共查询到20条相似文献,搜索用时 953 毫秒
1.
L.-H. Linh N.-T. Hang F.-X. Jin K.-H. Kang Y.-T. Lee S.-J. Kwon S.-N. Ahn 《Plant Breeding》2008,127(3):262-267
A new QTL for spikelets per panicle (SPP) was detected on the long arm of chromosome 7 in an F2 population derived from a cross between the japonica cultivar Hwaseongbyeo and WH29001. WH29001, an advanced backcross line was developed by introgressing chromosomal segments from an accession of O. minuta (2n = 48, BBCC, Acc. no. 101141 ) into the O. sativa subsp. japonica cv. Hwaseongbyeo. The O. minuta allele increased SPP in the Hwaseongbyeo background despite the fact that O. minuta was the small panicle parent. Using F3 and F4 progenies, spp7 was validated and mapped to a 2.3 Mb region in the interval between the SSR markers RM445 and RM21615 based on the japonica genome sequence. A yield trial using F4 lines indicated that the lines carrying an O. minuta chromosome segment across the entire spp7 target region out‐yielded its sister lines containing Hwaseongbyeo chromosome in the target region and Hwaseongbyeo by 14.3% and 15.9%, respectively. Increase in SPP in WH29001 was mainly because of the increase in primary branches per panicle. The locus, spp7 is of particular interest because of its independence from undesirable height and flowering time. SSR markers tightly linked to the spp7 will facilitate cloning of the gene underlying this QTL as well as marker‐assisted selection for variation in SPP in an applied breeding program. 相似文献
2.
Sangshetty Balkunde Hung‐Linh Le Hyun‐Sook Lee Dong‐Min Kim Ju‐Won Kang Sang‐Nag Ahn 《Plant Breeding》2013,132(1):70-76
We constructed a high‐resolution physical map for the qSPP7 QTL for spikelets per panicle (SPP) on rice chromosome 7 across a 28.6‐kb region containing four predicted genes. Using a series of BC7F4 near‐isogenic lines (NILs) derived from a cross between the Korean japonica cultivar ‘Hwaseongbyeo’ and Oryza minuta (IRGC Acc. No. 101144), three QTLs for the number of SPP, grains per panicle and primary branches were identified in the cluster (P ≤ 0.01). All three QTLs were additive, and alleles from the O. minuta parent were beneficial in the ‘Hwaseongbyeo’ background. qSPP7 was mapped to a 28.6‐kb region between the two simple sequence repeat (SSR) markers RM4952 and RM21605. The additive effect of the O. minuta allele at qSPP7 was 23 SPP, and 43.6% of the phenotypic variance was explained by the segregation of the SSR marker RM4952. Colocalization of the three QTLs suggested that this locus was associated with panicle structure and had pleiotropic effects. The NIL populations and molecular markers are useful for cloning qspp7. 相似文献
3.
In a previous study, we reported the grain weight QTL, tgw2 in the 150 F2:3 lines derived from a cross between Oryza sativa subssp. Japonica cv. Hwaseongbyeo and HG101. This QTL was confirmed in F4 lines (CR1242) segregating for the target region.
For fine mapping of tgw2, one F5 plant homozygous for the O. grandiglumis DNA in the target region was selected from CR1242 and crossed with Hwaseongbyeo to produce the F2 and F3 populations. QTL analysis using 490 F2 plants confirmed the existence of tgw2 with an R
2 value of 28.0%. This QTL explained 61.3% of the phenotypic variance for 1,000-grain weight in 64 F3 lines. Substitution mapping with 47 F3 lines and 74 F4 plants with informative recombination breakpoints in the target region was carried out to narrow down the position of the
tgw2. The result indicated that tgw2 was located in the 384-kb interval between two SSR markers, RM12813 and RM12836. Annotation data of BACs in this 384-kb region
revealed that forty-five putative genes exist in this interval including the GW2 gene responsible for grain weight and width. Considering the position of the QTL tgw2, it appears that tgw2 is functionally related to the gene GW2. However, the possibility that another unknown mechanism might be responsible for regulation of grain weight at tgw2 cannot be ruled out. Four QTLs for grain length, grain width, and grain thickness were also located in the same interval
suggesting that a single gene is involved in controlling these four traits. Substitution mapping also indicated that two QTLs
for grain weight and culm length, tgw2 and cl2, were tightly linked. 相似文献
4.
本文报道了水稻第1染色体长臂上微效千粒重QTL qTGW1.2的验证和分解。针对前期qTGW1.2定位结果, 应用SSR标记检测, 从籼籼交组合珍汕973/密阳46衍生的1个BC2F7分离群体中, 筛选到杂合区间分别为RM11621-RM297和RM212-RM265的2个单株, 构建了两套BC2F8:9近等基因系, 将qTGW1.2进一步界定在RM212-RM265及其两侧交换区间的区域内。在此基础上, 筛选出5个在目标区间内分离片段缩小且呈阶梯状排列的单株, 衍生了5套BC2F10分离群体, 应用Windows QTL Cartographer 2.5进行QTL分析。结果表明, 每套群体均检测到千粒重QTL, 加性效应为0.13~0.38 g, 来自密阳46的等位基因提高千粒重; 经比较各个群体的分离区间, 将qTGW1.2分解为互引连锁的2个QTL, 其中, qTGW1.2a位于RM11730和RM11762之间934 kb的区域内, 呈加性作用, qTGW1.2b位于RM11800和RM11885之间2.1 Mb的区域内, 呈正向超显性。 相似文献
5.
Ping-Rong Yuan Hyun-Jung Kim Qiong-Hua Chen Hong-Guang Ju Seung-Joon Lee Shi-Dong Ji Sang-Nag Ahn 《Journal of Crop Science and Biotechnology》2009,12(4):245-252
The nearly isogenic nature of the introgression lines (ILs) provides a relative advantage over other segregating populations in the rapid implementation of pyramiding approach through crosses and marker analysis. A set of 126 ILs carrying various introgressed segments from a presumed wild progenitor, Oryza rufipogon Griff. Acc. W1944 in the background of an elite Korea japonica cultivar (O. sativa L.), Hwayeongbyeo, was constructed using the marker assisted selection (MAS) technique combined with repeated backcrosses. The 126 ILs have different W1944 segments on each chromosome, with 100% coverage of wild segments on chromosome 1, while for chromosome 10, the coverage was only 33.3%. The mean number of homozygous and heterozygous donor segments were 3 (ranging from 0 to 7) and 4.7 (ranging from 1 to 14.5), respectively, and 31.6% of introgressed segments had sizes of less than 10.5 cM. A total of 41 quantitative trait loci (QTLs) and two loci associated with pericarp coloration were identified. The number of QTLs per trait ranged from 2 to 6. Phenotypic variance associated with each QTL varied from 9.1 to 52.2%, with an average of 17.1%. For 11 (26.8%) of the QTLs detected in this study, the O. rufipogon-derived alleles contributed the desired agronomic effect despite the overall inferior characteristics of the wild phenotype. Favorable alleles from the O. rufipogon accession were identified for panicle number, panicle length, days to heading, secondary branches, spikelets per panicle, and 1,000-grain weight. 相似文献
6.
Lixue Guo Yuzhen Shi Juwu Gong Aiying Liu Yunna Tan Wankui Gong Junwen Li Tingting Chen Haihong Shang Qun Ge Quanwei Lu Jie Sun Youlu Yuan 《Euphytica》2018,214(5):82
Developing chromosome segments substitution lines (CSSLs) is an effective method for broadening the cotton germplasm resource, and improving the fiber quality and yield traits. In this study, the 1054 F2 individual plants and 116 F2:3 lineages were generated from the two parents of MBI9749 and MBI9915 selected from BC5F3:5 lines which originated from hybridization of CCRI36 and Hai1, and advanced backcrossing and repeated selfing. Genotypes of the parents and F2 population were analyzed. The results showed that 19 segments were introgressed for MBI9749 and 12 segments were introgressed for MBI9915, distributing on 17 linkage groups. The average background recovery rate to the recurrent parent CCRI36 was 96.70% for the two parents. An average of 16.46 segments was introgressed in F2 population. The average recovery rate of 1054 individual plants was 96.85%, and the mean length of sea island introgression segments was 157.18 cM, accounting for 3.15% of detection length. QTL mapping analysis detected 22 QTLs associated with fiber quality and yield traits in the F2 and F2:3 populations. These QTLs distributed on seven chromosomes, and the phenotypic variation was explained ranging from 1.20 to 14.61%. Four stable QTLs were detected in F2 and F2:3 populations, simultaneously. We found that eight QTLs were in agreement with the previous research. Six QTL-clusters were identified for fiber quality and yield traits, in which five QTL-clusters were on chromosome20. The results indicated that most of QTL-clusters always improve the fiber quality and have negative additive effect for yield related traits. This study demonstrated that CSSLs provide basis for fine mapping of the fiber quality and yield traits in future, and could be efficiently used for pyramiding favourable alleles to develop the new germplasms for breeding by molecular marker-assisted selection. 相似文献
7.
一个新的水稻花粉半不育性位点的定位分析 总被引:1,自引:0,他引:1
利用一套以籼稻珍汕97B为背景的粳稻日本晴染色体片段代换系,鉴定发现1个半不育的代换系。全基因组基因型分析表明,该代换系仅含3个粳稻导入片段,而其他遗传背景与珍汕97B相同。在湖北武汉和海南分别种植其衍生的F2和F3分离群体,采用单标记分析和区间作图法分析花粉育性和小穗育性的数量性状位点(QTL),结果表明,该代换系的半不育性是第2染色体上的粳稻导入片段引起的,该片段RM262~RM475区间存在1个新的影响花粉育性的QTL,其贡献率为13.9%。研究结果将为进一步精细定位水稻育性QTL以及鉴定相关功能基因提供重要的试验基础。 相似文献
8.
利用海岛棉染色体片段导入系定位衣分和籽指QTL 总被引:6,自引:0,他引:6
以染色体片段导入系IL-15-5和IL-15-5-1构建的F2和F2:3分离群体,利用SSR标记对数量性状衣分和籽指QTL进行了定位。应用复合区间作图法分析两个组合的774个F2单株和F2:3家系衣分和籽指,检测到2个衣分的QTL,1个籽指的QTL。衣分QTLqLP-15-1在两世代中都被检测到,位于相同的分子标记置信区间JESPR152~NAU3040,置信的遗传距离分别为5.40cM和3.20cM;qLP-15-2只在F2:3中被检测到,位于分子标记NAU5302~NAU2901之间,置信的遗传距离为0.08cM。籽指QTLqSI-15-1在F2和F2:3中都被检测到,分别位于分子标记NAU2814~NAU3040和JESPR152~NAU3040,置信的遗传距离分别为6.70cM和5.70cM。利用染色体片段导入系能准确地定位产量组分的QTL,为棉花产量的分子设计育种奠定基础。 相似文献
9.
利用4个姊妹近等基因群体定位水稻粒重和粒形QTL 总被引:1,自引:1,他引:0
粒重是决定水稻产量的三要素之一。利用世界上粒重最大的品种之一SLG-1(供体亲本)与小粒品种日本晴(Nipponbare,轮回亲本)杂交,在各回交世代选择粒重较大单株与日本晴回交,构建水稻粒重和粒形的姊妹近等基因系(SNILs)。对获得的73 株BC4F1单株进行粒重频率分布统计,选择粒重频率分布在4个峰值处的代表性单株,自交获得4个BC4F2 SNILs群体。利用BSA法(分离群体分组混合分析法),从均匀分布在水稻染色体上的1 513对SSR标记中筛选出与粒重和粒形相关的多态性标记19对,以LOD≥2.5作为选择阈值,对粒重、粒长、粒宽和粒厚进行QTL扫描,共检测到6个区域的12个QTL,贡献率从7.22%到53.38%。这些QTL所在区域包含已克隆的粒长GS3和粒宽GW2,也包含没有精细定位的第2染色体的RM6318-RM1367、第3染色体的RM5477–RM6417和第6染色体的RM3370–RM1161等3个区域控制粒重和粒形的5个QTL。其中第3染色体上RM5477–RM6417区间存在粒形贡献率较大的新的QTL。构建含有这些粒重QTL的姊妹近等基因系,为进一步精细定位或克隆新的粒重或粒形QTL奠定了基础。 相似文献
10.
渐渗系IL6的遗传评价和渗入片段的鉴定 总被引:1,自引:1,他引:0
用海岛棉3-79的6号染色体渐渗系(简称IL6)和背景亲本TM-1构建了F2、F2:3群体,在2年的田间重复实验中调查了18个重要农艺性状,作遗传评价。并获得F2群体的分子数据,进行QTL定位和单标记分析。结果表明:亲本IL6中的渐渗片段,组成有3-79的6号染色体,3-79的非6号染色体和大部分的TM-1片段。IL6的产量、品质性状都优于受体亲本TM-1,遗传分析也发现产量、品质性状增效基因位点来自IL6,说明所渗入片段起着关键作用。亲本农艺性状表现和遗传分析结果表明,IL6渗入片段含有总铃数、单株铃数、衣分、果枝数、比强度、麦克隆值等性状的主基因。而QTL定位和单标记分析结果显示,IL6渗入片段含有单株铃数、衣分、果枝数、株高、子指、整齐度等性状的QTLs。 相似文献
11.
Shu-Jun Wu Huan Zhong Yong Zhou Hui Zuo Li-Hui Zhou Jin-Yan Zhu Cao-Qiu Ji Shi-Liang Gu Ming-Hong Gu Guo-Hua Liang 《Euphytica》2009,165(3):557-565
The indica variety Dular has a high level of resistance to rice stripe virus (RSV). We performed quantitative trait locus (QTL) analysis
for RSV resistance using 226 F2 clonal lines at the seedling stage derived from a cross between the susceptible japonica variety Balilla and the resistant indica variety Dular with two evaluation criteria, infection rate (IR) and disease rating index (DRI). The experiments were performed
in both 2004 and 2005. Based on IR, three putative QTLs were detected and had consistent locations in the 2 years, one QTL
was detected in the RM7324–RM3586 interval on chromosome 3. The other two QTLs were linked and located in the RM287–RM209
and RM209–RM21 intervals on the long arm of chromosome 11, and accounted for 87.8–57.8% of the total phenotypic variation
in both years. Based on DRI, three putative QTLs were also detected and had consistent locations in both years. One of them
was located in the RM1124–SSR20 interval on the short arm of chromosome 11, while the other two linked QTLs had the same chromosomal
locations on chromosome 11 as those detected by IR, and accounted for 55.7–42.9% of total phenotypic variation in both years.
In comparison to the mapping results from previous studies, one of the two linked QTLs had a chromosomal location that was
similar to Stv-b
i
, an important RSV resistance gene, while the other appeared to be a newly reported one. 相似文献
12.
分别以高抗细菌性条斑病的品种Acc8558和高感的品种H359为供体和受体亲本, 通过回交和分子标记辅助选择, 育成了只渗入5号染色体短臂上单个供体亲本细条病抗性QTL(qBlsr5a)的近等基因系H359-BLSR5a。将该近等基因系与H359杂交, 建立了一个大的F2群体。采用选择极端表型个体并验证其后代(F2:3)株系的方法, 在F2群体中鉴定出目标QTL为抗病纯合基因型的个体。通过对这些个体进行分子标记基因型检测和连锁分析, 将qBlsr5a定位在SSR标记RM153和RM159之间, 大约2.4 cM或290 kb的范围内。 相似文献
13.
Asian cultivated rice was domesticated from the wild rice, Oryza rufipogon and throughout the domestication process, a wide range of morphological and physiological changes altered the ancestral form. This study was conducted to identify the genetic basis of changes associated with the domestication process. An recombinant Inbred line (RIL) population consisting of 120 lines was developed from a cross between the Juponica cultivar.‘Hwayeongbyeo’and a presumed wild progenitor. O. rufipogon Griff. Acc.01944. The population was genotyped with 124 simple sequence length repeat (SSR) markers, providing an average interval size of 15 cM, and also evaluated for 20 traits related to domestication and agricultural performance. A total of 63 quantitative trait locus (QTLs) and one locus associated with qualitative variation for pericarp coloration were identified using single point and composite interval analysis. The number of QTLs per trait ranged from one to seven. Phenotypic variation associated with each QTL ranged from 3.7 to 40.4%. with an average of 15.3%. The results indicated that most domestication‐related traits clustered in chromosomal blocks, and the positions of many of these clusters were consistent with those reported in previous studies and with skewed segregation ratios in these BC1,F7 RILs. For 13 (20.6%) of the QTLs identified in this study. the O. rufipogan ‐derived allele contributed a desirable agronomic effect despite the overall undesirable characteristics of the wild phenotype. Favourable alleles from O. rufipogan were detected for panicle length, spikelets per panicle, days to heading and leaf discoloration associated with cold stress. When compared with previous studies involving interspecific crosses, it can be concluded that O. rufipogon is useful as a source of valuable alleles for rice improvement and that many of the introgressed regions contain genes that have a favourable impact on phenotype in different genetic backgrounds and different environments. 相似文献
14.
Fat content is a concern for the enhancement of rice for eating, cooking, and storage qualities. To clarify its genetic mechanism,
a double haploid (DH) population derived from anther hybrid F1 of Zhenshan 97B (indica) and Wuyujing 2 (japonica) and two backcross F1 (BCF1) populations, which came from the DH lines backcrossing to two parents, were used to scan quantitative trait loci (QTLs)
and dissect gene effects for the crude fat content (CFC) in brown rice. Fourteen QTLs were resolved, distributing on chromosomes
1, 3, and 5–9. Three loci were detected repeatedly in two populations, DH or BCF1. Among these loci, a major QTL, qCFC5, flanking markers RM87 and RM334, was located on chromosome 5, which was detected simultaneously among three populations.
The main QTLs had a major role in controlling CFC in brown rice and were modified by several mini-effect QTLs and epistatic
affection.
Wenjun Liu and Jing Zeng are contributed equally to this paper. 相似文献
15.
Oryza rufipogon (IRGC105491) is a wild relative of cultivated rice, it contains two favorable yield-enhancing genes (yld1.1 and yld2.1) on chromosomes 1 and 2, respectively, which are capable of improving the yield of hybrid rice by 18 and 17%, respectively. SSR markers RM9, RM24, RM5 and RM306 are flanking yld1.1, while RM166 and RM208 are mapped in the close region to yld2.1. These molecular markers tightly linked to the two yield-enhancing genes were used to screen the plants of backcross population between 9311 (one of the top-performing parental lines in super hybrid rice seed production in China) and O. rufipogon. The results were as follows: (1) in BC2F1 population, the percentage of the individuals which contain both of the O. rufipogon alleles at marker loci RM166 and RM9 was 16.8%; (2) 1.5% individuals of total BC3F1 population have all the six linked markers (RM166, RM9, RM5, RM208, RM24, RM306); (3) in BC4F1 population, the percentage of the individuals which contain both of the two O. rufipogon alleles at marker loci RM166 and RM9 was 18.0%. Based on marker genotypes, the individuals, that contain multiple O. rufipogon markers, were selected and used for further backcross and self cross. Many 9311-type lines with yield-enhancing genes and high yield potential were obtained. After three times self-crossing a stable improved 9311 line was obtained. The results indicated that these molecular markers are feasible for marker-assisted selection (MAS) to screen rice individuals with high yield potential. 相似文献
16.
To better understand the underlying mechanisms of agronomic traits related to drought resistance and discover candidate genes or chromosome segments for drought-tolerant rice breeding, a fundamental introgression population, BC3, derived from the backcross of local upland rice cv. Haogelao (donor parent) and super yield lowland rice cv. Shennong265 (recurrent parent) had been constructed before 2006. Previous quantitative trait locus (QTL) mapping results using 180 and 94 BC3F6,7 rice introgression lines (ILs) with 187 and 130 simple sequence repeat (SSR) markers for agronomy and physiology traits under drought in the field have been reported in 2009 and 2012, respectively. In this report, we conducted further QTL mapping for grain yield component traits under water-stressed (WS) and well-watered (WW) field conditions during 3 years (2012, 2013 and 2014). We used 62 SSR markers, 41 of which were newly screened, and 492 BC4F2,4 core lines derived from the fourth backcross between D123, an elite drought-tolerant IL (BC3F7), and Shennong265. Under WS conditions, a total of 19 QTLs were detected, all of which were associated with the new SSRs. Each QTL was only identified in 1 year and one site except for qPL-12-1 and qPL-5, which additively increased panicle length under drought stress. qPL-12-1 was detected in 2013 between new marker RM1337 and old marker RM3455 (34.39 cM) and was a major QTL with high reliability and 15.36% phenotypic variance. qPL-5 was a minor QTL detected in 2013 and 2014 between new marker RM5693 and old marker RM3476. Two QTLs for plant height (qPHL-3-1 and qPHP-12) were detected under both WS and WW conditions in 1 year and one site. qPHL-3-1, a major QTL from Shennong265 for decreasing plant height of leaf located on chromosome 3 between two new markers, explained 22.57% of phenotypic variation with high reliability under WS conditions. On the contrary, qPHP-12 was a minor QTL for increasing plant height of panicle from Haogelao on chromosome 12. Except for these two QTLs, all other 17 QTLs mapped under WS conditions were not mapped under WW conditions; thus, they were all related to drought tolerance. Thirteen QTLs mapped from Haogelao under WS conditions showed improved drought tolerance. However, a major QTL for delayed heading date from Shennong265, qDHD-12, enhanced drought tolerance, was located on chromosome 12 between new marker RM1337 and old marker RM3455 (11.11 cM), explained 21.84% of phenotypic variance and showed a negative additive effect (shortening delay days under WS compared with WW). Importantly, chromosome 12 was enriched with seven QTLs, five of which, including major qDHD-12, congregated near new marker RM1337. In addition, four of the seven QTLs improved drought resistance and were located between RM1337 and RM3455, including three minor QTLs from Haogelao for thousand kernel weight, tiller number and panicle length, respectively, and the major QTL qDHD-12 from Shennong265. These results strongly suggested that the newly screened RM1337 marker may be used for marker-assisted selection (MAS) in drought-tolerant rice breeding and that there is a pleiotropic gene or cluster of genes linked to drought tolerance. Another major QTL (qTKW-1-2) for increasing thousand kernel weight from Haogelao was also identified under WW conditions. These results are helpful for MAS in rice breeding and drought-resistant gene cloning. 相似文献
17.
Ning Li Jian Sun Jingguo Wang Hualong Liu Hongliang Zheng Luomiao Yang Yingpei Liang Xianwei Li Detang Zou 《Plant Breeding》2017,136(6):881-891
Alkaline stress causes injuries to rice seedlings in many parts of the world and is therefore an important factor affecting rice production in such areas. In this study, we preliminarily located quantitative trait loci (QTLs) for survival days of seedlings (SDS) and the concentrations of Na+ and K+ in shoots (SNC and SKC) and roots (RNC and RKC) under alkaline stress using an F2:3 population, which was derived from a cross between Caidao and WD20342 with 151 simple sequence repeat (SSR) markers. A total of seven QTLs were detected. Of these QTLs, qSNC3 had the largest effect, which explained 21.24% of the total phenotypic and is a major QTL. Next, a mapping population consisting of 190 BC2F2 plants was constructed using WD20342 as a donor parent to verify qSNC3. As a result, qSNC3 was delimited to an 81.7‐kb region between markers RM1221 and RM4404. In this region, LOC_Os03 g62500 and LOC_Os03 g62620 exhibited different expression between Caidao and WD20342 under alkaline stress. These results provide a basis for identifying genes related to alkaline tolerance in rice. 相似文献
18.
转基因抗虫棉产量相关性状QTL的分子标记及定位 总被引:1,自引:0,他引:1
采用亚洲棉渐渗的纤维强度突出的陆地棉优质新品系0-153与陆地棉转基因抗虫新品系sGK9708为亲本,构建了F2及F2∶3分离群体。利用3869对SSR引物筛选亲本,得到125对多态性引物。进一步对183个F2群体单株分析得到150个多态性标记位点,其中100个标记位点连锁,构建20个连锁群,共覆盖660 cM,占棉花总基因组的14.67%,每个连锁群平均包含5个标记位点,标记间平均相距6.6 cM,其中13个连锁群确定了对应的染色体。利用F2和F2:3数据,通过复合区间作图,共检测到28个产量及相关因素的QTLs。这些控制产量性状的QTLs只存在于5个连锁群上,成簇分布。与皮棉产量性状有关的2个QTLs,均与其它多个产量相关性状的QTLs在同一个连锁区段内,增效基因遗传效应方向一致,有必要研究其在标记辅助选择中的效果。本研究没有检测到在多世代表现稳定的QTL。因此,需要培育重组自交系,进一步明确产量性状有关QTL的遗传效应。 相似文献
19.
Validating a segment on the short arm of chromosome 6 responsible for genetic variation in the hull silicon content and yield traits of rice 总被引:2,自引:0,他引:2
Wei-Min Dai Ke-Qin Zhang Ji-Rong Wu Lei Wang Bin-Wu Duan Kang-Le Zheng Run Cai Jie-Yun Zhuang 《Euphytica》2008,160(3):317-324
Rice is a typical silicon-accumulating plant and the beneficial effect of silicon on rice has long been recognized. In a previous
study using 244 recombinant inbred lines (RILs) of an indica rice cross, Zhenshan 97B/Milyang 46 grown in 2003, four QTLs
were detected for hull silicon content. QTL qHUS-6 had the largest effect among these, and the same interval also had significant effects on yield traits in the same population.
The primary objective of this study was to validate the QTL effect in this region on HUS and yield traits. The same RIL population
and another RIL population of lower heterogeneity were grown in 2004. QTL qHUS-6 was found to have significant additive effects on hull silicon content with a consistent direction in the two populations.
From a residual heterozygous line selected from RILs of the same cross, 15 F2:3 lines that differed only in a 2.15-Mb segment extending from RM587 to RM6119 on the short arm of chromosome 6 were derived.
In these lines, qHUS-6 displayed a major effect, so did QTLs for yield traits previously detected in the same region. Two more QTLs for HUS detected
in 2003, qHUS-1-1 and qHUS-1-2, also had consistent effects in the Zhenshan 97B/Milyang 46 RIL population in 2004. Thus this study verified three candidate
regions for fine mapping HUS QTLs and determining the genetic relationship between silicon content and yield traits in rice. 相似文献
20.
抽穗期是决定水稻品种种植地区和季节适应性的重要农艺性状,鉴定抽穗期基因对水稻生产具有重要意义。本研究采用高代回交和SSR标记辅助选择相结合的方法获得了1个以日本晴为受体亲本、西恢18为供体亲本的含有1个控制晚抽穗表型的主效单基因的水稻染色体片段代换系Z315。Z315携带来自西恢18的5个代换片段,分布于第1、第3、第6和第7染色体上,平均代换片段长度为7.39 Mb。Z315的叶绿素含量、株高、穗长、倒一节间长、倒二叶长、倒三叶长、有效穗数、每穗实粒数和总粒数均显著高于受体日本晴,暗示其代换片段可能携带这些性状的QTL。进一步利用日本晴与Z315杂交产生的F1和F2群体对晚抽穗基因进行遗传分析和分子定位。该晚抽穗表型受1对隐性核基因控制,最终将该基因定位于第3染色体RM14283和RM6349之间,物理距离为233 kb。对该区间进行候选基因预测和测序,发现1个与抽穗相关的编码锌指蛋白的基因LOC_Os03g02160在日本晴和Z315间存在差异,该基因可能与Ehd4等位,称作Ehd4-2。由于染色体片段代换系除代换片段外与受体亲本一致,因此本研究无论对进一步分离其他QTL还是进行基因聚合育种均具有较大利用价值。 相似文献