共查询到20条相似文献,搜索用时 468 毫秒
1.
Akkareddy Srividhya Lakshminarayana R. Vemireddy Sakile Sridhar Mudduluru Jayaprada Puram V. Ramanarao Arremsetty S. Hariprasad Hariprasad K. Reddy Ghanta Anuradha Ebrahimali Siddiq 《Journal of Crop Science and Biotechnology》2011,14(1):45-56
Moisture stress is the major constraint to rice production and its stability in rainfed, mainly irrigated, and aerobic environments.
Identification of genomic regions conferring tolerance to stress would improve our understanding of the genetics of stress
response and result in the development of drought tolerant cultivars. In the present study, quantitative trait loci for drought
response related traits and as well as grain yield were identified using a set of 140 recombinant inbred lines derived from
a cross between the popular high-yielding variety, IR64 and the landrace, INRC10192. A total of 36 QTL were identified for
grain yield and its components under control and stress conditions. Strikingly, a QTL cluster flanked by the markers RM38
and RM331 on chromosome 8 was found to be associated with grain yield, plant height, no. of productive tillers, chaffy grains,
and spikelet fertility on secondary rachis and biomass under stress treatment. The genomic regions associated with these QTL
under drought stress will be useful for the development of marker-based breeding for drought tolerant, high-yielding varieties
suited to drought-prone areas. 相似文献
2.
利用回交导入系定位干旱环境下水稻植株水分状况相关QTL 总被引:1,自引:0,他引:1
日益严重的水资源危机使水稻的耐旱育种尤为迫切, 干旱环境下较高的植株水分含量有助于提高或维持作物产量的稳定性, 挖掘与耐旱性密切相关的分子标记有助于提高耐旱品种的选育效率。从供体Lemont (粳稻)导入到特青(籼稻)背景的254个高代回交导入系中筛选出覆盖供体全基因组的55个回交导入系, 采用PVC管栽培, 分析了干旱(胁迫)条件下水稻植株水分状况相关性状与籽粒产量、生物量的相关性并定位了相关QTL。研究表明, 植株水分相关性状(相对含水量、叶片水势、渗透势、卷叶度)均与籽粒产量显著相关。检测到7个相对含水量QTL, 7个叶片水势QTL, 5个渗透势QTL及5个卷叶QTL; 另检测到5个产量QTL, 7个生物量QTL。分析发现, 不仅QLwp5、QLr5、QRwc5和QY5同时分布在RM509~RM163区域, 且该区域还分布有对水分环境表现稳定的产量QTL(QGy5), 效应方向一致, 从遗传学角度解释了籽粒产量与水分相关性状之间的显著相关性。另外, QLr5、QRwc5、QY5、QLr2、QLr7、QLr8、QLr9、QRwc3、QRwc4a、QRwc12及QY7 等11个QTL曾在不同遗传背景群体中被检测到, 它们控制相同目标性状。研究认为RM509~RM163区域及QLr2、QLr7、QLr8、QLr9、QRwc3、QRwc4a、QRwc12和QY7所分布的染色体区域对水分环境或者遗传背景相对稳定, 在水稻分子标记辅助选择(MAS)耐旱育种实践中有较重要利用价值。 相似文献
3.
Ankit Malik Aruna Kumar Ranjith Kumar Ellur Subbaiyan Gopala Krishnan Kunnummal Kurungara Vinod Deepshikha Dixit Mariappan Nagarajan Prolay Kumar Bhowmick Haritha Bollinedi Nagendra Kumar Singh Ashok Kumar Singh 《Plant Breeding》2023,142(3):327-337
Increasing crop productivity is one of the prime goals of crop breeding research. Rice grain yield is a complex quantitative trait governed by polygenes. Although several QTLs governing grain yield traits have been reported and limited attempts have been made to map QTLs for grain yield parameters in Basmati rice. A population from the cross Sonasal and Pusa Basmati 1121 comprising 352 RILs was generated through the single seed descent method. A total of 12 QTLs governing yield and yield-related traits were mapped on six chromosomes, namely, 1, 2, 3, 7, 8 and 9, of which five QTLs were novel. We identified a novel and robust epistatic QTL (qPH1.1 and qPL1.1) governing plant height and panicle length, flanked by the markers RM5336-RM1 on chromosome 1. The gene encoding brassinosteroid insensitive 1-associated receptor kinase 1 precursor is the putative candidate gene underlying this epistatic QTL. Another novel QTL, qNT3.1, governing tiller number was bracketed to a region of .77 Mb between the markers RM15247 and RM15281 on chromosome 3. Of the 57 annotated gene models, Os03g0437600 encoding alpha/beta-fold hydrolase, a homologous to AtKai2 is a putative candidate gene underlying the novel QTL qNT3.1. The other QTLs such as qDFF1.1 governing days to 50% flowering co-localizes with the gene Ghd7, QTL for plant height qPH1.2 co-localizes with the gene sd1, the QTLs for panicle length co-localizes with FUWA and DEP2, the QTL for tiller number co-localizes with OsRLCK57 and QTLs for thousand-grain weight co-localize with the major gene GS3. The QTLs identified in the current study can be effectively used in marker-assisted selection for developing Basmati rice varieties with a higher yield. 相似文献
4.
科农9204是一个兼具高产和氮高效的候选小麦骨干亲本,其遗传背景复杂,携带冀麦38、小偃5号、绵阳75-18、小偃693和矮丰3号的遗传成分。利用221个PCR标记和89个DAr T标记,绘制了科农9204的全基因组基因型图谱。在2DL上,Xmag3596–Xmag4089区段与增加千粒重和籽粒含氮量的QTL紧密连锁;在4BL上,Xcnl10与增加穗粒数、降低株高和穗茎长的QTL紧密连锁;在6BS上,Xcnl113和Xwmc756均与降低株高、穗茎长和穗下节间长的QTL紧密连锁。这些标记在科农9204衍生后代的传递率均为100.0%。利用已报道的关联性标记检测科农9204基因型在衍生后代的传递情况,与增加穗粒数相关的1个优异等位基因位点在衍生后代中的传递率为71.6%;与增加千粒重相关的4个优异等位基因位点的传递率均为100.0%;与根部性状相关的4个基因位点中,3个传递率为100.0%。这些与重要农艺性状相关位点,科农9204基因型在其衍生后代中有很高的传递率,在很大程度上与其对应的优异的农艺性状密不可分。科农9204染色体区段上存在的重要QTL可能是其成为候选骨干亲本的遗传基础。 相似文献
5.
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
6.
大田环境下玉米抗旱相关性状QTL定位 总被引:4,自引:0,他引:4
干旱是世界范围内导致玉米产量损失的主要因素。为了阐明玉米抗旱性的遗传基础并定位相关的数量性状位点,利用抗旱自交系临1和敏感的湘97-7组配160个F2:3家系定位群体,于2011年在湖南省作物研究所和长沙县高桥镇,分别在大田干旱胁迫和正常水分条件下进行表型鉴定。所考察性状包括抽雄至吐丝间隔、株高、千粒重和产量,用抗旱系数来衡量抗旱性。结果表明,110个SSR标记构建连锁图,图谱总长1246.1 cM,标记间平均距离11.33 cM。抗旱相关性状定位的QTL介于8~14个,共检测到43个QTL。单个QTL解释的表型变异为6.27%~18.27%。不同水分条件下定位到的QTL大多数不相同,表明对干旱胁迫的适应存在不同机制。抗旱性相关性状定位到的QTL,除第2和10染色体外,在其它染色体上都有分布,主要集中在第1染色体1.02-03区域和1.06-07区域,以及第3染色体3.04-05区域。第1染色体标记umc2224和bnlg176区间同时检测到与株高、千粒重和产量有关的QTL簇;标记bnlg1556和umc1128区间检测到与抽雄至吐丝间隔和产量有关的QTL簇。第3染色体标记umc1773和umc1311区间同时检测到与株高、千粒重和产量有关的QTL簇。这些QTL簇可能有助于通过分子标记辅助选择的方法提高干旱地区玉米的抗旱性。 相似文献
7.
Twenty-two genotypes of grain sorghum were grown under drought conditions by omitting one irrigation during stages of before flowering period, kernel filling period, and physiological maturity period at Assiut Univ. Farm in 1987 and 1988 seasons. The results obtained revealed that considerable variation existed among genotypes for all the studied traits. The most effective moisture stress treatment in reducing grain yield, panicle weight and plant height was during flowering stage. While 1000-kernel weight was much affected by moisture stress during grain filling period. The genotype x year interaction (σ2 gy ) was large compared to genotype x irrigation treatment (σ2 gl ) indicated that genotypes responded differently when they were grown from year to year. The genotypic variance (σ2 g ) for all traits were large reflecting the importance of genetic variability. Both phenotypic and genotypic correlations among traits showed that plant height and 1000-kernel weight were highly correlated with grain yield, while leaf area index was low associated with plant height. 相似文献
8.
水稻品种魔王谷粒形、剑叶性状和株高QTL定位 总被引:1,自引:0,他引:1
以粳稻魔王谷和籼稻CO39配组衍生的280个重组自交系为材料, 2015年和2016年对其粒形、剑叶形态、株高性状进行了相关性分析和QTL检测。剑叶长分别与粒厚和株高存在极显著负相关和正相关, 剑叶宽与粒宽存在极显著正相关。检测到17个粒形QTL, 分布于第1、第2、第3、第4、第5、第6、第7、第9和第10染色体上, 贡献率为3.51%~48.65%; 其中, 第3染色体RM6080-RM6283区间对粒长和千粒重兼具显著作用, 第5染色体RM8211-RM3381区间同时影响粒宽和粒厚。检测到12个控制剑叶形态性状的QTL, 分布于第1、第3、第4、第6、第7和第9染色体上, 贡献率为4.26%~38.40%; 有5个多效QTL区间, 其中, 第4染色体RM252-SFP4_6区间同时控制剑叶长、剑叶宽、剑叶面积和粒长, 第9染色体RM257-RM3909区间同时影响剑叶面积和粒长。只检测到一个控制株高的QTL, 位于第1染色体的RM6333-RM5536区间, 是一个主效QTL, 贡献率为28.76%。这些结果为进一步开展粒形、剑叶形态、株高基因的精细定位、克隆和分子辅助育种奠定了基础。 相似文献
9.
Anuradha Kotla Surekha Agarwal Venkateswara Rao Yadavalli Vishnu Prasanth Vinukonda V. N. Chakravarthi Dhavala Sarla Neelamraju 《Journal of Crop Science and Biotechnology》2013,16(1):35-44
Yield of popular rice varieties such as Swarna grown in rainfed lowlands and Madhukar grown in flood prone areas needs to be continuously improved. Recombinant inbred lines (RILs) were developed from the cross between two indica cultivars Madhukar and Swarna. QTLs were mapped using 110 markers in 168 RILs. In all, 26 QTLs were mapped for yield and five related traits on chromosomes 1, 2, 3, 6, 7, 8, 10, 11, and 12. QTL for plant height and days to flowering were co-located between RM23147 — RM337 on chromosome 8. RM251, RM314, and RM1135 were significantly associated with plant height and OsYSL17 was significantly linked with grain yield. Epistatic interaction was detected for plant height and number of tillers. Several candidate genes reported for yield and related traits underlie the QTL regions. 相似文献
10.
Genetic loci responding to two cycles of divergent selection for grain yield under drought stress in a rice breeding population 总被引:1,自引:0,他引:1
Molecular marker loci responding to selection under drought stress were monitored in a rice breeding population obtained by
crossing a tolerant parent (Apo) to a susceptible parent (IR64). The 40 highest-yielding lines under stress and non-stress
conditions obtained after two cycles of divergent selection under drought stress and non-stress conditions, respectively were
genotyped using 72 polymorphic and widely distributed SSR markers. Ten loci (RM572, RM6703, RM71, RM3387, RM5686, RM520, RM510,
RM256, RM269 and RM511) showing highly significant allele frequency differences between the two sets were identified. Favorable
alleles at eight of these loci came from the tolerant parent, and at two (RM3387 and RM510) from the susceptible parent (IR64).
Effects of these loci on grain yield were tested in five independent experiments covering a range in soil moisture levels.
Results showed that at six loci (RM572, RM6703, RM520, RM256, RM269, and RM511), Apo alleles had highly significant effects
on grain yield in at least three of the four stress trials but only two of these loci (RM572 and RM511) also affected grain
yield under non-stress conditions. In all these cases, the effects of loci generally increased with stress level. Apo alleles
at these loci seem to enhance yield under stress mainly by increasing harvest index and reducing flowering delay. Large-effect
quantitative trait loci (QTLs) affecting grain yield under upland drought stress have already been found previously in other
populations near RM6703, RM520, and RM511. Thus, these regions appear to be important in explaining genetic variation for
upland drought tolerance in rice. 相似文献
11.
利用DH群体分析水稻产量与蒸煮品质的遗传相关性 总被引:6,自引:0,他引:6
以粳稻农垦57和武运粳8号杂交衍生的DH群体为材,分析了各株系产量和蒸煮品质之间的关系。结果表明,在DH群体中有效穗数、每穗粒数、着粒密度、单株产量与PKV、 HPV、BDV、CPV、SBV、CSV显著或极显著相关,而其他产量性状与品质指标间没有显著的相关关系。利用在亲本间表现多态性的60个SSR标记分析了DH群体各株系的基因型,单标记分析和复合区间作图结果显示,第7染色体上RM234~RM505区间内存在同时控制单株产量、PKV、HPV和CPV的QTL,在第6染色体的RM454~RM162同时存在控制着粒密度、BDV、SBV的QTL。没有发现共同控制单株产量和最能反映蒸煮品质的BDV和SBV的相关QTL。总之,水稻产量和蒸煮品质性状确实存在一定程度的相关性,但通过优化产量构成因子的结构,选择合适的品质性状相关基因可以实现优质与高产的重组,从而培育优质、高产水稻新品种。 相似文献
12.
20份山西糜子种质资源抗旱性综合评价 总被引:6,自引:0,他引:6
为了明确山西省生产上应用的糜子品种抗旱性,对全生育期进行抗旱鉴定,测定不同处理下糜子的株高、穗长、茎粗、穗重、穗粒重、株草重、主茎节数、千粒重、有效穗9个性状。采用主成分分析和逐步回归分析法进行全生育期抗旱综合评价并筛选抗旱指标。结果表明:9个表型性状间存在着一定相关性;穗重和株草重2个指标在正常供水与干旱胁迫处理下变异系数减小最大;农家种黄糜子抗旱性最强(D =0.87),综合抗旱D 值与产量隶属函数值存在显著相关(r =0.5159,P <0.05);穗重和株草重对抗旱性影响显著,可作为生育期抗旱性鉴定综合指标。 相似文献
13.
水稻第2染色体上抗旱相关性状QTL的精细定位 总被引:2,自引:0,他引:2
水资源危机使得水稻抗旱性的遗传与育种研究成为当今的研究热点之一。鉴定与水稻抗旱性直接相关的性状和产量的QTL,可为通过标记辅助选择培育抗旱水稻品种提供标记信息。以从供体IRAT109渗入到珍汕97B背景的269个高代回交渗入系中筛选出覆盖第2染色体目标区段的87个近等基因系为材料,在抗旱鉴定大棚中采用控制式供水,精细定位了水处理(对照)与干旱胁迫条件下影响水稻水分生理及产量相关性状的QTL。共检测到20个影响叶水势(LWP)、冠层温度(CT)、茎基粗(BCT)等性状相关QTL和百粒重(HGW)、每穗颖花数(SN)、着粒密度(SPD)等产量相关QTL。根据在不同环境下的表达情况,将其分为3类,第1类7个QTL,在两种环境下均被检测到;第2类4个,只在对照条件下检测到;第3类2个,分别控制叶水势和颈基粗,受干旱胁迫诱导,只在胁迫条件下被检测到,其中,叶水势定位在RIO02037-RIO02038约8.2 kb的区段上, 其加性效应和贡献率分别为-1.0361和13.03%,增效等位基因来自IRAT109;茎基粗定位在RIO02017-RIO02022约37.7 kb的区段内,加性效应和贡献率分别为0.2682和49.20%,增效等位基因来自珍汕97B。在水、旱2种条件下均检测到的相对稳定的7个QTL及干旱胁迫条件下的2个QTL可能对抗旱性有直接贡献。 相似文献
14.
Root morphology under well-watered conditions sampled on two occasions and under low-moisture stress was studied in a randomly
chosen subset of 56 doubled haploid lines derived from a cross between IR64 and Azucena at two growth stages during the vegetative
stage. A molecular map of the same population served as the basis for locating QTLs controlling root morphology and associated
traits. The region flanking the RFLP markers RZ730 and RZ801 on chromosome 1 were associated with plant height in all three
sampling environments. This position corresponds to sd-1 a semi-dwarfing gene. A total of 15 QTL were detected at the two developmental stages, of which only three QTL were common.
Region flanked by RG157 and RZ318 (chromosome 2) contained QTL for root thickness under two different developmental stages.
In total, 21 QTL for different traits were detected under low-moisture stress condition. While two QTL for plant height on
chromosomes 1 and 3 were common, none of the loci for root morphological traits was common between the two different moisture
regimes. The chromosomal segment between RG171 and RG157 contained QTL controlling tiller number per plant, total root length,
root volume and total root number per plant. Absence of common QTL for root traits between two developmental stages and two
moisture regimes suggests the existence of parallel genetic pathways operating at different growth stages and moisture regimes.
Root volume and total root number per plant decreased significantly under stress, whereas maximum root length and plant height
exhibited non-significant increases under stress.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
15.
以耐旱性差异较大的两个亲本珍汕97B(ZS97B)和IRAT109构建的重组自交系(RIL)为试验材料,在正常水分条件和干旱胁迫[浓度为18%的聚乙二醇-6000(PEG-6000)模拟干旱]条件对水稻苗期苗高、根长、苗高生长速率、根长苗高比、叶卷曲进行QTL定位分析,共检测到24个相关的QTL,贡献率变幅在7.35%~39.30%。其中正常条件下检测到13个相关的QTL位点,分布在第1、2、3、5、6、10、12染色体上;干旱胁迫条件下检测到11个相关的QTL位点,分布在第1、3、5、7、10、12染色体上。2种条件下检测到的QTL位点差异很大,表明不同处理条件下相关性状的遗传机制不同。此外,在第1染色体上的RM472~RM104存在控制苗高、苗高生长速率、根长、根长苗高比多个性状的QTL,并且此区间在2种处理条件下能重复检测到控制苗高位点。 相似文献
16.
Identification and understanding the role of physio-morphological drought responsive mechanisms leading to grain yield enhancement under water stress is a critical insight for designing appropriate strategies to breed drought-tolerant cultivars for any drought prone ecology. In this study, three pairs of contrasting BILs with varied maturity were characterized for several agronomical, physiological and morphological traits across a wide range of moisture stress environments at reproductive stage during 2012–2014. Within each group, BILs differ significantly for grain yield, heading, biomass and harvest index under drought stress, but showed similar yield potential, phenology and other traits under control condition. The most tolerant BIL, S-15 out yielded all BILs and standard checks under both conditions. Apart from superior agronomic performance, drought tolerant BILs maintained significantly higher assimilation rate, transpiration rate and transpiration efficiency compared to susceptible BILs under stress in all three groups. In addition, most tolerant BIL (S-15) showed significantly higher stomatal conductance than susceptible BIL (S-55) in early group. Among root traits, significant differences under stress was observed for root dry weight between contrasting BILs in each group, even though tolerant BILs had higher root length and root volume compared to susceptible BILs, which is non-significant. Hence, consideration of root traits an important strategy for drought avoidance in case of rice may not always contributes to significant yield improvement under moisture stress condition. Further, tolerant BILs also recorded significantly higher shoot dry weight and drought recovery score at seedling stage under stress. Our findings suggest that genotypes with higher photosynthetic efficiency and better plant water status are able to produce higher grain yield under drought stress environments. 相似文献
17.
Temperature and photoperiod fluctuate rapidly in different seasons of the year, and analyzing their effects on rice yield
components is crucial for adaptation of rice under various climatic conditions. To study the effects of seasonal changes on
yield components, 168 recombinant inbred lines derived from a cross between two Oryza sativa L. indica varieties, Zhenshan 97 and Zhongzao 18 were grown for phenotype collection, in three different seasons, within a year. The
results implied that temperatures across the three seasons played a crucial role in determining the trait effects. Spikelets
per panicle (SPP), panicle length (PL) and plant height (PH) traits increased with high temperatures in middle season. Genetic
analysis detected major quantitative trait loci (QTLs) qSPP10, qPL10 and qPH10 for SPP, PL and PH in the interval between markers RM1375 and RM3229 on chromosome 10, in all the three seasons. Two-way
ANOVA showed that genotype by environment and QTL by environment interactions for these traits were highly significant (P < 0.0001). The region with a cluster of QTLs detected in all three seasons could be the preferred target to breeders in developing
rice varieties that can be accustomed to different seasonal changes. 相似文献
18.
Identification of QTLs controlling quantitative characters in rice using RFLP markers 总被引:14,自引:0,他引:14
Summary Segregation of plant height (PH), tiller number (TN), panicle number (PN), average panicle length per plant (PL), average primary branch number per panicle per plant (PBN) and 1000 grain weight (1000G) were specific in an F2 population derived from a cross of Palawan, a tall Javanica variety, and IR42, an Indica semidwarf variety. One hundred and four informative RFLP markers covering all 12 chromosomes were used for detecting putative QTLs controlling the traits. Orthogonal contrasts and interval mapping analysis were used for the analysis. QTL detected for PH on the region of chromosome 1, where semidwarfing gene sd-1 locus is located, seems to be a multiple allelic locus. An additional QTL for PH was identified on chromosome 2. Two QTLs for TN were detected on chromosomes 4 and 12. The QTL on chromosome 4 seemed also to govern the variation in PN. Four QTLs were found for the other traits, two of them for PL were located on chromosomes 6 and 2, one for PBN on chromosome 6 and the other for 1000G on chromosome 1. Additive gene actions were found to be predominant, except one QTL for PH and one QTL for PL, but partial or incomplete dominance also existed for the QTLs detected. 相似文献
19.
灌溉与自然降雨条件下水稻高代回交导入系产量QTL的定位 总被引:5,自引:2,他引:3
利用254个Lemont导入到特青背景的高代回交导入系定位了灌溉(对照)与自然降雨(干旱胁迫)环境下影响单株籽粒产量及其穗部相关性状的QTL。在两种环境下共检测到32个影响单株粒籽产量、千粒重和每穗实粒数的主效QTL,根据不同环境下表达的情况将其分成3类,第1类10个QTL,在两种环境下均被检测到;第2类14个QTL,只在对照条件下检测到;第3类8个QTL,受干旱胁迫诱导,只在胁迫条件下被检测到。此外还检测到9个影响胁迫与对照条件下性状差值的QTL。认为在两种条件下均检测到的相对稳定的3个QTL(QGn11b、QGn12和QGn11b)及影响两种条件下性状差值(即性状稳定性)的9个QTL可能对耐旱性有直接贡献。在所有12个耐旱QTL中,除在QGn5和QGy1的Lemont等位基因减小性状差值(即增强耐旱性)外,其余位点上增强耐旱性的等位基因均来自特青。另外通过与源自相同亲本的不同定位群体在不同环境下定位结果的比较,鉴别出一些受遗传背景和环境影响较小的QTL如QGn3b、QGw1、QGw5、QGy1、QGy5、QGy8和QGy10。对应用QTL定位结果进行标记辅助选择培育耐旱品种进行了探讨。 相似文献
20.
A pollen selection study for drought tolerance using Poly Ethylene Glycol (PEG) as a selective agent was conducted in sorghum.
Ten genotypes of sorghum suitable for post rainy season were crossed to cytoplasmic male sterile line 104A and three genotypes
to 116A producing 13 hybrids. Two sets of 13 hybrids with and without pollen selection were produced. PEG at 36 per cent was
applied to stigma and stylar tissue one hour before pollination for pollen selection (selective fertilization) and no treatment
for control (nonselective fertilization). Hybrids thus produced through selective and non-selective fertilization were tested
in moisture stress environment during post rainy season. The hybrids obtained through selective fertilization produced significantly
higher mean grain yield compared to hybrids obtained through non-selective fertilization. The results indicate that selective
fertilization through in vivo pollen selection using PEG as selective agent was effective in improving moisture stress tolerance of the progeny in sorghum
genotypes studied. Further, the pollen selection also had influence on plant height, panicle length, panicle width, panicle
weight and grain mass. Thus,the pollen selection had a significant effect on grain yield through its components and developmentally
related traits. Pollen selection for osmoticstress tolerance in sorghum influences the growth and vigour of the plants resulting
in superior progeny in moisture stress environment. The analysis of individual crosses indicated that pollen genotype selection
was able to favour performance of the progeny. However, the pollen selection had positive effect in majority of the hybrids
and the study demonstrates the transmission of the selected trait from pollen generation to progeny.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献