、背景基本纯合的F2:3群体,将qHUS-6分解为2个QTL;其中,qHUS-6-1位于目标区间的上部,qHUS-6-2位于下部。同时,筛选出在目标区间内携带更小杂合片段的3个单株。其中,2株覆盖qHUS-6-1区间,各自交产生了1个F2:3群体,应用这2个群体将qHUS-6-1定位于RM510和RM19417之间约147.0kb的区间内;另1株覆盖qHUS-6-2区间,自交产生了1个F2:3群体,从中挑选出在qHUS-6-2区间具有不同基因型组成的5套F3株系,将qHUS-6-2分解为qHUS-6-2a和qHUS-6-2b,分别位于RM19706-RM19795和RM314-RM19665区间。 展开更多
关键词 水稻 数量性状基因座 剩余杂合体 谷壳硅含量 基因定位
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水稻第6染色体短臂株高及产量性状QTL的分解 被引量:2
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作者 占小登 樊叶杨 +2 位作者 程式华 庄杰云 曹立勇 《中国水稻科学》 CAS CSCD 北大核心 2008年第2期137-142,共6页
针对第6染色体短臂上一个对产量性状遗传具有重要作用的区间RM587-RM19715,从珍汕97B/密阳46重组自交系群体中筛选到1个剩余杂合体,自交衍生获得一个由195个个体组成的F2群体,检测控制株高和产量性状的QTL。经分析,在目标区间的上... 针对第6染色体短臂上一个对产量性状遗传具有重要作用的区间RM587-RM19715,从珍汕97B/密阳46重组自交系群体中筛选到1个剩余杂合体,自交衍生获得一个由195个个体组成的F2群体,检测控制株高和产量性状的QTL。经分析,在目标区间的上部和下部分别检测到1个QTL簇,分别对除单株穗数以外的产量性状因子具显著作用,单个QTL对群体性状表型变异的贡献率为5.0%~55.5%。将第6染色体上的产量性状QTL分解到更小的区间中,为产量性状QTL的精细定位和克隆打下了基础。 展开更多
关键词 水稻 产量性状 株高 数量性状座位 剩余杂合体 基因定位
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水稻第6染色体短臂每穗实粒数和每穗颖花数QTL的精细定位 被引量:6
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作者 樊叶杨 程式华 +1 位作者 范方军 庄杰云 《核农学报》 CAS CSCD 北大核心 2010年第6期1105-1109,共5页
对水稻第6染色体短臂上一个控制每穗实粒数和每穗颖花数的QTL进行精细定位研究。针对前期定位的RM587-RM6119区域,应用在目标区间内杂合片段呈交叉排列的3个剩余杂合体,自交后获得3套F2∶3群体,对每穗实粒数、每穗颖花数和单株产量进行... 对水稻第6染色体短臂上一个控制每穗实粒数和每穗颖花数的QTL进行精细定位研究。针对前期定位的RM587-RM6119区域,应用在目标区间内杂合片段呈交叉排列的3个剩余杂合体,自交后获得3套F2∶3群体,对每穗实粒数、每穗颖花数和单株产量进行QTL分析。在3套群体中均检测到控制每穗实粒数、每穗颖花数和单株产量的QTL,其遗传作用均以加性作用为主,增效等位基因来自母本珍汕97B,且QTL的效应在各群体间相近。因此,该目标区间存在一个共同的QTL,通过控制每穗粒数来调控单株产量。通过比较3个剩余杂合体共有的杂合区间,最终将控制每穗实粒数和每穗颖花数的QTL定位于RM3414-RM19417之间约96.4kb的区域内。 展开更多
关键词 水稻 数量性状座位(QTL) 剩余杂合体 每穗实粒数 每穗颖花数
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应用剩余杂合体衍生的近等基因系定位水稻株高QTL 被引量:1
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作者 罗先富 刘文强 +6 位作者 潘孝武 董铮 刘三雄 刘利成 阳标仁 盛新年 李小湘 《中国农学通报》 2022年第9期1-5,共5页
为挖掘有育种利用价值的水稻株高新基因,以来源于‘Katy’/‘湘743’且在第1染色体RM11383-RM1198 区间杂合的一个剩余杂合体 RHL1030 (F;)为材料,遗传分析 RHL1030 衍生群体,显示在该区间鉴定到控制株高QTL,增效等位基因来自于‘湘743... 为挖掘有育种利用价值的水稻株高新基因,以来源于‘Katy’/‘湘743’且在第1染色体RM11383-RM1198 区间杂合的一个剩余杂合体 RHL1030 (F;)为材料,遗传分析 RHL1030 衍生群体,显示在该区间鉴定到控制株高QTL,增效等位基因来自于‘湘743’。应用SSR标记检测,从RHL1030衍生群体筛选杂合区间分别为RM3411-RM11782和RM6703-RM1198的两个单株,自交一代形成2个F;群体,验证并界定株高 QTL 在 RM6703-RM1198 区间。从 RM6703-RM1198 区间分离群体筛选 RM6703-RM8085 区间杂合的3个单株和RM5389-RM1198区间杂合的1个单株,自交一代形成4个F;群体,从群体中分别筛选母本纯合型、父本纯合型和杂合型单株各 40 株构成近等基因系进行方差分析,最终界定株高 QTL 在RM11782-RM5389 区间,物理位置 34.17M~35.73 Mb。本研究定位到一个新的控制株高 QTL,为改良水稻株型提供资源。 展开更多
关键词 剩余杂合体 近等基因系 株高 水稻 数量性状位点
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水稻第6染色体短臂上株高QTL qPH6-1的精细定位 被引量:6
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作者 鲍钱江 樊叶杨 +4 位作者 於卫东 陈忱 范方军 杜景红 庄杰云 《中国水稻科学》 CAS CSCD 北大核心 2009年第5期470-474,共5页
应用衍生于水稻剩余杂合体的分离群体,开展株高QTL的检测和精细定位。应用1个在水稻第6染色体短臂约7.3 Mb区间分离、背景基本纯合的F2:3群体,种植于海南、浙江两地,检测到2个控制株高的QTL;然后,针对两地间作用稳定的qPH6-1,筛选出3个... 应用衍生于水稻剩余杂合体的分离群体,开展株高QTL的检测和精细定位。应用1个在水稻第6染色体短臂约7.3 Mb区间分离、背景基本纯合的F2:3群体,种植于海南、浙江两地,检测到2个控制株高的QTL;然后,针对两地间作用稳定的qPH6-1,筛选出3个杂合区间缩小且呈阶梯状排列的单株,衍生F2群体,进一步验证了qPH6-1的作用,并将其界定于距离为96.4 kb的SSR标记RM3414和RM19417之间;最后,应用分离区间进一步缩小且呈阶梯状排列的3个F2群体,将qPH6-1定位于距离为51.7 kb的STS标记Si2925和SSR标记RM19417之间。基因组位置比较结果显示,该基因与所有已定位或克隆的水稻矮秆、半矮秆基因均非等位。 展开更多
关键词 株高 数量性状基因座 精细定位 剩余杂合体 水稻
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Fine Mapping and Candidate Gene Analysis of Resistance Gene R_(SC3Q) to Soybean mosaic virus in Qihuang 1 被引量:12
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作者 ZHENG Gui-jie YANG Yong-qing +6 位作者 MA Ying YANG Xiao-feng CHEN Shan-yu REN Rui WANG Da-gang YANG Zhong-lu ZHI Hai-jian 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2014年第12期2608-2615,共8页
Soybean mosaic virus (SMV) disease is one of the most destructive viral diseases in soybean (Glycine max (L.) Merr.). SMV strain SC3 is the major prevalent strain in huang-huai and Yangtze valleys, China. The so... Soybean mosaic virus (SMV) disease is one of the most destructive viral diseases in soybean (Glycine max (L.) Merr.). SMV strain SC3 is the major prevalent strain in huang-huai and Yangtze valleys, China. The soybean cultivar Qihuang 1 is of a rich resistance spectrum and has a wide range of application in breeding programs in China. In this study, F1, F2 and F2:3 from Qihuang 1×nannong 1138-2 were used to study inheritance and linkage mapping of the SC3 resistance gene in Qihuang 1. The secondary F2 population and near isogenic lines (nILs) derived from residual heterozygous lines (RhLs) of Qihuang 1×nannong 1138-2 were separatively used in the ifne mapping and candidate gene analysis of the resistance gene. Results indicated that a single dominant gene (designated RSC3Q) controls resistance, which was located on chromosome 13. Two genomic-simple sequence repeat (SSR) markers BARCSOYSSR_13_1114 and BARCSOYSSR_13_1136 were found lfanking the two sides of the RSC3Q. The interval between the two markers was 651 kb. Quantitative real-time PCR analysis of the candidate genes showed that ifve genes (Glyma13g25730, 25750, 25950, 25970 and 26000) were likely involved in soybean SMV resistance. These results would have utility in cloning of RSC3Q resistance candidate gene and marker-assisted selection (MaS) in resistance breeding to SMV. 展开更多
关键词 Soybean mosaic virus (SMV) resistance gene ifne mapping residual heterozygous line (rhls) near isogenic lines (nILs) QRT-PCR
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Fine Mapping of C(Chromogen for Anthocyanin) Gene in Rice 被引量:6
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作者 FAN Fang-jun FAN Ye-yang +1 位作者 DU Jing-hong ZHUANG Jie-yun 《Rice science》 SCIE 2008年第1期1-6,共6页
Seven residual heterozygous lines (RHLs) displaying different genotypic compositions in the genomic region covering probable locations of C (Chromogen for anthocyanin) gene on the short arm of rice chromosome 6 we... Seven residual heterozygous lines (RHLs) displaying different genotypic compositions in the genomic region covering probable locations of C (Chromogen for anthocyanin) gene on the short arm of rice chromosome 6 were selected from the progenies of the indica cross Zhenshan 97B/Milyang 46. Seeds were harvested from each of the seven plants, and the resultant F2:3 populations were used for fine mapping of C gene. It was shown in the populations that the apiculus coloration matched to basal leaf sheath coloration in each plant. By relating the coloration performances of the populations with the genotypic compositions of the RHLs, the C locus was located between rice SSR markers RM314 and RM253. By using a total of 1279 F2:3 individuals from two populations showing coloration segregation, the C locus was then located between RM111 and RM253, with genetic distances of 0.7 cM to RM111 and 0.4 cM to RM253. Twenty-two recombinants found in the two populations were assayed with seven more markers located between RM111 and RM253, including six SSR markers and one marker for the C gene candidate, OsCl. The C locus was delimited to a 59.3-kb region in which OsC1 was located. 展开更多
关键词 C locus fine mapping candidate gene residual heterozygous line RICE
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Dissection of QTLs for Yield Traits on the Short Arm of Rice Chromosome 6 被引量:6
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作者 DU Jing-hong FAN Ye-yang WU Ji-rong ZHUANG Jie-yun 《Agricultural Sciences in China》 CAS CSCD 2008年第5期513-520,共8页
This study was undertaken to dissect quantitative trait loci (QTLs) controlling yield traits on the short arm of rice chromosome 6. A residual heterozygous line that carries a heterozygous segment extending from RM5... This study was undertaken to dissect quantitative trait loci (QTLs) controlling yield traits on the short arm of rice chromosome 6. A residual heterozygous line that carries a heterozygous segment extending from RM587 to RM19784 on the short arm of rice chromosome 6 was selected from an F7 population of the indica rice cross Zhenshan 97B/Milyang 46. An F2:3 population consisting of 221 lines was derived and grown in two trial sites. Six yield traits including number of panicles per plant, number of filled grains per panicle, total number of spikelets per panicle, spikelet fertility, 1 000-grain weight, and grain yield per plant were measured. An SSR marker linkage map was constructed and employed to determine QTLs for yield traits with Windows QTL Cartographer 2.5. QTLs were detected in the target interval for all the traits analyzed except NP, with phenotypic variance explained by a single QTL ranging between 6.3% and 35.2%. Most of the QTLs for yield components acted as additive QTLs, while the three QTLs for grain yield had dominance degrees of 1.65, 0.84, and -0.42, respectively. It was indicated that three or more QTLs for yield traits were located in the target region. The genetic action mode, the direction of the QTL effect, and the magnitude of the QTL effect varied among different QTLs for a given trait, and among QTLs for different traits that were located in the same interval. 展开更多
关键词 yield traits residual heterozygous line quantitative trait locus short arm of chromosome 6 rice (Oryza sativa L.)
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Dissection of QTLs for Hull Silicon Content on the Short Arm of Rice Chromosome 6 被引量:1
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作者 Wu Ji-rong FAN Fang-jun DU Jing-hong FAN Ye-yang ZHUANG Jie-yun 《Rice science》 SCIE 2010年第2期99-104,共6页
The QTL qHUS6 for hull silicon content in rice was previously located on the short arm of rice chromosome 6. By using an F2:3 population segregating in the RM587-RM19784 region harboring qHUS6 in an isogenic backgrou... The QTL qHUS6 for hull silicon content in rice was previously located on the short arm of rice chromosome 6. By using an F2:3 population segregating in the RM587-RM19784 region harboring qHUS6 in an isogenic background, two QTLs for hull silicon content were detected, of which qHUS6-1 was located in the distal region and qHUS6.2 in the region proximal to the centromere. Three rice plants carrying small heterozygous segments in the target region were selected, of which two covered the qHUS6-1 region and the other covered the qHUS6-2 region. Three F2:3 populations were derived from the selfed seeds of the three plants, respectively. QTL mapping was performed using the two populations segregating in the qHUS6-1 region, and qHUS6-1 was delimited to a 147.0-kb region flanked by the markers RM510 and RM19417. Five groups of F3 lines with different genotypic compositions in the qHUS6-2 region were selected from the other F2-3 population. Two QTLs were separated with two-way ANOVA, of which qHUS6-2a was located in the interval defined by RM19706-RM19795 and qHUS6-2b in the interval RM314-RM19665. 展开更多
关键词 rice (Oryza safiva) quantitative trait locus residual heterozygous line hull silicon content gene mapping
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应用剩余杂合体衍生群体定位水稻粒重粒形QTL 被引量:4
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作者 朱安东 孙志超 +5 位作者 朱玉君 张荟 牛小军 樊叶杨 张振华 庄杰云 《中国水稻科学》 CAS CSCD 北大核心 2019年第2期144-151,共8页
【目的】粒重粒形是影响水稻产量和品质的重要因素,由大量数量性状座位(QTL)控制,其作用变异极大,但以往研究主要着眼于效应大的QTL。本研究在剔除主效QTL影响的基础上,开展微效粒重粒形QTL分析。【方法】在前期研究基础上,从原群体挑选... 【目的】粒重粒形是影响水稻产量和品质的重要因素,由大量数量性状座位(QTL)控制,其作用变异极大,但以往研究主要着眼于效应大的QTL。本研究在剔除主效QTL影响的基础上,开展微效粒重粒形QTL分析。【方法】在前期研究基础上,从原群体挑选出1个剩余杂合体单株,构建了在主效QTL区间纯合、在其余区域中13个区间分离的群体,种植于浙江杭州和海南陵水,测定千粒重、粒长和粒宽。【结果】采用Windows QTL Cartographer2.5,检测到22个QTL,分布于10条染色体的12个区间,其中,10个区间在两地均呈显著作用,2个区间仅在杭州试验中呈显著作用。进一步从该群体筛选出1个只在其中4个QTL区间杂合的单株,自交构建分离群体,验证了这4个区间对粒重粒形的效应。【结论】排除主效QTL有利于提高微效粒重粒形QTL的检测功效;虽然微效QTL可能易受环境和遗传背景影响,但仍可具有稳定表现。这些结果为进一步开展粒重粒形QTL的精细定位、克隆和分子标记辅助选择奠定了基础。 展开更多
关键词 数量性状座位 千粒重 粒形 剩余杂合体 水稻
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Quantitative Trait Loci for Panicle Size and Grain Yield Detected in Interval RM111-RM19 784 on the Short Arm of Rice Chromosome 6 被引量:1
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作者 GONG Jun-yi DU Jing-hong +2 位作者 FAN Ye-yang WU Ji-rong ZHUANG Jie-yun 《Agricultural Sciences in China》 CSCD 2010年第8期1085-1092,共8页
A rice residual heterozygous line (RHL) carrying a heterozygous segment extending from RM111 to RM19784 on the short arm of rice chromosome 6 was selected from a RHL-derived population used previously. The resultant... A rice residual heterozygous line (RHL) carrying a heterozygous segment extending from RM111 to RM19784 on the short arm of rice chromosome 6 was selected from a RHL-derived population used previously. The resultant F2:3 population was used to detect quantitative trait loci (QTLs) for three yield traits, the number of spikelets per panicle (NSP), the number of grains per panicle (NGP) and grain yield per plant (GY). Two QTLs for NSP, one QTL for NGP and one QTL for GY were detected, all of which were partially dominant and had the enhancing alleles from the maternal line Zhenshan 97B. Analysis based on the genotypic groups of the markers closely linked to the two QTLs for NSP indicated that they did not interact with each other. Two F2 populations and two near isogenic line (NIL) sets segregating in two sub-regions of interval RM111-RM19784 were developed. The two QTLs for NSP were validated, of which one had major effect and was co-segregated with heading date gene Hdl, and the other had smaller effect and was located in an upper region linked to Hdl. The two regions also showed significant effects on the number of filled grain and grain yield, although the effect on the number of filled grain was less consistent. 展开更多
关键词 rice (Oryza sativa L.) short arm of chromosome 6 residual heterozygous line quantitative trait locus yield
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