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1.
Mapping quantitative trait loci for oil,starch, and protein concentrations in grain with high-oil maize by SSR markers 总被引:3,自引:0,他引:3
J. Zhang X. Q. Lu X. F. Song J. B. Yan T. M. Song J. R. Dai T. Rocheford J. S. Li 《Euphytica》2008,162(3):335-344
The objective of this investigation was to map QTL controlling oil, protein, and starch concentrations in maize grain and
to evaluate their genetic effects. The mapping population included 298 F2:3 family lines containing Beijing high-oil (BHO) maize germplasm. F2 individuals were genotyped with 183 SSR markers to construct a genetic linkage map, which spanned 1,605.7 cM, with an average
interval of 8.77 cM. Oil, protein, and starch concentrations in grain among F2:3 families were measured by near-infrared (NIR) analyzer. Using QTL Cartographer, we mapped six QTL associated with oil in grain,
six associated with protein, and five associated with starch concentrations. The proportion of phenotypic variation explained
by single QTL ranged from 4.34 to 13.13% for oil, from 5.19 to 6.66% for protein, and from 4.14 to 7.85% for starch concentrations.
QTL for oil, protein, or starch concentrations were often detected in identical intervals and the direction of their effects
were consistent with the sign of their phenotypic correlation. They were considered as common QTL for chemical compositions
in maize grain. In this study, we identified three QTL for oil in grain, two QTL for protein, and three QTL for starch concentrations,
which were on identical or similar chromosomal locations to those previously mapped with Illinois high-oil (IHO) maize germplasm.
These suggests that more diverse germplasm should be necessary to detect additional QTL and to discover more favorable alleles
for chemical composition of maize grain. 相似文献
2.
Seed protein and oil contents are important quantitative traits in soybean. Previously, quantitative trait loci (QTL) associated with seed protein and oil were mostly identified in single genetic background. The objective of this work was to identify QTL and their epistatic effects underlying seed protein and oil contents in three recombinant inbred line populations (two of them used one common female parent) across eight environments by composite interval mapping. Forty QTL underlying protein content and 35 QTL underlying oil content were identified. Among them, nine were universal QTL underlying protein content and four were universal QTL underlying oil content. Epistatic interactions between QTL underlying seed protein/oil and different genetic backgrounds were detected. Different pairs of epistatic interactions were observed in diverse genetic backgrounds across multi‐environments. Common marker intervals were observed to simultaneously underlie seed protein and oil contents with different epistatic interactions. The results in this study suggested that a specific genotype with high oil content and low protein content might significantly affect the selection of soybean lines for high seed protein. 相似文献
3.
Dent corn genetic background influences QTL detection for grain yield and yield components in high-oil maize 总被引:3,自引:0,他引:3
Despite the well-recognized importance of grain yield in high-oil maize (Zea mays L.) breeding and production, few studies have reported the application of QTL mapping of such traits. An inbred line of high-oil
maize designated ‘GY220’ was crossed with two dent maize inbred lines to generate two connected F2:3 populations with 284 and 265 F2:3 families. Our main objective was to evaluate the influence of genetic background on QTL detection of grain yield traits through
comparisons between the F2:3 populations. The field experiments were conducted during the spring in Luoyang and summer in Xuchang, Henan, China. Two genetic
linkage maps were constructed with a genetic distance of 2111.7 and 2298.5 cM using 185 and 173 polymorphic SSR markers, respectively.
In total, 18 and 15 QTL were detected for six grain yield traits in the two populations. Only one common QTL marker was shared
between the two populations. A QTL cluster associated with five traits was identified at bin 1.05–1.06, including the shared
QTL for 100GW, which demonstrated the largest effect (16.7%). Among the detected QTL, 12 digenic interactions were identified.
Our results reflect the substantial influence of dent maize genetic background on QTL detection of grain yield traits. 相似文献
4.
Dissection of the genetic architecture for grain quality‐related traits in three RIL populations of maize (Zea mays L.) 
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下载免费PDF全文 Zhiyong Wang Na Liu Lixia Ku Zhiqiang Tian Yong Shi Shulei Guo Huihui Su Liangkun Zhang Zhenzhen Ren Guohui Li Xiaobo Wang Yuguang Zhu Jianshuang Qi Xin Zhang Yanhui Chen 《Plant Breeding》2016,135(1):38-46
To manipulate the composition of the maize kernel to meet future needs, an understanding of the molecular regulation of kernel quality‐related traits is required. In this study, the quantitative trait loci (QTL) for the concentrations of grain protein, starch and oil were identified using three sets of RIL populations in three environments. The genetic maps and the initial QTL were integrated using meta‐analyses. A total of 38 QTL were identified, including 15 in population 1, 12 in population 2 and 11 in population 3. The individual effects ranged from 2.87% to 13.11% of the phenotypic variation, with seven QTL each contributing over 10%. One common QTL was found for the concentrations of grain protein and starch in bin 3.09 in the three environments and the three RIL populations. Of the 38 initial QTL, 22 were integrated into eight mQTL by meta‐analysis. mQTL3 and mQTL8 of the key mQTL in which the initial QTL displayed R2 > 10% included six and three initial QTL for grain protein and starch concentrations from two or three populations, respectively. These results will provide useful information for marker‐assisted selection to improve the quality of the maize kernel. 相似文献
5.
利用种子性状QTL定位高油玉米淀粉含量QTL 总被引:2,自引:0,他引:2
以普通玉米自交系8984与高油玉米自交系GY220为亲本组配得到284个F2:3家系群体,利用185个SSR标记构建玉米遗传连锁图谱。通过包含母体效应的种子性状QTL作图方法对玉米籽粒淀粉含量进行QTL定位和效应分析,共检测到7个与淀粉含量相关的QTL,分别位于第5,8,10染色体上,除qSTA8-3的遗传作用方式表现为加性外,其余QTL作用方式为部分显性。单个QTL贡献率为5.87%~10.93%,累计贡献率为53.37%。所有QTL的增效基因均来自普通玉米亲本8984。淀粉含量QTL qSTA5-2贡献率较大,可以作为进一步精细定位的主要目标QTL。 相似文献
6.
基于多重相关RIL群体的玉米株高和穗位高QTL定位 总被引:6,自引:0,他引:6
株高和穗位高是玉米育种中的重要农艺性状。本研究利用我国玉米育种中骨干亲本黄早四与来自不同杂种优势群的其他11个骨干自交系组配11个RIL群体,开展基于单环境、联合环境的QTL分析,分别检测到269个和176个QTL。通过区段整合,检测到21个株高主效QTL及15个穗位高主效QTL,这些QTL分布在第1、第2、第3、第6、第7、第8、第9、第10染色体上。相对于共同亲本黄早四而言,部分QTL在不同RIL群体中的效应方向一致,来自共同亲本黄早四的等位基因在不同群体中能够稳定地表达。同时,还分别定位到在多环境下稳定表达的5个株高、4个穗位高“环境钝感QTL”。此外,进一步鉴定出5个重要的株高和穗位高QTL富集区段(bin 1.01-1.02,1.08-1.11,3.05,8.03-8.05和9.07),这些区段均包含多个株高和穗位高相关QTL,如bin3.05位点包含7个QTL,bin8.03-8.05位点分别包含9个QTL,且这些QTL至少在3个不同环境中能够被检测到,这些区域对QTL的精细定位和克隆有重要参考价值。 相似文献
7.
Z. H. Liu H. L. Xie G. W. Tian S. J. Chen C. L. Wang Y. M. Hu J. H. Tang 《Plant Breeding》2008,127(3):279-285
A set of 213 F2:3 families were used to investigate the effects of nitrogen (N) on grain yield and the concentrations of three nutrient components in maize (Zea mays L.) kernels. A genetic linkage map was constructed using 189 SSR (simple sequence repeat) markers, spanning a total of 2003 cM, including 11 linkages, and the families were evaluated under high N and low N conditions at two farm locations. The results indicate that low N conditions may induce an increase in starch concentration, but a decrease in protein levels. Twenty‐six quantitative trait loci (QTL) were detected for four measured traits in the two N treatments at both locations, including eight QTL for grain yield, seven QTL for oil content, six QTL for protein content and five QTL for starch content. The total number of QTL detected for the four measured traits under high N levels was greater than the QTL detected under low N conditions, and several QTL were identified that specifically expressed under different N conditions. These particular QTL could help provide greater understanding of the genetic basis of N‐usage efficiency. 相似文献
8.
Gustavo Vitti Môro Mateus Figueiredo Santos Dyeme Antônio Vieira Bento Aurélio Mendes Aguiar Cláudio Lopes de SouzaJr. 《Euphytica》2012,185(3):419-428
Oil content and grain yield in maize are negatively correlated, and so far the development of high-oil high-yielding hybrids
has not been accomplished. Then a fully understand of the inheritance of the kernel oil content is necessary to implement
a breeding program to improve both traits simultaneously. Conventional and molecular marker analyses of the design III were
carried out from a reference population developed from two tropical inbred lines divergent for kernel oil content. The results
showed that additive variance was quite larger than the dominance variance, and the heritability coefficient was very high.
Sixteen QTL were mapped, they were not evenly distributed along the chromosomes, and accounted for 30.91% of the genetic variance.
The average level of dominance computed from both conventional and QTL analysis was partial dominance. The overall results
indicated that the additive effects were more important than the dominance effects, the latter were not unidirectional and
then heterosis could not be exploited in crosses. Most of the favorable alleles of the QTL were in the high-oil parental inbred,
which could be transferred to other inbreds via marker-assisted backcross selection. Our results coupled with reported information
indicated that the development of high-oil hybrids with acceptable yields could be accomplished by using marker-assisted selection
involving oil content, grain yield and its components. Finally, to exploit the xenia effect to increase even more the oil
content, these hybrids should be used in the Top Cross™ procedure. 相似文献
9.
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
10.
Quantitative trait loci mapping for yield components and kernel-related traits in multiple connected RIL populations in maize 总被引:2,自引:0,他引:2
Chunhui Li Yongxiang Li Baocheng Sun Bo Peng Cheng Liu Zhizhai Liu Zhaozhao Yang Qingchao Li Weiwei Tan Yan Zhang Di Wang Yunsu Shi Yanchun Song Tianyu Wang Yu Li 《Euphytica》2013,193(3):303-316
Grain yield is one of the most important and complex quantitative traits in maize breeding. In the present study, a total of 11 connected RIL populations, derived from crosses between elite inbreed “Huangzaosi” as the common parent and 11 elite inbreeds, were evaluated for five yield components and kernel-related traits under six environments. Quantitative trait loci (QTL) were detected for the traits under each environment and in joint analysis across all environments for each population. A total of 146 major QTL with R2 > 10 % in at least one environment and also detected based on joint analysis across all environments were identified in the 11 populations. Lqkwei4 conferring kernel weight and Lqklen4-1 conferring kernel length both located in the adjacent marker intervals in bin 4.05 were stably expressed in four environments and in joint analysis across six environments, with the largest R2 over 27 and 24 % in a single environment, respectively. Moreover, all major QTL detected in the 11 populations were aligned on the IBM2 2008 neighbors reference map. Totally 16 common QTL (CQTL) were detected. Seven important CQTL (CQTL1-2, CQTL1-3, CQTL4-1, CQTL4-2, CQTL4-3, CQTL4-4, and CQTL6-1) were located in bin 1.07, 1.10, 4.03, 4.05, 4.08, 4.09 and 6.01–6.02, respectively. These chromosomal regions could be targets for fine mapping and marker-assisted selection. 相似文献
11.
基于多个相关群体的玉米雄穗相关性状QTL分析 总被引:5,自引:0,他引:5
雄穗相关性状对玉米生产至关重要。为了解析玉米雄穗相关性状的遗传机制,利用以黄早四为共同亲本组配的11个重组自交系群体,对玉米雄穗一级分枝数、雄穗主轴长和雄穗干重3个性状进行QTL分析。经过对11个群体及亲本两年三点的田间鉴定,单环境和联合环境下的玉米雄穗相关性状QTL定位,及基因型与环境互作和上位性互作分析,检测到15个在多环境下稳定表达(5个环境以上)的“环境钝感”主效QTL,其中,在染色体bin3.04区域,齐319群体和旅28群体中都定位到1个主效雄穗一级分枝数相关QTL,其平均贡献率分别为17.4%和14.4%,并且2个群体的QTL标记区间高度重叠,在IBM2008 Neighbors图谱上的重叠区间为226.0~230.1。对比不同群体结果发现,在2个群体以上都能检测到的一致性区间21个,其中在第2、第3、第6、第8染色体上的5个一致性区间在3个群体中可稳定表达。这些多环境和多个遗传背景下稳定表达的位点可作为玉米雄穗性状分子标记辅助选择、精细定位及基因克隆的候选位点。 相似文献
12.
玉米籽粒中花色苷和黑色素含量的QTL分析 总被引:2,自引:0,他引:2
花色苷和黑色素是黑玉米籽粒中重要而有益的化学成分,深入开展其QTL定位研究,对于色素相关基因的克隆与转化和分子标记辅助育种,具有重要的理论意义和应用价值。本文利用一个黑玉米自交系SDM为共同父本,分别与白玉米自交系木6和黄玉米自交系Mo17杂交,构建2个相关F2:3群体(分别缩写为WD和YD),对玉米籽粒中花色苷含量(ACK)和黑色素含量(MCK)进行QTL分析。结果表明,黑玉米SDM籽粒中的花色苷和黑色素含量均极显著高于木6和Mo17,2种色素含量间呈极显著正相关。2个群体中共检测到17个色素相关的QTL,其中与花色苷含量相关的QTL在2个群体中各4个,分布在第4、第6、第7和第10染色体上,与黑色素含量相关的QTL在WD和YD群体中分别为4个和5个,分布在第1、第2、第6、第7和第10染色体上。2个群体检测到QTL的数量、分布和对表型的贡献率均高度一致,而且解释花色苷含量和黑色素含量变异大的QTL在2个群体中均有成簇分布的现象,主要表现在bin 6.04处的标记区间umc1796~mmc2006内和bin 10.04处的标记区间umc2043~bnlg1028内,分别解释表型变异的12.7%~21.3%和8.6%~21.3%。它们可能是一因多效的同一QTL或者是在该区段内紧密连锁的不同QTL。上位性分析表明,2个群体中检测到的上位性QTL的数量、位置和对表型的贡献率差别均较大,WD群体的上位性效应明显大于YD群体,说明上位性效应对遗传背景更加敏感,需要进一步深入研究贡献率大的上位性QTL及其利用。 相似文献
13.
QTL for maize grain yield identified by QTL mapping in six environments and consensus loci for grain weight detected by meta‐analysis 下载免费PDF全文
下载免费PDF全文 Limei Pan Zengqi Yin Yaqun Huang Jingtang Chen Liying Zhu Yongfeng Zhao Jinjie Guo 《Plant Breeding》2017,136(6):820-833
Grain yield is the most important and complicated trait in maize. In this study, a total of 498 recombinant inbred lines (RIL) derived from a biparental cross of two elite inbred lines, 178 and P53, were grown in six different environments. Quantitative trait locus (QTL) mapping was conducted for three grain yield component traits (100 grain weight, ear weight and kernel weight per plant). Subsequently, meta‐analysis was performed after a comprehensive review of the research on QTL mapping for grain weight (100, 300 and 1000) using BioMercator V4.2. In total, 62 QTLs were identified for 100 grain weight, ear weight and kernel weight per plant in six environments. Forty‐three meta‐QTLs (MQTLs) were detected by meta‐analysis. A total of 13 candidate genes homologous to eight functionally characterized rice genes were found, and four candidate genes were located in the two hot spot regions of MQTL1.5 and MQTL2.3. Our results suggest that the combination of literature collection, meta‐analysis and homologous blast searches can offer abundant information for further fine mapping, marker‐assisted selection (MAS) breeding and map‐based cloning for maize. 相似文献
14.
Hongni Qin Yilin Cai Zhizhai Liu Guoqiang Wang Jiuguang Wang Ying Guo Hui Wang 《Euphytica》2012,187(3):345-358
To provide theoretical and applied references for biofortification of maize by increasing Zn and Fe concentration, the correlation and quantitative trait loci (QTL) of four mineral-related traits, i.e. zinc concentration of kernel (ZnK), zinc concentration of cob (ZnC), iron concentration of kernel (FeK) and iron concentration of cob (FeC) were studied for two sets of F2:3 populations derived from the crosses Mu6 × SDM (MuS) and Mo17 × SDM (MoS) under two different environments (CQ and YN). The parental lines were very different in Zn and Fe concentration of kernels and cobs. A large genetic variation and transgressive segregation of two F2:3 populations were observed for the four traits. The heritability of FeK was relatively lower (<0.6) than other three traits (>0.7). Analysis for each environment and joint analysis across two environments were used to identify QTL for each population. 16 and 15 QTL were identified in CQ and YN respectively via single environment analysis, some of which were identical in different environments and were also detected in joint analysis. The common regions for same trait at different environments were 3 and 5 in MuS and MoS respectively. Compared with the IBM2 2008 Neighbors Frame6, the distribution and effect of some QTL in two populations were highly consistent and many QTL on chromosome 2, 7 and 9 were detected in both populations. Moreover, several mineral QTL co-localized with each other for both populations such as the QTL for ZnK, ZnC, FeK and FeC on chromosome 2, QTL for Znk, FeK and FeC on chromosome 9 and QTL for ZnK and ZnC on chromosome 7, which probably were closely linked to each other, or were the same pleiotropic QTL. 相似文献
15.
干旱胁迫对玉米产量及其相关性状有重要影响。本研究以我国玉米育种骨干亲本齐319和掖478分别和黄早四组配构建的两个F2:3群体为材料,应用逐步联合分析的QTL定位方法,剖析新疆不同水分环境下(包含水区和旱区)玉米产量构成因子及籽粒相关性状的遗传基础。结果表明,在相同水分处理不同年份间产量构成因子和籽粒相关性状超过70%的QTL可稳定表达,旱区QTL的稳定性明显低于水区,当全部环境联合分析时,各性状QTL稳定性呈现一定程度的降低,但超过60%的QTL仍然稳定表达。两群体中共检测到11个环境钝感的主效QTL(在2个以上环境中检测到,且至少在一个环境下的贡献率大于10%),分布在bin1.10、2.00、4.09、7.02、9.02、10.04和10.07共7个基因组区段上,除bin10.04外所有环境钝感的主效QTL在全部环境下稳定表达。因此,玉米产量构成因子和籽粒相关性状的QTL在新疆相同水分处理不同年份间,甚至不同水分条件下大部分均可稳定表达,这些主效QTL位点可为抗旱分子育种和进一步精细定位提供参考。 相似文献
16.
Pengfei Leng Milena Ouzunova Matthias Landbeck Gerhard Wenzel Thomas Lübberstedt Birte Darnhofer Joachim Eder 《Plant Breeding》2019,138(5):524-533
Improving maize starch content is of great importance for both forage and grain yield. In this study, 13 starch degradability traits were analysed including percentage of the seedling area, floury endosperm, hard endosperm of total grain area, percentage of the floury endosperm surface and vitreousness ratio surface hard: floury endosperm surface, etc. We mapped quantitative trait loci (QTL) in a biparental population of 309 doubled haploid lines based on field phenotyping at two locations. A genetic linkage map was constructed using 168 SSR (simple sequence repeat) markers, which covered 1508 cM of the maize genome, with an average distance of 9.0 cM. Close phenotypic and genotypic correlations were found for all traits, and were all statistically significant (p = 0.01) at two locations. Major QTL for more than two traits were detected, especially in two regions in bins 4.05–4.06 and 7.04–7.05, associated with 13 and 9 traits, respectively. This study contributes to marker‐assisted breeding and also to fine mapping candidate genes associated with maize starch degradability. 相似文献
17.
8种水旱环境下2个玉米群体穗部性状QTL间的上位性及环境互作效应分析 总被引:1,自引:0,他引:1
深入剖析干旱胁迫条件下玉米穗部性状的遗传机制可为玉米抗旱高产分子育种提供参考依据。以大穗型旱敏感自交系TS141为共同亲本,分别与小穗型强抗旱自交系廊黄和昌7-2杂交,构建了含有202个(LTPOP)和218个(CTPOP)家系的F2:3群体,在8种水旱环境下进行单穗重、穗轴重、穗粒重、百粒重、出籽率及穗长等6个穗部性状的表型鉴定,并采用复合区间作图法(CIM)和基于混合线性模型的复合区间作图法(MCIM)对其进行单环境和多环境联合数量性状位点(QTL)分析。结果表明,采用CIM法,单环境下在2套F2:3群体间检测到62个穗部性状QTL,其中干旱胁迫环境下检测到38个QTL,进一步在2套F2:3群体多个干旱胁迫环境下检测到10个稳定表达的QTL (sQTL),分别位于Bin 1.01–1.03、Bin 1.03–1.04、Bin 1.05、Bin 1.07、Bin 1.07–1.08、Bin 2.04、Bin 4.08、Bin 5.06–5.07、Bin6.05和Bin 9.04–9.06。采用MCIM法,联合分析定位到54个穗部性状联合QTL,其中24个表现显著的QTL与环境互作(QTL×E), 17对参与了显著的加性与加性/显性(AA/AD)上位性互作,其表型贡献率较低。这些研究结果可为系统地剖析玉米穗部性状的分子遗传机制提供理论依据;且这2套F2:3群体多个环境下检测到的sQTL可作为穗部性状改良的重要候选染色体区段,用于图位克隆或抗旱高产分子育种,但要注重环境及上位性互作效应的影响。 相似文献
18.
利用汕优63重组自交系与双亲回交产生的BC1F1和BC2F1群体,采用新发展的包括环境互作效应在内的多遗传体系QTL作图方法和基因定位软件,对稻米两种半必需氨基酸(组氨酸和精氨酸)进行三倍体胚乳和二倍体母体植株等不同遗传体系的QTL定位分析。共检测到10个控制组氨酸含量的QTL以及8个控制精氨酸含量的QTL。全部QTL均具有极显著的三倍体胚乳和二倍体母体植株基因的加性主效应,其中4个QTL具有显著或极显著的三倍体胚乳显性主效应,7个QTL还具有明显的环境互作效应。 相似文献
19.
大豆油分含量相关的QTL间的上位效应和QE互作效应 总被引:6,自引:1,他引:5
利用Charleston × 东农594重组自交系构建的SSR遗传图谱, 及混合线性模型方法对2002年到2006年连续5年的大豆油分含量进行QTL定位, 并作加性效应, 加性×加性上位互作效应及环境互作效应分析。共检测到11个控制油分含量的QTL, 分别位于第A1、A2、B1、C2、D1a、D1b、F、H和O连锁群上, 其中2个表现为遗传正效应, 9个表现为遗传负效应, 另检测到15对影响油分含量的加性×加性上位互作效应的QTL, 解释该性状总变异的17.84%。发现9个QTL与环境存在互作, 贡献率达到5.76%。 相似文献
20.
玉米抗穗粒腐病QTL定位 总被引:5,自引:0,他引:5
用已构建的包括88个AFLP标记和151个SSR标记的遗传图谱和230个F2植株用于抗病QTL定位研究,在四川雅安、绵阳对F2株系进行抗病性鉴定,采用复合区间定位法进行抗病QTL检测。在雅安检测到位于第2、3、4、6和9染色体上的抗病QTL 6个,解释表型变异的8.3%~25.7%;在绵阳检测到位于第1、6、7和9染色体上的抗病QTL 4个,解释表型变异的11.3%~26.4%。在10个抗病QTL中,位于第6和第9染色体上的2个同时在两点被检测到,贡献率均超过15%,表明玉米穗粒腐病确实存在遗传抗病性。利用2个环境抗病指数的平均值进行抗性QTL检测,共检测到位于第1、6和7连锁群上的3个抗性QTL,单个QTL的贡献率在8.9%~17.2%之间。结果有助于了解玉米穗粒腐病的抗性机制,并为分子标记辅助选择提供理论支撑。 相似文献