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1.
利用“永久F2”群体进行小麦幼苗根系性状QTL分析 总被引:5,自引:1,他引:4
为了研究小麦苗期根系性状的遗传,以小麦品种花培3号和豫麦57的杂交DH群体组配了一套含168个杂交组合的“永久F2”群体。利用WinRHIZO根系分析系统测定四叶一心期小麦水培幼苗根系总长度、直径、表面积、体积、根尖数、最大根长、茎叶干重、根干重及根茎干重比9个性状。采用复合区间作图法分析幼苗根系8个性状的QTL,定位了7个加性效应QTL和12对上位性互作QTL,包括加性效应、显性效应,加加互作、加显互作和显显互作,分布在1A、1D、2A、2B、2D、3A、3B、5D、6D和7D染色体上,单个QTL可解释0.01%~11.91%的遗传变异。在染色体2D上XWMC41至XBARC349.2区间检测到同时控制总根长和根干重的一个QTL。上位性对苗期根系生长发育有重要作用。试验结果表明,苗期根系性状的遗传机制较复杂, 因此在育种中要综合考虑根系各性状之间的关系,保证根系协调统一、发达健壮。 相似文献
2.
小麦胚芽鞘长、幼苗根长的QTL定位 总被引:2,自引:0,他引:2
小麦品种花培3号和豫麦57构建的DH群体的168个株系及亲本为材料,在正常发芽和20%PEG-6000模拟水分胁迫处理条件下测定小麦幼苗的胚芽鞘长、根长。利用完备区间作图法分析幼苗胚芽鞘长、幼根长的QTL。两种处理条件下共定位了8个控制胚芽鞘长加性QTL,其中位于染色体2A、4B和4D上的QCl2A、QCl4B和QCl4D在两种处理条件下均被检测到,可解释6.10%~16.31%的表型变异。两种条件下共定位了10个控制幼根长加性QTL,其中位于染色体6A上Xgwm82和Xwmc553区间的QRl6A在两种处理下均被检测到,可分别解释8.26%和9.74%的表型变异。在检测到的18对控制胚芽鞘长、根长的上位性互作位点中,大多数互作属于非等位QTL间的非加性QTL位点之间互作。因此在小麦材料的早期抗旱性筛选、分子育种时要同时考虑加性QTL和非加性QTL位点间的上位性互作。 相似文献
3.
大豆蛋白质含量相关QTL间的上位效应和QE互作效应 总被引:11,自引:1,他引:10
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—2006连续5年的大豆蛋白质含量进行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10个控制蛋白质含量的QTL,分别位于第B2、C2、D1a、E和N连锁群,其中1个表现为遗传正效应,9个表现为遗传负效应,另检测到15对影响蛋白质含量的加性×加性上位互作效应的QTL,解释该性状总变异的13.75%。环境互作检测中,发现9个QTL与环境存在互作,贡献率达到4.47%。 相似文献
4.
利用高密度SNP 遗传图谱定位小麦穗部性状基因 总被引:4,自引:2,他引:2
小麦穗部性状之间相关性密切, 其中穗粒数和千粒重是重要的产量构成要素, 挖掘与穗部性状相关联的基因位点对分子标记辅助育种及解释基因效应具有重要意义。本研究以RIL群体(山农01-35×藁城9411) 173个F8:9株系为材料, 利用90 k小麦SNP基因芯片、DArT芯片技术及传统的分子标记技术构建的高密度遗传图谱, 在5个环境下进行穗部相关性状QTL定位。检测到位于1B、4B、5B、6A染色体上7个控制千粒重的加性QTL, 解释表型变异率6.00%~36.30%, 加性效应均来自大粒母本山农01-35; 检测到8个控制穗长的加性QTL, 解释表型变异率14.34%~25.44%; 3个控制穗粒数的加性QTL; 5个控制可育小穗数的加性QTL; 3个控制不育小穗数的加性QTL, 贡献率为8.70%~37.70%; 4个控制总小穗数的加性QTL; 6个控制小穗密度的加性QTL。通过基因型与环境互作分析, 检测到32个加性QTL, 解释表型变异率0.05%~1.05%。在4B染色体区段EX_C101685–RAC875_C27536检测到控制粒重、穗长、穗粒数、可育小穗数、不育小穗数、总小穗数的一因多效QTL,其贡献率为5.40%~37.70%, 该位点在多个环境中被检测到, 是稳定主效QTL。在6A染色体wPt-0959-TaGw2-CAPS区间上检测到控制粒重、总小穗数的QTL。研究结果为穗部性状的分子标记开发、基因精细定位和功能基因克隆奠定了基础。 相似文献
5.
不同水分胁迫下小麦胚芽鞘和胚根长度的QTL分析 总被引:2,自引:0,他引:2
小麦胚芽鞘和胚根在不同渗透溶液下的长度变化是鉴评小麦幼苗抗逆性的重要指标。以小麦花培3号×豫麦57的DH株系衍生的含168个组合的永久F2 (immortalized F2, IF2)群体为材料,在蒸馏水(正常条件)以及10%、20%和30%聚乙二醇(PEG-6000)模拟水分胁迫处理下,进行胚芽鞘长和胚根长度的数量性状基因(QTL)定位分析。利用完备区间作图法,共检测到影响胚芽鞘和胚根长度的23个QTL,单个QTL对表型的贡献率为4.93%~35.37%。位于4B染色体区间Xcfd39.2–Xcfd22.2上影响胚芽鞘长度的位点QCl4B,具有最大的遗传效应,贡献率为35.37%;在3D染色体Xcfd223–Xbarc323区段,正常条件和20% PEG-6000处理下同时检测到影响胚芽鞘长度的QTL,QCl3D-a,其贡献率分别为7.83%和11.74%。另外,在10% PEG-6000处理下,3D染色体上的相近区域还定位出了影响胚芽鞘长度的QCl3D-b位点;在染色体1A和染色体5A1上各检测出与胚根长度有关的2个和3个不同的QTL;在6D染色体Xswes679.1–Xcfa2129和Xwmc412.1–Xcfd49区间分别检测到2个影响胚芽鞘长度和胚根长度的QTL。这些主效QTL可用于胚芽鞘和根系的分子标记辅助选择。 相似文献
6.
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
7.
利用永久F2群体定位小麦株高的QTL 总被引:3,自引:0,他引:3
为研究小麦株高的遗传机制,利用DH群体构建了一套包含168个杂交组合的小麦永久F2群体, 并于2007年种植于山东泰安和山东聊城。构建了一套覆盖小麦21条染色体的遗传连锁图谱并利用该图谱的324个SSR标记对小麦株高进行QTL定位研究,使用基于混合线性模型的QTLNetwork 2.0软件进行QTL分析。在永久F2群体中定位了7个株高QTL,包括4个加性QTL,一个显性QTL,一对上位性QTL,共解释株高变异的20%,其中位于4D染色体的qPh4D,具有最大的遗传效应,贡献率为7.5%;位于2D 染色体显性效应位点qPh2D,可解释1.6%的表型变异;位于5B~6D染色体上位效应位点,可解释1.7%的表型变异。还发现加性效应、显性效应和上位效应对小麦株高的遗传起重要作用,并且基因与环境具有互作效应,结果表明利用永久F2群体进行QTL定位研究的方法有助于分子标记辅助育种。 相似文献
8.
以国际小麦作图组织提供的W7984×Opata85重组近交群体为材料,将白粉病抗性分解为互作早期不同时间点的乳突指数、乳突级别、吸器指数和二级菌丝指数等成分性状,在成分性状鉴定和统计的基础上,进行遗传分析和相关QTL定位。白粉菌侵染早期乳突指数和吸器指数随时间的变化趋势均受主效单基因的调控。数量性状分析共找到34个与抗白粉病相关的QTL (21个主效QTL),分布于小麦1B、1D、2B、3A、3B、3D、4A、4B、4D、5B、6A、6B、6D、7B和7D染色体上。位于7B染色体上的QTL(QPmPI16.tn-7B)对乳突形成的影响极为显著,贡献率达48.7%,促进乳突形成的等位变异来自Opata85。不同成分性状存在共定位的QTL。成分性状的特异QTL提供了更多的有关抗白粉病遗传机制信息。 相似文献
9.
小麦DH群体穗下节间直径、茎壁厚及茎壁面积的QTL定位 总被引:3,自引:0,他引:3
由小麦品种花培3号和豫麦57杂交获得168个DH株系,连续两年在山东泰安种植,利用324个SSR标记构建遗传连锁图谱,并基于混合线性模型对控制穗下节间直径、茎壁厚及茎壁面积的QTL遗传效应和环境互作效应进行分析。共检测到10个加性效应位点和6对上位效应位点,其中3个加性位点参与环境互作效应。检测到位于染色体2D、3D和5D(2个)控制穗下节间直径的4个加性QTLs,与控制茎壁厚的3个加性位点相同或相邻,表现出一因多效或紧密连锁效应。两个位于染色体2D和5D控制茎壁厚和茎壁面积QTL有较大遗传贡献率,分别为11.37%和10.98%,适用于分子标记辅助育种和聚合育种。6对上位性效应遗传贡献率较小、无环境互作效应。 相似文献
10.
籼稻落粒性QTL定位与环境互作效应检测 总被引:5,自引:0,他引:5
利用珍汕97B/密阳46所构建的RIL群体(ZM-RIL)及其相应分子遗传图谱,在海南和杭州两地试验,以稻穗下落法测得落粒率(%)为指标,进行两地数据QTL联合分析。结果表明,ZM-RIL群体的不同株系在两地间落粒率变化很大。在海南,该性状呈近似正态分布;在杭州,则呈明显偏态分布。试验共检测到7个主效应QTL,位于第1、2、3(2个)、6、7和11等6条染色体上,每个QTL影响落粒率的加性效应均不大,其幅度为1.7%~3.9%,共解释群体落粒性性状变异的8.53%。其中,有3个主效应QTL(qSH3-1、qSH3-2和qSH6)存在显著的GE互作,它们均使海南增加落粒率和杭州降低落粒率,且GE总贡献率几乎接近加性效应总贡献率,表明GE互作对落粒率具有重要影响。此外,试验还检测到5对上位性互作QTL,这些互作共解释群体落粒性性状变异的3.39%,单个互作的贡献率为0.47%-0.85%,未检测到上位性与环境的显著互作。 相似文献
11.
采用室内盆栽接种法,测定了全蚀病菌?禾顶囊壳小麦变种对小麦初生根与次生根的侵染性。结果表明,小麦初生根易感全蚀病菌,是禾顶囊壳小麦变种的主要侵染部位,而次生根相对抗病,其发病轻重与次生根的生理年龄和小麦品种的抗病性有关。小麦8793-8较76120抗禾顶囊壳小麦变种的侵染。 相似文献
12.
A. H. Abdel-Ghani 《Journal of Agronomy and Crop Science》2009,195(1):55-65
This study was carried out to determine the effects of salinity levels (control, 6, 12 and 18 dS m?1) on germination, seedling growth, some agronomic traits and proline accumulation in leaves of nine wheat varieties adapted to semi‐arid areas of Jordan. The tested wheat materials included eight durum wheat varieties (Haurani 27, Acsad 65, Om Rabbeeh, Sham 1, Safra Ma’an, Katma, Al‐Samra and F8) and one bread wheat variety (Diel Harthon). Final germination percentage, shoot and seminal root length, and all growth and yield parameters were significantly (P < 0.05) decreased by increasing salinity level. Proline content was significantly (P < 0.05) increased by increasing salinity. There were significant variety × salt interactions (P < 0.05) on final germination percentage, seminal root length, grain yield and yield‐related traits indicating that the varieties responded to salt differently. Sham 1 did not show any decrease in germination ability at the different salinity levels. Haurani 27, Acsad 65, Al‐Samra and Diel Harthon showed a nonsignificant reduction in germination potential at low and intermediate salt levels. Safra Ma’an and Al‐Samra showed the lowest reduction in seminal root length at low salt level and consequently exhibited the lowest stress susceptibility index ‘S’ values. Grain yield‐based stress susceptibility index ‘S’ indicated that Haurani 27, Acsad 65, Katma, Al‐Samra, F8 and Diel Jardoon were more salt tolerant than Om Rabbeeh, Sham 1 and Safra Ma’an. In conclusion, a similar salt tolerance was observed at different growth stages in Haurani 27, Acsad 65 and Al‐Samra. Consequently, these three varieties could be considered as salt tolerant and accordingly they are suitable for durum wheat improvement. Furthermore, Sham 1 had the highest ability to germinate at high salinity level indicating that it has a genetic potential for salt tolerance, at least at this stage of its life cycle. 相似文献
13.
K. Kubo I. Elouafi N. Watanabe M. M. Nachit M. N. Inagaki K. Iwama Y. Jitsuyama 《Plant Breeding》2007,126(4):375-378
Increasing root penetration (RP) ability into hard soil is important to improve drought resistance in durum wheat. Traits related to RP ability were evaluated in 110 recombinant inbred lines (RILs) derived from a cross between 'Jennah Khetifa' and 'Cham1' using paraffin-Vaseline (PV) discs. QTL analyses were made for the number of roots penetrating the PV disc (PVRN), total number of seminal and crown roots (TRN), RP index (PVRN/TRN) and root dry weight (DW). 'Jennah Khetifa' had higher PVRN, RP index and root DW values than 'Cham1', and the RILs showed significant differences for these traits. Two closely-linked markers, Xgwm617a and Xgwm427b , on the long arm of chromosome 6A were associated with PVRN and RP index. For root DW, a QTL was linked to marker Xgwm11 on chromosome 1B. Alleles of 'Jennah Khetifa' were associated with increased PVRN, RP index and root DW. No QTL was detected for TRN in this mapping population. The absence of co-located QTLs suggested that RP ability was controlled separately from TRN and root DW. Although the population size and number of replications were small, this study helps in understanding the complexity of root growth and the potential of marker-assisted selection for selecting genotypes with high RP ability in durum wheat populations. 相似文献
14.
Root growth of seedlings of old and new winter wheat cultivars and a spelt wheat at varying levels of nitrogen
Root growth of five old (time period 1882–1920) and five new (time period 1975–1982) winter wheal cultivars and a spelt winter wheat cultivar was investigated in two greenhouse trials. Nitrogen (NH4 NO3 ) was supplied at six (Exp. I) and two (Exp. II) levels (sub- to supraoptimal for shoot growth). The seedlings were grown in sand-filled polyethylene tubes of 4.5 cm diameter and 50 cm length at 20 o C. The plants were harvested 11 (Exp. I) and 12 (Exp. II) days after emergence. At this early stage of development root growth o: old and new cultivars differed only slightly. The old T. aestivum cultivars had more seminal roots. The longest roots of the modern cultivars penetrated into deeper layers of the substrate. For some traits, cultivar: seemed to respond specifically to the varying N-supply. However, there were no significant difference: between old and new cultivars. Neither were old cultivars better adapted to low N-fertilization nor were modern cultivars superior in tolerating toxic concentrations of NH4 NO3 . Increasing N supply changes root growth as follows: decline in root dry matter, increase in shoot/root ratio of dry weight, decrease in number of seminal roots, shortening of axes and more laterals, increase in diameter of the laterals and less significantly of the main roots, increase in density of laterals, decline in root surface area. The number of apices was affected only to a very small degree. 相似文献
Root growth of five old (time period 1882–1920) and five new (time period 1975–1982) winter wheal cultivars and a spelt winter wheat cultivar was investigated in two greenhouse trials. Nitrogen (NH
15.
J. Schipper 《Journal of Agronomy and Crop Science》1996,176(3):199-211
Relation between pattern of development of wheat seedlings (Triticum aestivum L. Fiori et Paol.) and growth rate of leaves, tillers and roots.
In two glasshouse and two phytotron experiments, the early growth and development of spring wheat and unvernalized autumn wheat in long and short days was observed by frequent assessments of dry weight of shoots and roots and by daily measurements of length and dry weight of individual leaves. In an additional experiment, the pattern of dry matter distribution during germination was studied.
The rate of leaf emergence and appearance was decelerated by short days in spring wheat and by long days in unvernalized autumn wheat.
The growth rate of individual leaves showed a pattern of successive reductions and accelerations, being highly synchronized between leaves and clearly related to the succession in emergence of leaves and tillers.
Growth rates of main shoot and tillers were apparently synchronized, while those of the seminal root system appeared to show an oppositional pattern as compared to the shoot.
It is suggested that variation in the growth rate of existing organs is based on hormone controlled variation in meristematic activity, which is influenced by day length and the state of vernalization of the plant. 相似文献
In two glasshouse and two phytotron experiments, the early growth and development of spring wheat and unvernalized autumn wheat in long and short days was observed by frequent assessments of dry weight of shoots and roots and by daily measurements of length and dry weight of individual leaves. In an additional experiment, the pattern of dry matter distribution during germination was studied.
The rate of leaf emergence and appearance was decelerated by short days in spring wheat and by long days in unvernalized autumn wheat.
The growth rate of individual leaves showed a pattern of successive reductions and accelerations, being highly synchronized between leaves and clearly related to the succession in emergence of leaves and tillers.
Growth rates of main shoot and tillers were apparently synchronized, while those of the seminal root system appeared to show an oppositional pattern as compared to the shoot.
It is suggested that variation in the growth rate of existing organs is based on hormone controlled variation in meristematic activity, which is influenced by day length and the state of vernalization of the plant. 相似文献
16.
A deep and thick root system has a positive effect on wheat yield, particularly in drought environments. A doubled haploid (DH) population of 150 lines derived from the cross Hanxuan 10?×?Lumai 14 was used to map QTLs for seedling root characteristics. The DH lines were cultivated in an agarose gel-chamber under well-watered (WW) and water-stressed (WS) regimes. Water stress was simulated by adding mannitol to the agarose gel. The seminal root traits, including maximum root length (MRL), seminal root number, total root length, project root area, root surface area, and seminal root angle were measured after 6?days of seedling development. Grain yields (GY) were measured in a field experiment. A total of 29 QTLs were identified for seedlings cultured under WW regimes, and 23 QTLs under WS regimes. Individual QTL accounted for phenotypic variations ranging from 4.98 to 24.31?%. The QTLs were distributed on 17 chromosomes, except 1D, 4D, 6B and 6D. Seven consistently expressed QTLs were detected for all the traits tested except MRL under both water regimes. The QTLs for root traits were unevenly distributed among chromosomes, and clustered in eight loci on seven chromosomes, showing pleiotropic effects on target traits. One region in the interval Xgwm644.2?CP6901.2 on chromosome 3B contained 9 QTLs affecting most root traits. The present data provide an insight into the genetic basis of seedling root development under different water regimes and may benefit breeding programs using marker-assisted selection (MAS) for root traits. 相似文献
17.
川麦42中源于人工合成小麦的一个高产位点鉴定 总被引:5,自引:0,他引:5
人工合成小麦是改良现代小麦的重要基因资源。川麦42是人工合成小麦与普通小麦杂交育成的高产、抗条锈、广适小麦新品种。利用小麦全基因组的1029个SSR标记扫描,检测了川麦42遗传背景中人工合成小麦导入位点,并利用川麦42与四川小麦品种川农16构建的127个重组自交系(RIL, F8),在4年6个环境下种植获得的农艺性状数据,分析了人工合成小麦导入位点对小麦产量和产量构成因子的遗传效应,在川麦42遗传背景中发现一个高产的人工合成小麦导入位点Barc1183。根据Barc1183分子标记,将RIL群体中的127个株系分为川麦42基因型(具人工合成小麦导入位点)和川农16基因型(具川农16位点)两组,前者的人工合成小麦导入位点能促进分蘖能力,提高有效穗数、每平方米粒数,增加收获指数、籽粒生产率,在4年6个环境下较后者平均增产达8.92%,Barc1183为一高产的人工合成小麦导入位点。利用中国春双端体和硬粒小麦Longdon的D染色体代换系验证,将其定位于小麦4D染色体长臂。川麦42遗传背景中的高产人工合成小麦导入位点Barc1183,对于进一步开展小麦高产育种研究具有重要价值。 相似文献
18.
To obtain varieties with root systems adapted to marginal environments it is necessary to search for new genotypes in genetically diverse materials, such as landraces that are more likely to carry novel alleles for different root features. A core collection of ‘durum’ wheat, including three subspecies (dicoccon, turgidum and durum) from contrasting eco-geographical zones, was evaluated for root traits and shoot weight at the seminal root stage. Distinctive rooting phenotypes were characterized within each subspecies, mainly in subsp. durum. Contrasting rooting types, including large roots with shallow distributions, and others with high root numbers were identified. Correlations with climatic traits showed that root shape is more relevant in adaptation to eco-geographical zones in subsp. dicoccon, whereas in subsp. turgidum and durum, which come from warmer and drier areas, both size and shape of roots could have adaptive roles. Root traits with the largest positive effects on certain yield components under limited water conditions included root diameter in subsp. dicoccon, root size in turgidum, and root number in durum. Additionally, shoot weight at the seedling stage had important effects in subsp. turgidum and durum. Twenty-eight marker–trait associations (MTAs) previously identified in this collection for agronomic or quality traits were associated with seminal root traits. Some markers were associated with only one root trait, but others were associated with up to six traits. These MTAs and the genetic variability characterized for root traits in this collection can be exploited in further work to improve drought tolerance and resource capture in wheat. 相似文献
19.
K. Kubo Y. Jitsuyama K. Iwama N. Watanabe A. Yanagisawa I. Elouafi M. M. Nachit 《Euphytica》2005,141(1-2):105-111
Root penetration (RP) ability into compacted soil is an important breeding target for drought avoidance by durum (Triticum turgidum L. var. durum) and bread wheat (T. aestivum L.) in regions with compacted soils and water deficits. However, it is said generally that yield of the current cultivars introduced the reduced height gene (Rht-B1b or Rht-D1b) are more sensitive to drought stress than that of old landraces. This study investigated the effect of the Rht genes on RP ability using the seedlings of near-isogenic lines (NILs) of Rht genes of LD222 durum wheat and April Bearded bread wheat, and 110 recombinant inbred lines (RILs) of durum wheat derived from the cross between the tall landrace (Jennah Khetifa; Rht-B1a Rht-B1a) and semi-dwarf cultivar (Cham1; Rht-B1b Rht-B1b). One seedling of each genotype was grown in a pot (6 cm diameter, 15 cm height) with a disc of 3 mm thickness made from paraffin and Vaseline mixture (PV) in 10 cm depth, as a substitute for a compacted soil layer. The RP index [number of roots penetrating through the PV disc per plant (PVRN)/total number of seminal and crown roots per plant (TRN)] was measured at eight weeks after sowing and used as the indicator of RP ability of seedling. In NILs, the shoot length decreased significantly because of the introduction of either Rht-B1b or Rht-D1b dwarfing genes, but the RP index was similar to those of tall parents. In RILs, although the RP index and shoot length were higher in Jennah Khetifa than in Cham1, the relationship between RP index and shoot length was not significant (r = 0.156). Both results indicate that RP ability of wheat does not link to dwarfness regulated by Rht genes. We suppose therefore that it would be possible to develop a high yielding semi-dwarf cultivar with excellent RP ability. 相似文献