The inheritance model for the fiberless trait in upland cotton (<Emphasis Type="Italic">Gossypium hirsutum</Emphasis> L.) line SL1-7-1: variation on a theme     

Rickie B. Turley  Reiner H. Kloth 《Euphytica》2008,164(1):123-132

Segregating populations were developed to evaluate the inheritance of the fiberless seed phenotype of upland cotton (Gossypium hirsutum L.) line SL1-7-1. We report the inheritance of fuzzy, fuzzless and fiberless seed from crosses of SL1-7-1 with wildtype DP5690, Mexican fuzzless seed UA 3-3 (accession 143), Ballard fuzzless seed (accession 243), and MD17. Results from the F₁, F₂ and F_2:3 progeny derived from the SL1-7-1 X DP5690 indicated that the expression of the fiberless phenotype fit a three loci model with one locus being the dominant fuzzless seed allele N ₁ . The other two loci were tested to verify whether they were allelic to either recessive fuzzless seed alleles n ₂ or n ₃ . Using the segregation ratios of the F₂ progeny derived from the 143 X SL1-7-1 cross and F₂-derived F₃ families from SL1-7-1 X DP5690 with fuzzy seed (lacked N ₁ ), it is proposed that SL1-7-1 lacks the recessive n ₂ allele, but contains the n ₃ allele in the genotype of SL1-7-1. The third locus was previously not characterized and has been designated as fl ₁ (fiberless), therefore, the genotype for the fiberless phenotype of SL1-7-1 is N ₁ N ₁ fl ₁ fl ₁ n ₃ n ₃ . Fiberless lines MD17 X SL1-7-1 were crossed to verify similarities in genotypes between line and the genotype model predictability. Various combinations of the homozygous and heterozygous expression of N ₁ , n ₂ , n ₃ and fl ₁ allele produced plants with lower lint percentages.  相似文献   

Genetic analysis of phosphoglucoisomerase isozymes in cultivated and wild species of section Cepa in Allium     

M. Shigyo  Y. Tashiro  S. Isshiki  S. Miyazaki 《Euphytica》1996,90(2):195-200

Phosphoglucoisomerase (PGI) was studied to establish the genetic system of the isozymes in section Cepa of Allium. The results of isozyme analyses using 15 cultivars and clones in two cultivated species A. fistulosum and A. cepa, eight strains in four wild species A. altaicum, A. galanthum, A. oschaninii and A. vavilovii and a total of 10 hybrids between A. fistulosum and A. cepa and between the cultivated and wild species revealed that: 1) PGI was a dimeric enzyme; 2) the two cultivated and four wild species had a common gene locus Pgi-1 where six alleles were identified; and 3) A. fistulosum had Pgi-1 ^F-1 and Pgi-1 ^F-2, A. cepa had Pgi-1 ^A-1 and Pgi-1 ^A-2, A. altaicum had Pgi-1 ^F-1, A. galanthum and A. vavilovii had Pgi-1 ^A-1, and A. oschaninii had Pgi-1 ^A-1, Pgi-1^O-1 and Pgi-1 ^O-1. The intra- and inter-specific polymorphisms of PGI isozymes are expected to be valuable tools for the genetics and practical utilization of the wild species in section Cepa.  相似文献   

Relationships between amino acid contents and peroxidase isozymes in leaf blades of mulberry (Morus spp.)   总被引：1，自引：0，他引：1  

H. Hirano  T. Inokuchi  T. Nakajima 《Euphytica》1980,29(1):145-153

Summary Varietal differences of amino acid contents and total nitrogen content were determined in the leaf blades of mulberry (Morus spp.) which is the food source of the silkworm. Between the peroxidase isozyme genotypes, Px ₁ ¹ Px ₁ ¹ or Px ₁ ¹ Px ₁ ¹ and Px ₁ ² Px ₁ ², there were significant differences at the 1% level in total amino acid content and contents of threonine, aspartic acid and serine, at the 5% levelin contents of isoleucine, glycine and phenylalanine. All of these amino acid contents were higher in Px ₁ ¹ Px ₁ ¹ and Px ₁ ¹ Px ₁ ¹ Px ₁ ¹ than in Px ₁ ² Px ₁ ². But there was no significant difference in contents of the other amino acids and total nitrogen between the genotypes.  相似文献   

Variation of sugary1 and shrunken2 gene frequency in different maize genetic backgrounds     

P. Revilla    R. A. Malvar    V. M. Rodríguez    A. Butrón    B. Ordás    A. Ordás 《Plant Breeding》2006,125(5):478-481

Genotypes affect the survival of mutant genes in segregating populations. This study elucidates the effect of different maize genetic backgrounds on variation in gene frequency in sweet corn, sugary1 (su1) and sugary enhancer1 (se1), and supersweet corn, shrunken2 (sh2). Four sweet corn inbred lines and a supersweet synthetic were crossed to six field corn inbreds from diverse heterotic groups. The crosses were self‐pollinated and the F₂ population was recombined twice. Gene frequencies were calculated from grain frequencies. Variation of su1 frequency differed significantly from random drift and a significant linear reduction was observed for half of the su1su1Se1Se1Sh2Sh2 × Su1Su1Se1Se1Sh2Sh2 crosses. The su1 and sh2 frequencies suffered a significant linear reduction for most su1su1se1se1Sh2Sh2 × Su1Su1Se1Se1Sh2Sh2 and Su1Su1Se1Se1sh2sh2 × Su1Su1Se1Se1Sh2Sh2 crosses, respectively. Also, the residual sums of squares, due to deviations from the linear trend, were significant for some crosses due to frequency‐dependent selection and genotypic interactions. Viability of su1 and sh2 depended on the specific sweet × field corn genotype combination but was not related to field corn heterotic groups. The se1 gene could have a detrimental effect on su1 viability.  相似文献   

A novel Tos17 insertion upstream of Hd1 alters flowering time in rice          下载免费PDF全文

Kiyosumi Hori  Kazuki Matsubara  Yusaku Uga  Masahiro Yano 《Plant Breeding》2016,135(5):588-592

Heading date 1 (Hd1) is one of the major determinants of flowering time and regional adaptability in rice (Oryza sativa L.), because there is a significant correlation between Hd1 allelic diversity and phenotypic differences in rice cultivars. In this study, we isolated a novel rice mutant with a Tos17 retrotransposon insertion upstream of Hd1. The Tos17 insertion mutant of Hd1 [designated as Tos17(Hd1)] had decreased photoperiod sensitivity and mRNA expression of Hd1, as compared with wild‐type Nipponbare. Between Tos17(Hd1) and Nipponbare, expression levels of OsPRR1 and OsGI were similar, whereas those of two florigen genes Hd3a and RFT1, were significantly different under both short and long‐day conditions. Tos17(Hd1) showed photoperiod sensitivity intermediate between that of Nipponbare and a near‐isogenic line having a non‐functional allele of Hd1, indicating that Tos17(Hd1) has an attenuated but functional Hd1 allele. Our results revealed that allele mining of Hd1 may provide good opportunities to develop novel rice cultivars showing different levels of photoperiod sensitivity.  相似文献   

Identification by genetic analysis of two races of Erysiphe polygoni DC. causing powdery mildew disease in mungbean     

K. S. Reddy 《Plant Breeding》2007,126(6):603-606

Powdery mildew disease is one of the important foliar diseases of mungbean. Earlier, resistance sources have been identified and their genetic nature studied, but there is no information on race identification of Erysiphe polygoni so far. Different genotypes having combinations of the host resistance genes Pm₁Pm₁Pm₂Pm₂‘TARM‐1’, Pm₁Pm₁pm₂pm₂ (S‐158‐16) and pm₁pm₁Pm₂Pm₂ (S‐2‐4‐1) and no resistance genes pm₁pm₁pm₂pm₂ (TPM‐1) were used in the present investigation. The genotypes were screened with four isolates from Akola, Trombay, Jabalpur and Gauribidanur centres in India. The interactions of resistant differentials with the Akola isolate were different from the other three isolates. The inheritance patterns of different resistance genes in various crosses also differed with respect to the Akola isolate. The variation observed in the Akola isolate could be explained as the result of mutation of the dominant avirulence Avr₁Avr₁ genes to virulence avr₁avr₁ genes corresponding to host resistance Pm₁Pm₁genes. Therefore, the Akola isolate is identified as a second race of E. polygoni.  相似文献   

Genetic and Molecular Characterization of Vernalization Genes Vrn‐A1, Vrn‐B1, and Vrn‐D1 in Spring Wheat Germplasm from the Pacific Northwest Region of the U.S.A.     

D. K. Santra  M. Santra  R. E. Allan  K. G. Campbell  K. K. Kidwell 《Plant Breeding》2009,128(6):576-584

The objective of this study was to determine the Vrn‐1 allelic composition of spring wheat germplasm from the Pacific Northwest region of the USA. Individual plants from 56 spring wheat lines were crossed to near‐isogenic tester lines carrying the dominant allele Vrn‐A1, Vrn‐B1 or Vrn‐D1. F₂ progeny were evaluated for growth habit in the field and Vrn‐1 allelic composition was determined through chi‐square analysis. Lines also were analysed with DNA sequence‐based Vrn‐1 allele‐specific markers. A majority of the germplasm carried the dominant allele Vrn‐A1a alone or in combination with Vrn‐B1, Vrn‐D1 or Vrn‐B3 alleles. Vrn‐B1 and Vrn‐D1 were almost always associated with other dominant Vrn‐1 allele(s). Based on DNA sequence analysis, a novel Vrn‐B1 allele referred to as Vrn‐B1b, which carried a single nucleotide polymorphism (SNP) and a 36 bp deletion, was identified in cultivar ‘Alpowa’. These results will be useful to wheat breeders for choosing parents with different Vrn‐1 alleles for crossing to maximize diversity at the Vrn‐1 loci with an expectation of identifying superior Vrn‐1 allelic combinations for cultivar improvement.  相似文献   

Allelic variation at the <Emphasis Type="Italic">Glu-1</Emphasis> and <Emphasis Type="Italic">Glu-3</Emphasis> loci,presence of the 1B.1R translocation,and their effects on mixographic properties in Chinese bread wheats     

Li?Liu  Zhonghu?HeEmail author  Jun?Yan  Yan?Zhang  Xianchun?Xia  Roberto?J.?Pe?a 《Euphytica》2005,142(3):197-204

Allelic variations at the Glu-1 and Glu-3 loci play an important role in determining dough properties and bread-making quality. Two hundred and fifty-one cultivars and advanced lines from four major Chinese wheat-producing zones in the autumn-sown wheat regions were used to investigate the high-molecular-weight glutenin subunits (HMW GS) and low-molecular-weight glutenin subunit (LMW GS) composition controlled by the Glu-1 and Glu-3 loci, respectively, as well as the presence of the 1B.1R translocation, and to determine the association of storage protein composition with protein content, SDS sedimentation value, and dough-mixing properties measured by mixograph. Three, nine, and four allelic variations were present at Glu-A1, Glu-B1, and Glu-D1, respectively. Subunits 1, N, 7+8, 7+9, and 2+12 are the dominant HMW GS, with frequencies of 51.3, 39.4, 38.2, 45.0, and 59.8%, respectively. Five and eight allelic variations were present at the Glu-A3 and Glu-B3 loci (data of Glu-D3 were not available), Glu-A3a, Glu-A3d, Glu-B3j (presence of the 1B.1R translocation), and Glu-B3d are the dominant LMW GS, with frequencies of 37.1, 31.7, 44.6, and 20.3%, respectively. The frequencies of allelic variation at Glu-1 and Glu-3 differ greatly in different regions. The effects of HMW GS and LMW GS on SDS sedimentation value, mixing time, and mixing tolerance were significant at P = 0.01, with Glu-D1 and Glu-B3 showing the largest contributions to mixing time and mixing tolerance. Averaged data from two locations showed that the quality effects of glutenin loci could be ranked as Glu-B3 > Glu-B1 > Glu-A1 > Glu-D1 > Glu-A3 for SDS sedimentation value, Glu-D1 > Glu-B3 > Glu-A1 = Glu-B1 = Glu-A3 for mixing time, and Glu-D1 > Glu-B3 = Glu-B1 > Glu-A3 > Glu-A1 for mixing tolerance, respectively. The significant and negative effect of the 1B.1R translocation on dough properties was confirmed. It was concluded that the high frequency of undesirable HMW GS and LMW GS and the presence of the 1B.1R translocation are responsible for the weak gluten property of Chinese germplasm; hence, reducing the frequency of the 1B.1R translocation and integration of desirable subunits at Glu-1 and Glu-3 such as 1, 7+8, 14+15, 5+10, Glu-A3d, and Glu-B3d, could lead to the improvement of gluten quality in Chinese wheats.  相似文献   

Genetic control of irregular striping, a new phenotype in Cucurbita pepo     

Harry S. Paris 《Euphytica》2003,129(1):119-126

Longitudinal striping of the fruit exterioris a common trait in Cucurbita pepo(pumpkin, squash, gourd). Striping occursas ten pairs of alternating dark and lightstripes that are regularly situated inaccordance with the ten sub-epidermalcarpellary vein tracts. Usually, the darkstripes occur in the central areas betweenthe vein tracts, with the light stripesoccupying the remainder of the fruitsurface. A new phenotype is described inwhich dark spots or streaks occur in thecentral areas between the vein tracts;these are usually accompanied by darkstreaks or stripes that occur adjacent toand over part or all of the length of someor all of the ten carpellary vein tracts. The inheritance of this irregular stripingpattern was studied by crossing anaccession that bred true for this phenotypewith a near-isogenic line havinglight-colored fruits. The resultsindicated that irregular striping isdominant to light coloration and isconferred by a single gene. Testcrossesfor allelism with regular striping wereprepared by crossing the irregularlystriped accession with near-isogenic lineshaving broad stripes, l-1 ^BSt/l-1 ^BSt, and narrowstripes, l-1 ^St/l-1 ^St. The testcross results revealed thatirregular striping is conferred by anallele at the l-1 locus, designatedl-1 ^iSt. The l-1 ^iStallele is dominant to light-colored (l-1), recessive to dark-colored (L-1), and can be co-dominant or recessiveto broad-striped (l-1 ^BSt) andnarrow-striped (l-1 ^St),depending on whether or not it is fullyexpressed. Dominance relationships at thel-1 locus can, therefore, berepresented as L-1 > (l-1 ^BSt > l-1 ^St) l-1 ^iSt > l-1.  相似文献   

Molecular characterization of <Emphasis Type="Italic">Pina</Emphasis> and <Emphasis Type="Italic">Pinb</Emphasis> allelic variations in Xinjiang landraces and commercial wheat cultivars     

Liang Wang  Genying Li  Xianchun Xia  Zhonghu He  Peiyuan Mu 《Euphytica》2008,164(3):745-752

Grain hardness plays an important role in determining both milling performance and quality of the end-use products produced from common or bread wheat. The objective of this study was to characterize allelic variations at the Pina and Pinb loci in Xinjiang wheat germplasm for further understanding the mechanisms involved in endosperm texture formation, and the status of grain texture in Chinese bread wheat. A total of 291 wheat cultivars, including 56 landraces, and 95 introduced and 140 locally improved cultivars, grown in Xinjiang, were used for SKCS measurement and molecular characterization. Among the harvested grain samples, 185 (63.6%), 40 (13.7%), and 66 (22.7%) were classified as hard, mixed and soft, respectively. Eight different genotypes for the Pina and Pinb loci were identified, including seven previously reported genotypes, viz., Pina-D1a/Pinb-D1a, Pina-D1a/Pinb-D1b, Pina-D1b/Pinb-D1a, Pina-D1a/Pinb-D1p, Pina-D1a/Pinb-D1q, Pina-D1a/Pinb-D1aa, Pina-D1a/Pinb-D1ab, and a novel Pinb allele, Pinb-D1ac. This new allele, detected in Kashibaipi (local landrace) and Red Star (from Russia) has a double mutation at the 257th (G to A substitution) and 382nd (C to T substitution) nucleotide positions of the coding region. Pina-D1b, Pinb-D1b, and Pinb-D1p were the most common alleles in Xinjiang wheat germplasm, with frequencies of 14.3%, 38.1% and 28.6% in hard textured landraces, 25.5%, 56.9% and 11.8% in hard introduced cultivars, and 24.8%, 47.8% and 26.5% in hard locally improved cultivars, respectively. The restriction enzymes ApaI, SapI, BstXI and SfaNI were used to identify Pinb-D1ab or Pinb-D1ac, Pinb-D1b, Pinb-D1e and Pinb-Dg, respectively, by digesting PCR products of the Pinb gene. The unique grain hardness distribution in Xinjiang bread wheat, as well as the CAPs markers for identification of the Pinb alleles provided useful information for breeding wheat cultivars with optimum grain textures. Liang Wang and Genying Li—contributed equally to this work.  相似文献   

Haplotype analysis of <Emphasis Type="Italic">Viviparous</Emphasis>-<Emphasis Type="Italic">1</Emphasis> gene in CIMMYT elite bread wheat germplasm     

Y. W. Sun  H. D. Jones  Y. Yang  S. Dreisigacker  S. M. Li  X. M. Chen  P. R. Shewry  L. Q. Xia 《Euphytica》2012,186(1):25-43

Pre-harvest sprouting (PHS) greatly reduces the quality and economic value of wheat grain. In this study, a total of 168 International Maize and Wheat Improvement Center (CIMMYT) wheat germplasm lines were examined to characterize the haplotypes of Vp-1A, Vp-1B and Vp-1D, which are located on the long arms of chromosomes 3A, 3B and 3D, respectively. Among them, five new alleles of Vp-1Aa (the wild allele) were identified on chromosome 3A, and designated as Vp-1Ab, Vp-1Ac, Vp-1Ad, Vp-1Ae and Vp-1Af, respectively. The main difference between Vp-1Aa and the newly identified alleles was in the numbers of CTT repeats located in the third intron, but Vp-1Af also had 6 and 2 bp deletions at positions 2860–2865 bp and 2880–2881 bp, and possessed five SNPs within the same intron region. In the Vp-1B locus, several alleles (Vp-1Ba, Vp-1Bb, Vp-1Bc, Vp-1Bd, Vp-1Be and Vp-1Bf) have already been identified. In the present material only two, the already known allele Vp-1Bc, and a new one, designated as Vp-1Bg, were detected. Compared with Vp-Ba, Vp-1Bg had additional insertion of TCC at position 2372 bp and a 9 bp change from CTGCATC AC to GCATCAGTG at 2417–2425 bp. However, no polymorphism was detected in Vp-1D. The frequencies of Vp-1Aa Vp-1Ab, Vp-1Ac, Vp-1Ad, Vp-1Ae, and Vp-1Af were 65, 10, 11, 4, 5 and 5%, respectively. For Vp-1B, 155 out of the 168 lines were Vp-1Bc; the remaining 13 were Vp-1Bg. Analyses of the germination index (GI) and abscisic acid (ABA) sensitivity showed that genotypes with Vp-1Ab or Vp-1Af showed higher PHS resistance than the ones with other alleles, suggesting that they might be valuable for CIMMYT breeding program or germplasm introduction. The results presented here will underpin the introduction of germplasm from CIMMYT and the improvement of PHS resistance, both in CIMMYT and elsewhere.  相似文献   

Distribution of the Rht-B1b, Rht-D1b and Rht8 reduced height genes in autumn-sown Chinese wheats detected by molecular markers   总被引：1，自引：0，他引：1  

Xiaoke Zhang  Songjie Yang  Yang Zhou  Zhonghu He  Xianchun Xia 《Euphytica》2006,152(1):109-116

Reduction of plant height has played a significant role in improving wheat production and knowledge of dwarfing genes in Chinese wheat will be very important for developing high yielding cultivars. Molecular markers were used to detect the presence of genes Rht-B1b (Rht1), Rht-D1b (Rht2) and Rht8 in 220 wheat genotypes from autumn-sown wheat regions in China. They include landmark landraces, leading cultivars and core parents involved in wheat breeding from the 1950s to the present. Results indicated that Rht-D1b and Rht8 dominate with frequencies of 45.5% and 46.8%, respectively, followed by Rht-B1b with a frequency of 24.5%. The frequencies of Rht-B1b and Rht-D1b increased, from 8.6 to 32.2% and 36.2 to 53.4%, respectively, whereas the frequency of Rht8 has remained constant over time, when compared with cultivars released before and after 1990. This indicates that both the Rht-B1b and Rht-D1b were successfully used in wheat production in Chinese environments. Our study shows that Rht-B1b and Rht-D1b can be used in the post-anthesis heat stressed environments. Rht-B1b in Chinese wheats is derived from two sources, viz., Norin 10 and the Italian introduction St2422/464 (Rht-B1b and Rht8). The identity of Rht-B1b in these two sources still needs to be confirmed. Suwon 86 carrying both Rht-B1b and Rht-D1b, and Chinese cultivars, Huixianhong and Yaobaomai, are the primary sources of Rht-D1b in Chinese wheats. It is likely that Rht-D1b in Youbaomai derives from an unknown introduction. Italian introductions such as Funo and Abbondanza, and Lovrin 10 with the 1B/1R translocation, and Chinese landraces are the three major sources of Rht8. This information will be very valuable for wheat breeding in China, and internationally.  相似文献   

Hybrid necrosis and hybrid chlorosis in Indian varieties of Triticum dicoccum Schubl.     

M. Kochumadhavan  S. M. S. Tomar  P. N. N. Nambisan  S. Ramanujam 《Euphytica》1984,33(3):853-858

Summary Forty-four varieties of Triticum dicoccum ex India were crossed to two T. aestivum testers, namely, C 306 (Ne ₁ ne ₂ ch ₁ Ch ₂) and Sonalika (ne ₁ Ne ₂ ch ₁ Ch ₂), to determine their necrosis and chlorosis genes. Thirty-six (81%) varieties were found to be carriers of the Ch ₁gene; the genotype of their necrosis gene (Ne ₁or ne ₁) could not be determined for want of suitable testers with the authors. Six varieties were found to be noncarriers for necrosis and chlorosis genes and two varieties were found to be carriers of the Ne ₁gene and non-carriers for the chlorosis gene. Allelic variation at the Ch ₂locus was observed; two alleles, Ch ₂ ^s and Ch ₂ ^m, are suggested.  相似文献   

Genetic mapping of the genes for non-glaucous phenotypes in tetraploid wheat     

K. Yoshiya  N. Watanabe  T. Kuboyama 《Euphytica》2011,177(2):293-297

Glaucousness is a visual trait related to the colour of the photosynthetic surface and hence it can be easily selected. It is associated both with the deposition and orientation of wax platelets on the cuticle of the photosynthetic surface. It is known that the glaucous leaf character is determined by the W1 gene, and Iw1 and Iw1 ^DIC genes from Triticum dicoccoides, which act as an epistatic inhibitor to a glaucousness. The aim of the present study was to map W1, Iw1 and Iw1 ^DIC from T. dicoccoides in the short arm of chromosome 2B of tetraploid wheat. Segregation of F₂ populations of three hybrids indicated that the marker Xgwm455 is linked with and distal to Iw1 (16.7 cM), two markers are tightly linked with W1, and Iw1 ^DIC is linked with Xgwm614 and Xwmc661 distally located on chromosome 2BS. From three derived maps, it is suggested that Iw1 ^DIC locus is different from W1. We discuss the difference between Vir and Iw1 ^DIC from T. dicoccoides.  相似文献   

Allelic polymorphism and inheritance of MdACS1 and MdACO1 genes in apple (Malus × domestica Borkh.)     

Slađana Marić  Milan Lukić 《Plant Breeding》2014,133(1):108-114

The allelic polymorphism and inheritance of MdACS1 and MdACO1 genes were analysed in 28 apple cultivars, which were derived from reciprocal crosses of the following parental pairs: ‘Golden Delicious’ × ‘James Grieve’, ‘Golden Delicious’ × ‘Jonathan’, ‘Cox's Orange Pippin’ × ‘Golden Delicious’, ‘Cox's Orange Pippin’ × ‘Jonathan’. Polymorphisms were detected by PCR and the use of two restriction enzymes (BamH1 and RsaI). In addition, new primers were designed for the further discrimination of MdACO1 alleles. Two alleles of MdACS1 gene (MdACS1‐1 and MdACS1‐2) and three alleles of MdACO1 gene (a, b and c) were detected. Cloning and sequencing of MdACO1 alleles confirmed a high conservation and some differences within the coding regions and helped to reconcile between different numbering systems. Observed segregations confirmed that alleles a, b and c belonged to the MdACO1 gene. It is apparent that polymorphisms within the MdACS1 and MdACO1 genes could aid cultivar genotyping and identification and, furthermore, that the MdACS1‐2/2 genotype is correlated with a long apple storage life.  相似文献   

The effect of VRN1 genes on important agronomic traits in high‐yielding Canadian soft white spring wheat     

Atif Kamran  Harpinder S. Randhawa  Rong‐Cai Yang  Dean Spaner 《Plant Breeding》2014,133(3):321-326

For reproductive success, flowering time must synchronize with favourable environmental conditions. Vernalization genes play a major role in accelerating or delaying the time to flowering. We studied how different vernalization (VRN1) gene combinations alter days to flowering and maturity and consequently the effect on grain yield and other agronomic traits. The study focussed on the effect of the VRN1 gene series (Vrn‐A1, Vrn‐B1 and Vrn‐D1) and their combinations. The Vrn gene group Vrn‐A1a, Vrn‐B1, vrn‐D1 was the earliest to flower and mature, while Vrn‐A1b, Vrn‐B1, vrn‐D1 was the latest to flower. Spring wheat lines with vrn‐A1, Vrn‐B1, Vrn‐D1 were the highest yielding and matured at a similar time as those having vernalization genes Vrn‐A1a, Vrn‐B1 and Vrn‐D1. The findings of this study suggest that the presence of Vrn‐D1 has a direct or indirect role in producing higher grain yield. We therefore suggest the introduction of Vrn‐D1 allele into higher‐yielding classes within Canadian spring wheat germplasm.  相似文献   

Sequence variation in the bolting time regulator BTC1 changes the life cycle regime in sugar beet          下载免费PDF全文

Nadine Höft  Nadine Dally  Christian Jung 《Plant Breeding》2018,137(3):412-422

In beet production, flowering is an undesirable trait which drastically reduces yield. BOLTING TIME CONTROL 1 (BTC1) and BvBBX19 are major floral regulators in beet. Their proteins have been suggested to interact to jointly regulate their downstream targets BvFT1 and BvFT2. Annual and biennial BTC1 haplotypes differ by six non‐synonymous SNPs and a large insertion in the promoter of the biennial btc1 allele. We describe a new BTC1 allele which displays three nucleotide polymorphisms in the coding sequence and an 8‐bp insertion in the promoter region compared to the annual BTC1_d allele. The protein lacks a low‐complexity region, which likely alters its suggested ability to bind BvBBX19. Our findings demonstrate that little sequence variation in BTC1 is sufficient to turn an annual into a biennial genotype. Our results shed new light on the evolution of cultivated beets, and the identified btc1_l allele offers new possibilities to breed winter beets.  相似文献   

Linkage maps for nine isozyme and four marker loci in sugarbeet (Beta vulgaris L.)     

Jun Abe  Guo-Ping Guan  Yoshiya Shimamoto 《Euphytica》1992,66(1-2):117-126

Summary An analysis of linkage in sugarbeet (Beta vulgaris L.) was conducted for nine isozyme loci, Ak ₁, Gdh ₂, Idh ₁, Lap, Mdh ₁, Mdh ₃, Pgi ₂, Pgm ₁,and Skdh ₂,and four marker loci, annuality (B), red hypocotyl-color (R), pollen fertility restorer (X), and monogermity (m). Four linkage groups were identified; R-B-Idh ₁, Gdh ₂-Mdh ₁, Ak ₁ -Lap, and Mdh ₃-Pgm ₁.In addition, X was linked to Mdh ₁and Skdh ₂with a recombination value of 13.4% and 34.7%, respectively, and m was linked to Pgm ₁with a recombination value of 35.8%. Pgi ₂was inherited independently of the four linkage groups. This locus showed a skewed ratio in F₂ progeny of a cross between self-compatible and self-incompatible lines and the allele derived from self-incompatible parents decreased markedly. On the other hand, the expected segregation ratio was observed in the backcrossed progeny and also in F₂ progeny of a cross between self-compatible lines. The results obtained suggest that Pgi ₂may be linked to a self-compatibility locus (S ^f)and the two loci may be assigned to an additional linkage group.  相似文献   

Effect of VRN‐1 and PPD‐D1 genes on heading time in European bread wheat cultivars          下载免费PDF全文

Andrey B. Shcherban  Andreas Börner  Elena A. Salina 《Plant Breeding》2015,134(1):49-55

The variation of the vernalization (VRN‐1) and photoperiod (PPD‐1) genes offers opportunities to adjust heading time and to maximize yield in crop species. The effect of these genes on heading time was studied based on a set of 245 predominantly spring cultivars of bread wheat from the main eco‐geographical regions of Europe. The genotypes were screened using previously published diagnostic molecular markers for detecting the dominant or recessive alleles of the major VRN‐1 loci such as: VRN‐A1, VRN‐B1, VRN‐D1 as well as PPD‐D1. We found that 91% of spring wheat cultivars contain the photoperiod sensitive PPD‐D1b allele. Photoperiod insensitive PPD‐D1a allele has been found mainly in southern region of Europe. For this region the monogenic control of vernalization by VRN‐B1 or VRN‐D1 dominant alleles is common, whereas in the remaining part of Europe, the combination of photoperiod sensitive PPD‐D1b allele with dominant VRN‐A1, VRN‐B1 and recessive vrn‐D1 alleles represents the most frequent genotype. Also, we revealed a significantly later (5–8 days) heading of the monogenically dominant genotypes at VRN‐B1 as compared to the digenic VRN‐A1 VRN‐B1 genotypes.  相似文献   

Rubus coreanus as donor of resistance to cane diseases and mildew in red raspberry breeding     

Elizabeth Keep  Victoria H. Knight  Jill H. Parker 《Euphytica》1977,26(2):505-510

Summary Strong resistance to the cane diseases Elsinoë veneta, Didymella applanata and Botrytis cinerea, and to Sphaerotheca macularis, occurred in F₁ and BC₁ derivatives of an accession of Rubus coreanus. Resistance to cane spot (E. veneta) was polygenic.In eight out of ten BC₁ progenies, average grades for cane spot infections were significantly higher in white-flowered (an ₁) than pink-flowered (An ₁) plants and in hairy-caned (H) than in glabrous (h) seedlings. It is postulated that in R. coreanus factors controlling resistance are linked with An ₁ and. probably, with h.Average grades for spur blight (D. applanata) were significantly higher in white-flowered plants in nine out of ten BC₁ progenies. Spininess (S) was associated with greater susceptibility in six out of eight BC₁ families, although this difference was not statistically significant.Plants with the phenotype hAn ₁ on average provided the best source of resistance to both cane spot and spur blight.  相似文献