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1.
Identification of genomic regions associated with seed dormancy in white-grained wheat 总被引:1,自引:0,他引:1
Rajender Singh Maria Matus-Cádiz Monica Båga Pierre Hucl Ravindra N. Chibbar 《Euphytica》2010,174(3):391-408
Pre-harvest sprouting (PHS) in developing wheat (Triticum aestivum L.) spikes is stimulated by cool and wet weather and leads to a decline in grain quality. A low level of harvest-time seed
dormancy is a major factor for PHS, which generally is a larger problem in white-grained as compared to red-grained wheat.
We have in this study analyzed seed dormancy levels at the 92nd Zadok growth stage of spike development in a doubled-haploid
(DH) white wheat population and associated variation for the trait with regions on the wheat genome. The phenotypic data was
generated by growing the parent lines Argent (non-dormant) and W98616 (dormant) and 151 lines of the DH population in the
field during 2002 and 2003, at two locations each year, followed by assessment of harvest-time seed dormancy by germination
tests. A genetic map of 2681 cM was constructed for the population upon genotyping 90 DH lines using 361 SSR, 292 AFLP, 252
DArT and 10 EST markers. Single marker analysis of the 90 genotyped lines associated regions on chromosomes 1A, 2B, 3A, 4A,
5B, 6B, and 7A with seed dormancy in at least two out of the four trials. All seven putative quantitative trait loci (QTLs)
were contributed by alleles of the dormant parent, W98616. The strongest QTLs positioned on chromosomes 1A, 3A, 4A and 7A
were confirmed by interval mapping and markers at these loci have potential use in marker-assisted selection of PHS resistant
white-grained wheat. 相似文献
2.
Shi-He Xiao Hai-Ping Zhang Guang-Xia You Xiu-Ying Zhang Chang-Sheng Yan Xu Chen 《Euphytica》2012,188(1):85-88
Few Chinese high yielding white-grained wheat cultivars possess sufficient dormancy to avoid pre-harvest sprouting (PHS). Because the field evaluation of PHS is difficult, the identification of informative molecular markers is a priority for improving the level of dormancy. In this report, the effectiveness of phenotypic and genotypic selection was compared. Four microsatellite loci Xbarc57, Xbarc294, Xbarc310 and Xbarc321, mapped on the short arm of chromosome 3A, were used for selection in white-grained wheat F5 lines which were also selected on the basis of their grain filling rate (GFR). One of these (later designated cv. Zhongmai911) was further selected on the basis of its allelic constitution at the four SSR loci. This cultivar combines a high level of PHS resistance with high grain yield. The results suggested that rapid GFR and PHS resistance can be bred simultaneously. 相似文献
3.
Lee T. Hickey Mark J. Dieters Ian H. DeLacy Olena Y. Kravchuk Daryl J. Mares Phillip M. Banks 《Euphytica》2009,168(3):303-310
Pre-harvest sprouting (PHS) in wheat (Triticum aestivum L.) can be a significant problem, causing deleterious effects on grain quality. However, the adverse impacts of PHS can be
reduced by introgressing genes controlling grain dormancy into white-grained bread wheat. Screening for grain dormancy typically
involves germination testing of harvest-ripe grain grown in a glasshouse or field. However, the more uniform environmental
conditions provided by temperature controlled glasshouses (i.e. controlled environmental conditions—CEC) may provide significant
benefits for the assessment of grain dormancy. In this study, the dormancy phenotype of grain grown under CEC incorporating
an extended photoperiod, was compared with 2 years of data from field grown material. Four dormant double haploid lines (derived
from SW95-50213 and AUS1408) and two locally adapted non-dormant cultivars EGA Gregory and EGA Wills were compared in three
replicated experiments grown under CEC (22 ± 3°C and 24 h photoperiod). The germination response of harvest-ripe grain was
examined to assess the expression of grain dormancy. Two measures of germination, the predicted time to 50% germination (G
50) and a weighted germination index, both clearly differentiated dormant and non-dormant lines grown under CEC. In addition,
levels of grain dormancy were similar to field-grown plants. These results demonstrated that CEC with an extended photoperiod
can be used for rapid and reliable characterisation of grain dormancy in fixed lines of bread wheat. 相似文献
4.
Detection of chromosomes carrying genes for seed dormancy of wheat using the backcross reciprocal monosomic method 总被引:6,自引:0,他引:6
Preharvest sprouting (PHS) in wheat represents a major constraint to the production of high‐quality grain. Genetic variation for tolerance to PHS is associated with seed dormancy. The present study was initiated to detect homologous chromosome variation associated with seed dormancy genes in a PHS tolerant cultivar ‘Zenkojikomugi’ (Zen) and ‘Chinese Spring’ (CS) using the backcross reciprocal monosomic method. The most striking effect on variation in seed dormancy was associated with chromosome 3A, and followed by group 4 chromosomes. These chromosomes of Zen increased dormancy compared with the respective CS homologues. Chromosomes 2D and 7D of Zen, and 6A of CS seemed to contribute smaller positive effects on dormancy. Chromosomes 2A of CS and Zen, as well as 3B, were equally effective in enhancing dormancy. The chromosome 3 A factors were independent of the grain‐colour gene R‐A1 because Zen was found to carry the white‐grained R‐A1a allele, which was identical to that of CS, and there was no difference in dormancy between the reciprocal F1 seeds. 相似文献
5.
The possibility of breeding white-grained wheats tolerant to pre-harvest sprouting under Japanese humid weather conditions
is discussed. New genetic dormancy sources, such as, AUS1408, 8019R1 and RyuuMai7, were evaluated for seed dormancy in different
weather conditions. Some white-grained dormant wheats showed a strong dormancy similar to that of red-grained dormant wheats
in a greenhouse trial, in the field their dormancy expression was much less than the red wheats. Three populations involving
crosses with these new sources for winter wheat breeding were examined under repeated selection for seed dormancy. Some dormant
white-grained lines, as judged under glasshouse conditions, were developed. Again the level of dormancy in these lines was
not sufficient compared to red dormant varieties in field trial. In order to develop truly superior dormant white-grained
materials, one population involving crosses with two dormant varieties, AUS1408 and 8019R1, was examined under repeated selection.
From these materials we succeeded in breeding lines that had not only a good dormancy but also showed adaptation to Japanese
weather conditions, including earliness, scab resistance and good seed appearance. However again the dormancy of these lines
in field trial was not sufficient compared to that of red wheats and there was not a clear difference for seed dormancy between
breeding lines and their parents. We conclude therefore that more work involving the use of new genetic sources or new breeding
techniques, will be necessary for breeding advanced lines that maintain a sufficient tolerance to PHS in humid Japanese weather
condition.
This revised version was published online in August 2006 with corrections to the Cover Date. 相似文献
6.
Lee T. Hickey Mark J. Dieters Ian H. DeLacy Mandy J. Christopher Olena Y. Kravchuk Phillip M. Banks 《Euphytica》2010,172(2):183-195
Pre-harvest sprouting (PHS) in wheat (Triticum aestivum L.) is a significant problem. Introgression of genes controlling grain dormancy into white-grained bread wheat is one means
of improving resistance to PHS. In this study seven dormant (containing the SW95-50213 and AUS1408 sources) × non-dormant
crosses were produced to investigate the effectiveness of selection for grain dormancy in early segregating generations. Each
generation (F1–F4) was grown in a temperature controlled glasshouse with an extended photoperiod (i.e. continuous light). F2 and F3 generations were subject to selection. Five hundred harvest-ripe grains were tested for germination over a 14 day period,
and the 100 most dormant grains were retained and grown-on to produce the next generation within each cross. The response
to selection was assessed through analysis of the time to 50% germination (G50) in the F2, F3 and F4 generations. In addition, changes in marker class frequencies for two SSR markers (barc170 and gpw2279) flanking a known
quantitative trait locus (QTL) for grain dormancy on chromosome 4A were assessed in DNA from F2 plants selected from early germinating (non-dormant) and late germinating (dormant) phenotypic extremes within each cross.
Selection for grain dormancy in the F2 and F3 generations effectively recovered the dormant phenotype in all seven crosses, i.e. the F4 generation was not significantly different from the dormant parent. Further, selection based on individual F2 grains changed marker class frequencies for the 4A dormancy QTL; in most cases eliminating the marker class homozygous for
the non-dormant alleles. Application of this screening method will enable breeders to better select for grain dormancy and
may lead to development of new cultivars offering effective resistance to PHS in the near future. 相似文献
7.
Pre-harvest sprouting (PHS) of wheat greatly reduces the quality and economic value of grain, and PHS resistance is one of the most important traits in wheat breeding. Red-grained wheat varieties are generally more resistant to PHS than white-grained ones; however, some are still susceptible. The red pigment of red-grained wheat is synthesized through the flavonoid biosynthetic pathway, in which the dihydroflavonol-4-reductase gene (DFR) is one of the genes involved in anthocyanin synthesis. In this study, a set of 120 red-grained Chinese wheat cultivars and lines with distinct PHS resistance were used to characterize TaDFR genotype variations and their association with PHS resistance. Whereas no variation or functional variation of TaDFR genes was detected on chromosomes 3A and 3D, a novel TaDFR allele, designated TaDFR-Bb, was explored on chromosome 3B. Compared with TaDFR-Ba, an 8 bp insertion (CTCTAGGA) was identified in the promoter region of TaDFR-B in most of the PHS resistant red-grained wheat varieties and advanced lines. Based on this, a CAPS marker was designed and validated with a set of Chinese red-grained wheat cultivars and lines with distinct PHS resistance. In most cases, TaDFR-Bb was associated with higher PHS resistance. An association study indicated that wheat varieties with the 8 bp insertion (average seed germination index 23.6 %) were significantly more resistant (P < 0.01) to PHS than those without the insertion (average seed germination index 69.5 %). Further study on gene expression demonstrated that the insertion led to increased TaDFR-B expression in cultivars with PHS resistance. Transient expression of TaDFR-B in coleoptiles of wheat cv. Chinese Spring revealed that increasing TaDFR gene expression did not induce the synthesis of anthocyanins. 相似文献
8.
Thorough understanding of the genetic mechanisms governing drought adaptive traits can facilitate drought resistance improvement. This study was conducted to identify chromosome regions harbouring QTLs contributing for water stress resistance in wheat. A RIL mapping population derived from a cross between W7984 (Synthetic) and Opata 85 was phenotyped for root length and root dry weight under water stress and non-stress growing conditions. ANOVA showed highly significant (p ≤ 0.01) variation among the RILs for both traits. Root length and root dry weight showed positive and significant (p ≤ 0.01) phenotypic correlation. Broad sense heritability was 86% for root length under stress and 65% for root dry weight under non-stress conditions. A total of eight root length and five root dry weight QTLs were identified under both water conditions. Root length QTLs Qrln.uwa.1BL, Qrln.uwa.2DS, Qrln.uwa.5AL and Qrln.uwa.6AL combined explained 43% of phenotypic variation under non-stress condition. Opata was the source of favourable alleles for root length QTLs under non-stress condition except for Qrln.uwa.6AL. Four stress specific root length QTLs, Qrls.uwa.1AS, Qrls.uwa.3AL, Qrls.uwa.7BL.1 and Qrls.uwa.7BL.2 jointly explained 47% of phenotypic variation. Synthetic wheat contributed favourable alleles for Qrls.uwa.1AS and Qrls.uwa.3AL. Two stable root dry weight QTLs on chromosomes 4AL and 5AL were consistently found in both water conditions. Three validation populations were developed by crossing cultivars Lang, Yitpi, and Chara with Synthetic W7984 to transfer two of the QTLs identified under stress condition. The F2.3 and F3.4 validation lines were phenotyped under the same level of water stress as RILs to examine the effect of these QTLs. There were 13.5 and 14.5% increases in average root length due to the inheritance of Qrls.uwa.1AS and Qrls.uwa.3AL, respectively. The result indicated that closely linked SSR markers Xbarc148 (Qrls.uwa.1AS) and Xgwm391 (Qrls.uwa.3AL) can be incorporated into MAS for water stress improvement in wheat. 相似文献
9.
A set of 75 recombinant inbred lines (RILs) of the ITMI mapping population was grown under field conditions in Gatersleben. The lines were evaluated for the domestication traits pre-harvest sprouting and dormancy (germinability). Main QTLs could be localized for pre-harvest sprouting on chromosome 4AL and dormancy on chromosome 3AL. In addition, 85 Triticum aestivum cv. “Chinese Spring”-Aegilops tauschii introgression lines grown under greenhouse conditions were researched. No QTL could be found for pre-harvest sprouting but a major QTL could be detected for dormancy on chromosome 6DL. 相似文献
10.
Liangzi Cao Kazuki Hayashi Mayumi Tokui Masahiko Mori Hideho Miura Kazumitsu Onishi 《Breeding Science》2016,66(2):260-270
Pre-harvest sprouting (PHS) is one of the serious problems for wheat production, especially in rainy regions. Although seed dormancy is the most critical trait for PHS resistance, the control of heading time should also be considered to prevent seed maturation during unfavorable conditions. In addition, awning is known to enhance water absorption by the spike, causing PHS. In this study, we conducted QTL analysis for three PHS resistant related traits, seed dormancy, heading time and awn length, by using recombinant inbred lines from ‘Zenkouji-komugi’ (high PHS resistance) × ‘Chinese Spring’ (weak PHS resistance). QTLs for seed dormancy were detected on chromosomes 1B (QDor-1B) and 4A (QDor-4A), in addition to a QTL on chromosome 3A, which was recently cloned as TaMFT-3A. In addition, the accumulation of the QTLs and their epistatic interactions contributed significantly to a higher level of dormancy. QDor-4A is co-located with the Hooded locus for awn development. Furthermore, an effective QTL, which confers early heading by the Zenkouji-komugi allele, was detected on the short arm of chromosome 7B, where the Vrn-B3 locus is located. Understanding the genetic architecture of traits associated with PHS resistance will facilitate the marker assisted selection to breed new varieties with higher PHS resistance. 相似文献
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13.
Pre-harvest sprouting of durum wheat (Triticum turgidum L. var durum) reduces commercial grade, although the actual effects on processing quality are controversial. Little is known about the genetics of the dormancy component of pre-harvest sprouting resistance in durum. We studied the segregation of dormancy in 98 recombinant inbred lines from a cross of a relatively non-dormant line, CI13102, with a moderately dormant line, Kyle. The lines and parents were grown in field tests over three years, 1996, 1997 and 1998. Spikes were collected at approximately 20% moisture and stored at −23 ∘C. Hand-threshed grain of the lines was germinated, and number of seeds germinated was counted each day. A germination resistance index was calculated to characterize dormancy. Dormancy appeared to be complexly inherited in this cross. Lines were observed that were significantly (P < 0.05) more dormant than the parents. The lines transgressive for dormancy expressed in different combinations of the three environments, indicating an environmental interaction. DNA of lines and parents was tested with simple sequence repeat primers and AFLPs that were used in quantitative trait loci (QTL) analysis of dormancy. Significant QTLs for dormancy were found, with the most notable being on chromosome 1A, where other QTLs for pre-harvest sprouting resistance have been reported in common wheat. 相似文献
14.
Amita Mohan Pawan Kulwal Ravinder Singh Vinay Kumar Reyazul Rouf Mir Jitendra Kumar Manoj Prasad H. S. Balyan P. K. Gupta 《Euphytica》2009,168(3):319-329
A framework linkage map comprising 214 molecular marker (SSR, AFLP, SAMPL) loci was prepared using an intervarietal recombinant
inbred line (RIL) mapping population of bread wheat. The RIL population that was developed from the cross SPR8198 (red-grained
and PHS tolerant genotype) × HD2329 (white-grained and PHS susceptible genotype) following single seed descent segregated
for pre-harvest sprouting (PHS). The RIL population and parental genotypes were evaluated in six different environments and
the data on PHS were collected. Using the linkage map and PHS data, genome-wide single-locus and two-locus QTL analyses were
conducted for PHS tolerance (PHST). Single-locus analysis following composite interval mapping (CIM) detected a total of seven
QTL, located on specific arms of five different chromosome (1AS, 2AL, 2DL, 3AL and 3BL). These seven QTL included two major
QTL one each on 2AL and 3AL. Two of these seven QTL were also detected following two-locus analysis, which resolved a total
of four main-effect QTL (M-QTL), and 12 epistatic QTL (E-QTL), the latter involved in 7 QTL × QTL interactions. Interestingly,
none of these M-QTL and E-QTL detected by two-locus analysis was involved in Q × E and Q × Q × E interactions, supporting
the results of ANOVA, where genotype × environment interaction were non-significant. The QTL for PHS detected in the present
study may be efficiently utilized for marker-aided selection for enhancing PHST in bread wheat. 相似文献
15.
S. E. Ullrich H. Lee J. A. Clancy I. A. del Blanco V. A. Jitkov A. Kleinhofs F. Han D. Prada I. Romagosa J. L. Molina-Cano 《Euphytica》2009,168(3):331-345
Preharvest sprouting (PHS) and dormancy (DOR) can be problems in barley production and end use quality, especially for barley
used for seed and malting. Three crosses previously analyzed for DOR inheritance, were reanalyzed for PHS and DOR inheritance
using artificial rain to calculate sprout score (SSc) and measure alpha-amylase activity (AA). Germination percentage of untreated
grain for DOR was also measured. The crosses are ‘Steptoe’/’Morex’ (previously published), ‘Harrington’/TR306, and ‘Triumph’/Morex.
Among the three crosses, DOR QTLs were located to six and PHS QTLs to five chromosomes, respectively. Chromosome 6H was never
implicated. Previously identified DOR QTLs were confirmed in each cross, and most PHS QTLs coincided with DOR QTLs, but not
all. Unique PHS QTLs were identified on chromosomes 1H (AA), 2H (SSc, AA), 3H (SSc, AA), and 7H (SSc, AA) and unique DOR QTLs
on 1H, 2H, and 7H. Results indicate that PHS susceptibility and DOR are not always represented by opposite alleles at a locus.
Some QTL regions for a given trait are conserved across crosses and some are not. Several QTLs are suitable for marker-assisted
selection to balance PHS and DOR in breeding new cultivars. 相似文献
16.
Preharvest sprouting of wheat results in significant financial loss at all steps in the production and marketing chain. Due to its intermittent nature in many wheat‐growing regions, direct selection for tolerance to preharvest sprouting is difficult. DNA markers linked to genes conditioning tolerance offer a more consistent and reliable approach to genetic improvement in tolerance. This investigation assessed the value of previously identified markers linked to quantitative trait loci contributing to tolerance, across multiple genetic backgrounds. A significant contribution to tolerance was demonstrated for QPhs.pseru‐3AS, previously identified from the hard white winter wheat ‘Rio Blanco’. Marker alleles for this locus were associated with enhanced tolerance in three of four investigated populations. In addition, positive contributions of QPhs.pseru‐2B1 and QPhs.pseru‐2B2 also were documented. Simultaneous selection for putative marker alleles at two independent loci resulted in significantly higher mean tolerance scores. DNA markers linked to loci contributing to variation in preharvest sprouting tolerance offer an efficient and effective alternative to direct phenotypic selection. 相似文献
17.
G. Rasul D. G. Humphreys A. Brûlé-Babel C. A. McCartney R. E. Knox R. M. DePauw D. J. Somers 《Euphytica》2009,168(3):363-378
Pre-harvest sprouting (PHS) in spring wheat (Triticum aestivum L.) is a major downgrading factors for grain producers and can significantly reduce end-use quality. PHS resistance is a
complex trait influenced by genotype, environment and plant morphological factors. A population of 185 doubled haploid (DH)
lines from the spring wheat cross ‘RL4452/AC Domain’ were used as the mapping population to detect quantitative trait loci
(QTLs) associated with three PHS traits, germination index (GI), sprouting index (SI) and falling number (FN). Six major QTLs
linked with PHS traits were mapped on bread wheat chromosomes 3A, 3D, 4A (2 loci), 4B and 7D. ‘AC Domain’ alleles contributed
to PHS resistance on 3A, 4A (locus-2) and 4B, and ‘RL4452’ alleles contributed resistance on 3D, 4A (locus-1) and 7D. QTLs
detected on chromosome 4B controlling FN (QFN.crc-4B), GI (QGI.crc-4B) and SI (QSI.crc-4B) were coincident, and explained the largest amount of phenotypic variation in FN (22%), GI (67%) and SI (26%), respectively. 相似文献
18.
A. Badea F. Eudes R. J. Graf A. Laroche D. A. Gaudet R. S. Sadasivaiah 《Euphytica》2008,164(3):803-819
Fusarium head blight (FHB) caused by Fusarium species, is among the most devastating wheat diseases, causing losses in numerous sectors of the grain industry through yield
and quality reduction, and the accumulation of poisonous mycotoxins. A germplasm collection of spring and winter wheat, including
nine reference cultivars, was tested for Type II FHB resistance and deoxynivalenol (DON) content. Genetic diversity was evaluated
on the basis of Simple Sequence Repeat (SSR) markers linked to FHB resistance quantitative trait loci (QTLs) and Diversity
Arrays Technology (DArT) markers. The allele size of the SSR markers linked to FHB resistance QTLs from known resistance sources
was compared to a germplasm collection to determine the presence of these QTLs and to identify potentially novel sources of
resistance. Forty-two accessions were identified as resistant or moderately resistant to Fusarium spread, and two also had very low DON concentrations. Genetic relationships among wheat accessions were generally consistent
with their geographic distribution and pedigree. SSR analysis revealed that several resistant accessions carried up to four
of the tested QTLs. Resistant and moderately resistant lines without any known QTLs are considered to be novel sources of
resistance that could be used for further genetic studies. 相似文献
19.
Xiao-Qi Zhang Sharon Westcott Joe Panozzo Mehmet Cakir Stefan Harasymow Allen Tarr Sue Broughton Reg Lance Chengdao Li 《Euphytica》2012,188(1):103-111
The association between high malting quality and pre-harvest sprouting (PHS) susceptibility is a key challenge when developing new malting barley varieties. A new malting barley variety Baudin has successfully combined high malting quality and PHS tolerance. A doubled haploid population was developed for mapping PHS tolerance and seed dormancy from a cross of Baudin?×?AC Metcalfe using 233 molecular markers. Three QTLs were mapped for seed dormancy based on the standard germination test at 24, 48 and 72?h. One major QTL was mapped to the long arm of chromosome 5H controlling seed dormancy and PHS tolerance from Baudin. Two other minor QTLs were identified from Baudin on chromosomes 3 and 7H. QTL/QTL interaction was detected for seed dormancy between chromosomes 3 and 5H. The PHS tolerance allele of the 5H QTL from Baudin contributes to higher malt yield without significant impact on diastatic power, beta-glucan content and wort viscosity. QTL from Baudin provide new sources to integrate PHS tolerance and high malting quality. 相似文献
20.
K. Selvaraju P. Shanmugasundaram S. Mohankumar M. Asaithambi R. Balasaraswathi 《Euphytica》2007,157(1-2):35-43
Rice leaffolder (RLF) (Cnaphalocrocis medinalis (Guenée) is a destructive and widespread insect pest throughout the rice growing regions in Asia. The genetics of resistance
to RLF in rice is very complex and not thoroughly explored. The present study was conducted to detect the quantitative trait
loci (QTL) associated with RLF resistance involving 176 recombinant inbred lines (RILs) of F8 generation derived from a cross between IR36, a leaffolder susceptible variety and TNAULFR831311, a moderately resistant
indica rice culture. Simple sequence repeat (SSR) markers were used to construct specific linkage groups of rice. All the RILs were
screened to assess their level of resistance to RLF by measuring the leaf area damaged. Besides this, the length and width
of the flag leaf of each RIL were measured since these two parameters were considered as correlated traits to the RLF resistance
in rice. All the above parameters observed across the RILs showed quantitative variation. Correlation analysis revealed that
damage score based on greenhouse screening was positively correlated with length and width of the flag leaf. Out of 364 SSR
markers analysed, 90 were polymorphic between the parents. Multi-point analysis carried out on segregating 69 SSR marker loci
linkage group wise resulted in construction of linkage map with eleven groups of 42 SSR markers. Through single marker analysis,
19 SSR markers were found to have putative association with the three phenotypic traits studied. Of these markers, RM472 was
identified as a locus having major effect on RLF resistance trait based on length of the flag leaf. Interval mapping detected
two QTLs on linkage group 1. Among these QTLs, the QTL flanked by RM576–RM3412 were found to be associated with width of the
flag leaf and RLF resistance. The putative SSR markers associated with leaffolder resistance identified in the present study
may be one of the loci contributing resistance to RLF in rice. 相似文献