Recombination of gliadin genes of chromosome 1D in the common wheat hybrid carrying the introgression from Aegilops cylindrica     

N. A. Kozub    I. A. Sozinov  A. A. Sozinov 《Plant Breeding》2003,122(1):86-88

Recombination of co‐gliadin components of the allele ‘_/’ at the Gli‐D1 locus and the allele at the respective locus from Aegilops cylindrica was revealed in the common wheat hybrid carrying the introgression from Ae. cylindrica. Gliadins of single seeds from F₂ plants of the cross between the winter common wheat variety ‘Albatros Odesskii’ and the common wheat line carrying the introgression from Ae. cylindrica were analyzed by acid polyacrylamide gel electrophor‐esis. The average frequency of recombination detected between the gliadin components was 0.35%.  相似文献   

Genetic polymorphisms at Gli-D^t gliadin loci in Aegilops tauschii as revealed by acid polyacrylamide gel and capillary electrophoresis     

Y. M. Yan    S. L. K. Hsam    J. Z. Yu    Y. Jiang  F. J. Zeller 《Plant Breeding》2003,122(2):120-124

Gliadin variation at Gli‐D^t1 and Gli‐D^t2 loci in 198 Aegilops tauschii accessions was studied by acid polyacrylamide gel electrophoresis (A‐PAGE) and capillary electrophoresis (CE). High genetic polymorphisms were found at both gliadin coding loci, revealing a total of 184 and 169 gliadin variants at the Gli‐D^t1 and Gli‐D^t2 loci, respectively. In particular, 12 gliadin blocks encoded by different alleles were apparently expressed and readily identified in six synthetic hexaploids produced by hybridization between Triticum durum and Ae. tauschii accessions. Compared with Ae. tauschii ssp. eusquarrosa, the gliadin profile of the D genome in Ae. tauschii ssp. strangulata more resembles that of T. aestivum, supporting the view that the subspecies strangulata is the most likely progenitor of bread wheat. Capillary electrophoresis analysis showed that the method is capable of separating and characterizing gliadins with speed, in high resolution using small sample amounts, and is well‐suited to detect protein alleles and to identify desirable genotypes in wheat quality improvement.  相似文献   

Genetic analysis of the Aegilops longissima 3S chromosome carrying the Pm13 resistance gene     

Cenci Alberto  D'Ovidio Renato  Tanzarella Oronzo Antonio  Ceoloni Carla  Pasquini Marina  Porceddu Enrico 《Euphytica》2003,130(2):177-183

The distal region of the short arm of chromosome 3S from Aegilopslongissima, which carries the powdery mildew resistance gene Pm13, was introgressed into common wheat. Due to suppression of recombination between this region and corresponding wheat homoeologous segments, a possible strategy to construct a genetic map around the Pm13 gene was based on crosses between a wheat addition line carrying the Ae.longissima 3S chromosome and the corresponding 3S addition lines of Ae.searsii and Ae. variabilis. The efficiency of this strategy was evaluated by scoring recombination frequencies inprogenies derived from these crosses. Recombination between 3S chromosomes fromAe. searsii and Ae. longissimawas very low, whereas 26.5% recombinant alien chromosomes were obtained from the cross involving the Ae. variabilisand Ae. longissima 3S addition lines. These data were used to construct a3S chromosome map that resulted largely colinear to the consensus map of the homoeologous group 3 of wheat. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Development of photoperiod-sensitive cytoplasmic male sterile (PCMS) wheat lines showing high male sterility under long-day conditions and high seed fertility under short-day conditions     

Koji Murai  Ichiro Tsutui  Yuki Kawanishi  Shojiro Ikeguchi  Mikiko Yanaka  Naoyuki Ishikawa 《Euphytica》2008,159(3):315-323

A “two-line system” using photoperiod-sensitive cytoplasmic male sterility (PCMS) caused by Aegilops crassa cytoplasm under long-day photoperiods (≧15 h) has been proposed as a means of producing hybrid varieties in common wheat (Triticum aestivum). The PCMS line is maintained by self-pollination under short-day conditions, and hybrid seeds can be produced through outcrossing of the PCMS line with a pollinator line under long-day conditions. Our previous studies revealed that PCMS lines showing complete male sterility under long-day conditions are necessary for practical hybrid wheat breeding, especially to obtain high hybrid purity in F₁ seeds. Furthermore, practical PCMS lines should have high seed fertility under short-day conditions, which is associated with female fertility. Wheat cv. Norin 26 with Ae. crassa cytoplasm exhibits high seed fertility under short-day conditions, and cv. Fujimikomugi with Ae. crassa cytoplasm shows high male sterility under long-day conditions. Here we developed practical PCMS lines derived from the F₁ generation of Norin 26 and Fujimikomugi (with Ae. crassa cytoplasm) that were then backcrossed to elite wheat lines.  相似文献   

Utilisation of <Emphasis Type="Italic">Aegilops</Emphasis> (goatgrass) species to widen the genetic diversity of cultivated wheat   总被引：2，自引：0，他引：2  

Annamária Schneider  István Molnár  Márta Molnár-Láng 《Euphytica》2008,163(1):1-19

Wild Aegilops species related to cultivated wheat (Triticum spp.) possess numerous genes of agronomic interest and can be valuable sources of resistance to diseases, pests and extreme environmental factors. These genes can be incorporated into the wheat genome via intergeneric crossing, following, where necessary, the development of chromosome addition and substitution lines from the resulting hybrids. The transfer of a single segment from an alien chromosome can be achieved by translocations. The Aegilops (goatgrass) species, which are the most closely related to wheat, exhibit great genetic diversity, the exploitation of which has been the subject of experimentation for more than a century. The present paper gives a survey of the results achieved to date in the field of wheat–Aegilops hybridisation and gene transfer. The Aegilops genus consists of 11 diploid, 10 tetraploid and 2 hexaploid species. Of these 23 Aegilops species, most of the diploids (Ae. umbellulata Zhuk., Ae. mutica Boiss., Ae. bicornis (Forssk.) Jaub. & Spach, Ae. searsii Feldman & Kislev ex Hammer, Ae. caudata L., Ae. sharonensis Eig, Ae. speltoides Tausch, Ae. longissima Schweinf. & Muschl.) and several polyploids (Ae. ventricosa Tausch, Ae. peregrina (Hack. In J. Fraser) Marie & Weiller, Ae. geniculata Roth, Ae. kotschyi Boiss., Ae. biuncialis L.) have been used to develop wheat–Aegilops addition lines. Wheat–Aegilops substitution lines were developed using several species, including Ae. umbellulata, Ae. caudata, Ae. tauschii, Ae. speltoides, Ae. sharonensis, Ae. longissima and Ae. geniculata. Translocations carrying genes responsible for useful agronomic traits were developed with Ae. umbellulata, Ae. comosa, Ae. ventricosa, Ae. longissima, Ae. speltoides and Ae. geniculata. A large number of genes were transferred from Aegilops species to cultivated wheat, including those for resistance to leaf rust, stem rust, yellow rust and powdery mildew, and various pests (cereal cyst nematode, root knot nematode, Hessian fly, greenbug). Many molecular markers are linked to these resistance genes. The development of new molecular markers is also underway. There are still many untapped genetic resources in Aegilops species that could be used as resistance sources for plant breeding.  相似文献   

Ph I-induced transfer of leaf and stripe rust-resistance genes from Aegilops triuncialis and Ae. geniculata to bread wheat     

M. Aghaee-Sarbarzeh  M. Ferrahi  S. Singh  H. Singh  B. Friebe  B.S. Gill  H.S. Dhaliwal 《Euphytica》2002,127(3):377-382

Leaf and stripe rusts are severe foliar diseases of bread wheat. Recently, chromosomes 5M^g from the related species Aegilops geniculata that confers resistance to both leaf and stripe rust and 5U^t from Ae. triuncialis conferring resistance to leaf rust have been transferred to bread wheat in the form of disomic DS5M^g(5D) and DS5U^t(5A) chromosome substitution lines. The objective of this study was to shorten the alien segments in these lines using Ph ^I-mediated, induced homoeologous recombination. Putativerecombinants were evaluated for their rust resistance, and by genomic in situ hybridization and microsatellite analyses. One agronomically useful wheat-Ae. geniculata recombinant resistant to leaf and stripe rust was identified that had only a small terminal segment of the 5M^gL arm transferred to the long arm of an unidentified wheat chromosome. This germplasm can be used directly in breeding programs. Only one leaf rust-resistant wheat-Ae. triuncialis recombinant, which consists of most of the complete 5U^t chromosome with a small terminal segment derived from 5AS, was identified. This germplasm will need further chromosome engineering before it can be used in wheat improvement. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献   

The study of introgressive lines of Triticum aestivum × Aegilops speltoides by in situ and SSR analyses     

I. G. Adonina    E. A. Salina    T. T. Efremova  T. A. Pshenichnikova 《Plant Breeding》2004,123(3):220-224

Fluorescence in situ hybridization (FISH) with a genome‐specific repeat, Spelt1, and wheat simple sequence repeat (SSR) markers were used to analyse the chromosome constitution of two Triticum aestivum×Aegilops speltoides introgressive lines. The lines 170/98i and 178/98i carried one and two subtelomeric regions of Ae. speltoides (per haploid genome), respectively, marked by Spelt1 repeats according to FISH data. SSR analysis detected homoeologous substitution of wheat chromosome 7D with Ae. speltoides chromosome 7S in the lines 178/98i and 170/98i as well as the assumed terminal translocation in the short arm of chromosome 3A in the line 178/98i. Anthocyanin pigmentation of the coleoptiles was found in the lines 170/98i and 178/98i and resulted from the 7S (7D) substitution. It was demonstrated that Spelt1 could be effectively used for the rapid identification (without DNA isolation) of terminal translocations of T. aestivum×Ae. speltoides introgressive lines as well as for further analysis of the stability of the hybrid plants.  相似文献   

Relationship between Quality, Colour of Glume and Gliadin Electrophoregrams in Durum Wheat   总被引：1，自引：0，他引：1  

T. Yupsanis  M. Moustakas 《Plant Breeding》1988,101(1):30-35

Gliadin electrophoregrams, protein content and SDS-sedimentation values from the modified SDS-sedimentation test were obtained from six Greek cultivars of Triticum durum and 98 biotypes (78 with white glumes, 20 with red glumes). Our results provide wheat breeders with the tool TO predict the cooking quality of durum wheat from early generation breeding lines, since we were able to correlate the colour of the glume with the presence or absence of gliadin bands 42/45. All red glume biotypes lacked gliadin band 45 and possessed gliadin band 42. Furthermore, their SDS sedimentation values were around 27 (weak gluten), indicating poor cooking quality. Yet, the electrophoregrams of the gliadin proteins allowed an identification of the wheat cultivars examined, since for each cultivars the pattern was different. No correlation was found between the colour of the glume and the amount of total gram protein.  相似文献   

Origin and variation of gliadin proteins associated with pasta quality in durum wheat     

U. Kushnir  D. L. Ducros  E. Lagudah  G. M. Halloran 《Euphytica》1984,33(2):289-294

Summary Studies were made of the presence and frequency of occurrence of gliadin bands 42 and 45 in three samples of Aegilops sharonensis Eig and 59 samples of wild tetraploid wheat (Triticum dicoccoides Korn.) from natural distributions of these species in Israel.Two samples of Ae. sharonensis possessed a band in position 45 and one possessed no bands corresponding to either band 45 or band 42. In T. dicoccoides, band 45 was either present or not and 42 was always absent. In its grassy and intermediate growth habit forms, (believed to be more primitieve than the cercal forms) band 45 appeared to be more frequent than in the cereal form.The presence of band 45 in the Ae. sharonensis, and its relatively high frequency in T. dicoccoides, populations from Mt. Hermon (likely to be relatively free from introgression from cultivated tetraploid wheat) indicate the likelihood of a primary origin of the allele coding for band 45. The absence of band 42 from all Ae. sharonensis and T. dicoccoides populations in this study, indicates a more recent evolutionary origin of the allele coding for this band, possibly arising as a mutation during the domestication of tetraploid wheat.The results have implications for breeding programmes in tetraploid wheat.  相似文献   

Development of chloroplast‐specific microsatellite markers for molecular characterization of alloplasmic lines and phylogenetic analysis in wheat     

Shiv Mangal S. Tomar  Vinod 《Plant Breeding》2014,133(1):12-18

Wheat (Triticum aestivum L.) is strictly a self‐pollinated crop, where hybrid breeding requires well‐characterized cytoplasmic male sterile (CMS) lines. The CMS has mostly been developed by substituting nuclear genome of wheat into the cytoplasm from wild relatives. Molecular characterization of 90 genotypes including 82 CMS lines originating from five different species, namely Aegilops speltoides, Ae. kotschyi, Ae. variabilis, Triticum araraticum and T. timopheevii, and eight popular varieties was carried out. Consequently, a set of 25 microsatellite markers specific to chloroplast (cpSSRs) were designed and successfully validated for specificity of amplification. A total of 15 cpSSRs (60%) were found polymorphic, of which three cpSSRs (TaCM7, TaCM8 and TaCM11) in genic region and twelve cpSSRs were located in intergenic region. Phylogenetic analysis of genotypes using cpSSRs revealed two major groups well in accordance with respective origin. A set of cpSSRs and phylogeny of CMS belonging to different origins developed, which will be helpful for the improvement in CMS system in wheat. The genic cpSSRs can be used for the allele mining and evolutionary studies.  相似文献   

Selection of U and M genome-specific wheat SSR markers using wheat–<Emphasis Type="Italic">Aegilops biuncialis</Emphasis> and wheat–<Emphasis Type="Italic">Ae. geniculata</Emphasis> addition lines     

Annamária Schneider  István Molnár  Márta Molnár-Láng 《Euphytica》2010,175(3):357-364

We selected wheat SSR markers specific to the U and M genomes of Aegilops species. A total of 108 wheat SSR markers were successfully tested on Ae. biuncialis (2n = 4x = 28, U^bU^bM^bM^b), on five wheat–Ae. biuncialis addition lines (2M^b, 3M^b, 7M^b, 3U^b and 5U^b) and on a wheat–Ae. geniculata (1U^g, 2U^g, 3U^g, 4U^g, 5U^g, 7U^g, 1M^g, 2M^g, 4M^g, 5M^g, 6M^g and 7M^g) addition series. Among the markers, 86 (79.6%) were amplified in the Ae. biuncialis genome. Compared with wheat, polymorphic bands of various lengths were detected on Ae. biuncialis for 35 (32.4%) of the wheat microsatellite markers. Three of these (8.6%) exhibited specific PCR products on wheat–Ae. biuncialis or wheat–Ae. geniculata addition lines. The primers GWM44 and GDM61 gave specific PCR products on the 2M^b and 3M^b wheat–Ae. biuncialis addition lines, but not on the 2M^g addition line of Ae. geniculata. A specific band was observed on the 7U^g wheat–Ae. geniculata addition line using the BARC184 primer. These three markers specific to the U and M genomes are helpful for the identification of 2M^b, 3M^b and 7U^g chromosome introgressions into wheat.  相似文献   

Expression of nucleolus, endosperm storage proteins and disease resistance in an amphiploid between Aegilops tauschii and Secale silvestre   总被引：1，自引：0，他引：1  

Yang Zu-Jun  Li Guang-Rong  Jiang Hua-Ren  Ren Zheng-Long 《Euphytica》2001,119(3):317-321

Cytology and gene expression of an amphiploid between Aegilops tauschiiL., native to China, and Secale silvestre L. were studied to reveal the genomic interaction between the donor species. High frequencies of aneuploids were observed in the progenies of the amphiploid, indicating its cytological instability. Feulgen staining and Giemsa-C banding showed that only the nucleolar organizing region from chromosome 5D of Ae. tauschii existed in the amphiploid (2n = 28). The nucleolus of S. silvestre was not observed. Endosperm storage protein electrophoresis indicated most gliadin and glutenin genes from both parents were expressed in the endosperm of the amphiploid. When inoculated by wheat stripe rust and powdery mildew isolates,the amphiploid did not express the resistance from its Secale parent,suggesting the presence of disease resistance suppressor(s) in the D genome of Ae. tauschii as well as nucleolar organizer suppressors. This revised version was published online in July 2006 with corrections to the Cover Date.  相似文献   

Growth dependency of wild,primitive and modern cultivated wheat lines on vesicular-arbuscular mycorrhiza fungi     

Yoram Kapulnik  Uri Kushnir 《Euphytica》1991,57(1):27-36

Summary Mycorrhizal colonization and growth dependency were studied at a single rate of phosphorous application in wild and cultivated primitive and modern wheats, inoculated with Glomus intraradices Schenck & Smith. Mycorrhizal colonization found in Triticum timopheevii var. araraticum (AAGG) was higher than that found in the other tetraploid wheats (AABB). Mycorrhizal dependency was higher in representatives of the D genome donor — Aegilops squarrosa, compared with representatives of the A and possible B genome donors T. monococcum and Ae. sharonensis, Ae. longissima and Ae. speltoides, respectively. The nature of response to VAM in hexaploid wheat was controlled by factors of the A and B genomes which are epistatic over those located in the D genome. The high mycorrhizal colonization and dependency which was found in T. timopheevii var. araraticum may indicate special genomic affinity possessed by the G genome of wheat in VAM interaction. Based on the 27 wheat lines and species tested in this study only low correlation between G. intraradices colonization and its contribution to plant growth can be suggested.  相似文献   

A microsatellite marker linked to leaf rust resistance transferred from Aegilops triuncialis into hexaploid wheat   总被引：1，自引：0，他引：1  

M. Aghaee-Sarbarzeh  Harjit  -Singh H. S. Dhaliwal 《Plant Breeding》2001,120(3):259-261

Aegilops triuncialis (UUCC) is an excellent source of resistance to various wheat diseases, including leaf rust. Leaf rust‐resistant derivatives from a cross of a highly susceptible Triticum aestivum cv.‘WL711’ as the recurrent parent and Ae. triuncialis Ace.3549 as the donor and with and without a pair of acrocentric chromosomes were used for molecular tagging. The use of a set of sequence tagged microsatellite (STMS) markers already mapped to different wheat chromosomes unequivocally indicated that STMS marker gwm368 of chromosome 4BS was tightly linked to the Ae. triuncialis leaf rust resistance gene transferred to wheat. The presence of the Ae. Triuncialis‐specific STMS gwm368 homoeoallele along with the non‐polymorphic 4BS allele in the rust‐resistant derivatives with and without the acrocentric chromosome indicates that the resistance has been transferred from the acrocentric chromosome to either the A or the D genome of wheat. This alien leaf rust resistance gene has been temporarily named as LrTr.  相似文献   

Eyespot resistance in wheat ×Aegilops kotschyi backcross lines     

A. Thiele    E. Schumann    A. Peil  W. E. Weber 《Plant Breeding》2002,121(1):29-35

In wheat, eyespot caused by PseudoCercosporella herpotrichoides, is one of the main foot‐rot diseases. Yield losses up to 40% occur in some years. Plant protection by fungicide application is possible, but a better way is through resistance breeding. Two resistance sources are currently used: Aegilops ventricosa and the old French variety ‘Cappelle Desprez’. A new source of resistance has been found in the accession AE120 of Ae. kotschyi from the Gatersleben gene bank with the genome constitution UUSvSv. This accession has been crossed and backcrossed twice to susceptible wheat varieties, and in each generation, plants with a relatively high level of resistance have been selected. From this material, lines have been developed and tested in F₆ to F₈. Finally, several lines could be classified as moderately resistant, such as the French variety ‘Cappelle Desprez’ after resistance determination during milk ripeness (DC75). No line reached the high resistance level achieved with Pch‐1 from Ae. ventricosa. The yield of these lines under infection conditions was higher compared with ‘Cappelle Desprez’. The line 6018‐96‐3 showed a high yield of 64.3 dt/ha compared with 59.6 dt/ha, on the average, in combination with the best expression of eyespot resistance in the adult growth stage over 3 years.  相似文献   

Expression of morphological and flowering time variation through allopolyploidization: an empirical study with 27 wheat synthetics and their parental Aegilops tauschii accessions     

S. Takumi  Y. Naka  H. Morihiro  Y. Matsuoka 《Plant Breeding》2009,128(6):585-590

It was recently shown that allopolyploidy brings novel epistatic interactions to genes belonging to different genomes. However, systematic studies of the phenotypic relationships between synthetic hexaploid wheats and their parental lines have not been conducted. In this study, 27 synthetic hexaploid wheats were produced by crossing the tetraploid wheat cultivar ‘Langdon’ with 27 accessions of Aegilops tauschii. Variations in 20 morphological and flowering traits were analysed in both the synthetic wheat lines and the parental Ae. tauschii accessions. The 20 traits exhibited large variations in the wheat lines. For many of the traits, the degree of variation in the parental accessions was reduced in the hexaploid derivatives. Principal component analysis of floret‐related traits divided the Ae. tauschii accessions into two subspecies, ssp. tauschii and ssp. strangulata, but this parental pattern of subspecific division was not detectable in the hexaploids. Our results suggest that the ‘Langdon’ genome may have an alleviating effect on the expression of D‐genome‐derived variations in derived synthetics.  相似文献   

Origin of S^v Genome of Aegilops variabilis and Utilization of the S^v as Analyser of the S Genome of the Aegilops Species in the Sitopsis Section     

M. Q. Yu  J. Jahier 《Plant Breeding》1992,108(4):290-295

Hybrids of Aegilops variabilis (2n = 28, UUS^vS^v) with the low-pairing type lines of Ae. longissima, Ae. bicornis, Ae. searsii, Ae. speltoides and Ae. umbellulata were obtained. This is the first report of successful hybridization between Ae. variabilis and Ae. searsii. Meiotic analysis of these hybrids showed that the U genome of Ae. variabilis donated by Ae. umbelltilata remained nearly unchanged and Ae. longissima is the possible donor species of the S genome to Ae. variabilis. But the S^v genome and the S¹ genome of Ae. longissima are not completely homologous and are structurally differentiated by at least one interchange. According to their levels of homology with S^v through the means of chromosome associations, the four genomes of Sitopsis section species can be classified as follow: S^v? S¹ > S^b > S^s > S. The meiotic behaviour of the hybrids between the wheat ‘Chinese Spring’ and the four Sitopsis section species studied has not supported the view that one of the four species is the donor of the B genome of wheat.  相似文献   

Identification of quantitative trait loci controlling grain size and shape in the D genome of synthetic hexaploid wheat lines     

Yuki Okamoto  Anh T. Nguyen  Motohiro Yoshioka  Julio C.M. Iehisa  Shigeo Takumi 《Breeding Science》2013,63(4):423-429

Synthetic hexaploid wheat is an effective genetic resource for transferring agronomically important genes from Aegilops tauschii to common wheat. Wide variation in grain size and shape, one of the main targets for wheat breeding, has been observed among Ae. tauschii accessions. To identify the quantitative trait loci (QTLs) responsible for grain size and shape variation in the wheat D genome under a hexaploid genetic background, six parameters related to grain size and shape were measured using SmartGrain digital image software and QTL analysis was conducted using four F₂ mapping populations of wheat synthetic hexaploids. In total, 18 QTLs for the six parameters were found on five of the seven D-genome chromosomes. The identified QTLs significantly contributed to the variation in grain size and shape among the synthetic wheat lines, implying that the D-genome QTLs might be at least partly functional in hexaploid wheat. Thus, synthetic wheat lines with diverse D genomes from Ae. tauschii are useful resources for the identification of agronomically important loci that function in hexaploid wheat.  相似文献   

Wheat pre-breeding using wild progenitors   总被引：6，自引：1，他引：6  

J. J. Valkoun 《Euphytica》2001,119(1-2):17-23

To facilitate the use of wheat wild relatives in conventional breedingprograms, a wheat pre-breeding activity started at ICARDA in 1994/1995season. Preliminary results of gene introgression from wild diploidprogenitors, Triticum urartu, T. baeoticum, Aegilops speltoides andAe. tauschii and tetraploid T. dicoccoides are described. Crosseswith wild diploid Triticum spp. yielded high variation in plant andspike morphology. Synthetic hexaploids were produced from crosses of alocal durum wheat landrace `Haurani' with two Ae. tauschiiaccessions. Both Ae. tauschii accessions carry hybrid necrosis allelesthat gave necrotic plant phenotypes in crosses with some bread wheats.Backcross progenies with agronomical desirable traits, i.e. high spikeproductivity, short plant stature, earliness, drought tolerance and highproductive tillering, were identified in crosses of durum wheat with wild Triticum spp. and in a cross of one of the hexaploid synthetics with alocally adapted bread wheat cv. `Cham 6'. Resistance to yellow rust wasfound in durum wheat crosses with the three wild Triticum spp. andAe. speltoides and leaf rust resistance was identified in crosses withT. baeoticum and Ae. speltoides. The results show that wheatimmediate progenitors may be a valuable and readily accessible source ofnew genetic diversity for wheat improvement.  相似文献   

Transfer of rust resistance from Aegilops ovata into bread wheat (Triticum aestivum L.) and molecular characterisation of resistant derivatives     

H.S Dhaliwal  Harjit-Singh  M. William 《Euphytica》2002,126(2):153-159

An interspecific cross was made to transfer leaf rust and stripe rust resistance from an accession of Aegilops ovata (UUMM) to susceptible Triticum aestivum (AABBDD) cv. WL711. The F₁was backcrossed to the recurrent wheat parent, and after two to three backcrosses and selfing, rust resistant progenies were selected. The C-banding study in a uniformly leaf rust and stripe rust resistant derivative showed a substitution of the 5M chromosome of Ae. ovata for 5D of wheat. Analysis of rust resistant derivatives with mapped wheat microsatellite makers confirmed the substitution of 5M for 5D. Some of these derivatives also possessed one or more of the three alien translocations involving 1BL, 2AL and 5BS wheat chromosomes which could not be detected through C-banding. A translocation involving 5DSof wheat and the substituted chromosome 5M of Ae. ovata was also observed in one of the derivatives. Susceptibility of this derivative to leaf rust showed that the leaf rust resistance gene(s) is/are located on short arm of 5M chromosome of Ae. ovata. Though the Ae. ovatasegment translocated to 1BL and 2AL did not seem to possess any rust resistance gene, the alien segment translocated to 5BS may also possess gene(s) for rust resistance. The study demonstrated the usefulness of microsatellite markers in characterisation of interspecific derivatives. This revised version was published online in August 2006 with corrections to the Cover Date.  相似文献