共查询到20条相似文献,搜索用时 31 毫秒
1.
Elena León Racha Aouni Fernando Piston Marta Rodríguez-Quijano Peter R. Shewry Antonio Martín Francisco Barro 《Journal of Cereal Science》2010
We have determined the technological properties of four lines containing combinations of three HMW-GS transgenes, encoding HMW-GS 1Ax1, 1Dx5 and 1Dy10. These lines were produced by conventional crossing of three single transgenic lines of the bread wheat cultivar Anza that contains the endogenous HMW-GS pairs 1Dx2 + 1Dy12 and 1Bx7* + 1By8 and is null for the Glu-A1 locus. Consequently, the total number of HMW-GS ranged from 4 in the control line Anza to 7 in line T618 which contains all three HMW-GS transgenes. The lines were studied over two years using a range of widely used grain and dough testing methods. All lines with transgenic subunits showed higher levels of glutenin proteins than the Anza control, and these differences were highly significant for lines T616, T617 and T618, containing, respectively, the transgenes encoding HMW-GS 1Ax1 and 1Dy10, 1Dx5 and 1Dy10 and 1Ax1, 1Dx5 and 1Dy10. These increases in glutenin levels are compensated by lower levels of gliadins present in transgenic lines. These changes affected the ratio of polymeric to monomeric gluten proteins (poly:mono), the ratio of HMW-GS to LMW-GS (HMW:LMW) and the contents of individual 1Ax, 1Bx, 1By, 1Dx and 1Dy subunits. Transgenic lines expressing subunit 1Dy10 together with x-type subunits (T616, T617 and T618) were superior to line T606, which had only increases in x-type subunits. In particular, the combination of transgenic subunits 1Dx5 and 1Dy10 (line T617) gave better dough rheological properties than the other combinations of transgenic subunits. For example, dough development time and stability were increased by 3.5-fold and 8.5-fold, respectively, while the mixing tolerance index (MTI) was decreased by 3.3-fold in line T617 with respect to the control line. Alveograph analyses showed that all four transgenic combinations had increased P values compared to the Anza control but subunit 1Dx5 greatly reduced the extensibility (L). These results show that stacking HMW-GS transgenes by conventional crossing is a valid strategy for the improvement of wheat quality, with different effects being related to the different HMW-GS combinations. 相似文献
2.
The high-molecular weight (HMW) glutenin subunits of bread wheat are major determinants of end-use quality. The objective of this study was to determine the 1Dx and 1Dy subunits present in 43 synthetic hexaploid wheat (SHW) lines derived by crossing durum ‘Langdon’ to 43 Aegilops tauschii accessions. Protein samples were initially electrophoresed multiple times on SDS-PAGE gels to arrange subunits into similar groups and then were electrophoresed on urea/SDS-PAGE gels. Initial results with SDS-PAGE gels indicated that there were six 1Dx and six 1Dy subunits in these SHW lines. However, results of the urea/SDS-PAGE indicated that some of the subunit groups could be further differentiated into additional subunits. A total of eleven 1Dx and eight 1Dy subunits including the newly designated subunits 1Dx2t-1, 1Dx2t-2, 1Dx2t-3, 1Dx1.5t-1, 1Dx2.1t-1, 1Dy10t-1, and 1Dy12t-1 were identified, and they composed 17 1Dx and 1Dy combinations in the SHW lines. Eight of the combinations included at least one novel subunit and hence they were novel Glu-D1 alleles. Our results indicated that urea/SDS-PAGE can be very useful in identifying new HMW glutenin subunits. Quality testing of the SHW lines will determine if any of the alleles are useful in improving wheat-baking quality. 相似文献
3.
《Journal of Cereal Science》2006,43(1):31-37
Transgene technology provides a powerful tool for developing traits that are otherwise difficult to achieve through conventional methods. The development of transgenic plants requires the use of selectable marker genes, as the efficiency of plant transformation is less than optimal for many important species, especially for monocots such as durum wheat (Triticum turgidum var. durum). Many concerns have been expressed about the persistence of currently used marker genes in plants used for field cultivation. To sustain further progress in this area, alternative efficient selection methods are desirable. A recent development is the use of selective genes that give transformed cells a metabolic advantage (positive selection) compared to untransformed cells, which are slowly starved with a concomitant reduction in growth and viability. This selection strategy is in contrast to traditional negative selections during which the transgenic cells are able to survive on a selective medium whereas the non-transgenic cells are actively killed by the selective agent. We compared the ‘selection efficiency’ of a commonly used negative selection method that employs the Streptomyces hygroscopicus bar gene to confer resistance to the herbicide bialaphos, to a positive selection employing the Escherichia coli phosphomannose isomerase (pmi) gene as the selectable gene and mannose as the selective agent. Calli derived from immature embryos of the durum wheat cultivar Svevo were bombarded separately with bar and pmi genes using a biolistic system. The integration and expression of the two genes in the T0 generation were confirmed by PCR analysis with specific primers for each gene and the chlorophenol red assay, respectively. The selection efficiency, calculated as the number of expressing plants divided by the number of total regenerants, was higher when pmi was used as the selectable marker gene (90.1%) than when bar was used (26.4%). Thus, an efficient selection method for durum wheat transformation was established that obviates the use of herbicide résistance genes. 相似文献
4.
Genetic transformation via the biolistic method has been used to introduce genes encoding natural and novel high-molecular-weight glutenin subunits (HMW-GS) into wheat. The appearance of new seed proteins of sizes not predicted by the transgene coding sequences was noted in some experiments. In this report, the identities of thirteen of these novel proteins were determined by tandem mass spectrometry (MS/MS). Seven different proteins larger than and two proteins smaller than the native protein were shown to contain peptides from 1Dx5. A novel protein found in some progeny of crosses between a transgenic plant and Great Plains winter wheats was larger than but contained several peptides from 1Dy10. In one line, a protein larger than and a protein smaller than HMW-GS each contained peptides from the N- and C-terminus of 1Dx5 and from the repeat region of 1Dy10. In a sixth transgenic line, the native Bx7 gene was apparently replaced by a gene that encodes a larger version of 1Bx7. The variant proteins accumulate in the polymeric protein fraction, indicating that they can form inter-molecular disulfide bonds. These results show that novel proteins found in some transformants are encoded by altered versions of either the transforming or endogenous HMW-GS genes. 相似文献
5.
6.
Elena León Santiago Marín María J. Giménez Fernando Piston Marta Rodríguez-Quijano Peter R. Shewry Francisco Barro 《Journal of Cereal Science》2009
In this work we report the effects of the HMW-GS 1Ax1, 1Dx5 and 1Dy10 on the breadmaking quality of the bread wheat cultivar Anza that contains the HMW-GS pairs 1Dx2 + 1Dy12 and 1Bx7* + 1By8, and is null for the Glu-A1 locus. This allows the characterization of individual subunits 1Dx5 and 1Dy10 in the absence of subunit 1Dx5, and the interactions between these subunits and subunits 1Dx2 and 1Dy12 to be determined. Three transgenic lines termed T580, T581 and T590, containing, respectively, the HMW-GS 1Ax1, 1Dx5 and 1Dy10 were characterized over 3 years using a range of widely-used grain and dough testing methods. The transgenic subunits 1Ax1, 1Dx5 and 1Dy10 accounted for 25.2%, 20.3% and 17.9%, respectively, of the total HMW-GS in the three transgenic lines. Although lines T581 and T590 expressed similar levels of subunits 1Dx5 and 1Dy10 they had different effects on other aspects of protein composition, including changes in the ratios of glutenin/gliadin, of HMW/LMW-GS, the 1Dx2/1Dy12, the x-type/y-type HMW-GS and the proportions of high molecular mass glutenin polymers. In contrast, lines transformed to express subunits 1Ax1 and 1Dx5 showed similar changes in protein composition, with higher protein contents and decreased ratios of glutenin/gliadin and 1Dx2/1Dy12. In addition, both transgenic lines showed similar increases in the ratio of x-type/y-type subunits compared to the control line. The transgenic lines were analysed using Farinograph, Mixograph and Alveograph. This confirmed that the expression of all three subunits resulted in increased dough strength (and hence breadmaking quality) of the cultivar Anza. A beneficial effect of subunit 1Dx5 has not been reported previously, transgenic wheat lines expressing this subunit giving overstrong dough unsuitable for breadmaking. However, the expression of subunit 1Dy10 had a greater effect on breadmaking quality than subunits 1Ax1 and 1Dx5. The Farinograph parameters such as dough stability and peak time were increased by 9.2-fold and 2.4-fold, respectively, in line T590 (expressing 1Dy10) with respect to the control line. Similarly, the Mixograph mixing time was increased by four-fold and the resistance breakdown decreased by two-fold in line T590 compared with the control line. The Alveograph W value was also increased by 2.7-fold in line T590 compared to the control line. These transgenic lines are of value for studying the contribution of specific HMW-GS to wheat flour functional properties. 相似文献
7.
M. Rakszegi G. Pastori H.D. Jones F. Békés B. Butow L. Láng Z. Bedo˝ P.R. Shewry 《Journal of Cereal Science》2008
Ten transgenic lines were studied which expressed a transgene encoding HMW subunit 1Ax1 in three elite spring wheat cultivars: Imp, Canon and Cadenza. These lines contained one to five copies of the transgene and the 1Ax1 subunit was expressed as 1–20% of the total glutenin protein. These lines were grown in field trials in a continental, arid climate (Martonvásár, Hungary) over two years (2004, 2005). The expression of the transgenes and their effects on the grain properties were stably inherited over the two years. Significant differences in yield were observed between three of the transgenic lines and the original genotypes, but no differences were found in their adaptiveness. Clear differences were found in the technological and rheological properties of four lines, with all the parameters characterising dough strength and extensibility (GI, W, G, Re, Ext, A) changing significantly. These differences were associated with increases in the ratio of HMW/LMW subunits and decreases in the ratios of 1Dx/1Dy and 1Bx/1By subunits. Two transgenic lines of cv Imp had high over-expression of the 1Ax1 subunit which in one line resulted in an overstrong type of dough, similar to that described previously for lines over-expressing HMW subunit 1Dx5. Transformation of cvs. Canon and Cadenza resulted in two lines with increased dough stability due to the significantly improved gluten quality. It is concluded that significant changes in the structure of the glutenin polymers caused by the altered ratio of x-type to y-type HMW subunits led to the changes in flour functional properties. 相似文献
8.
Elena Leon Fernando Piston Racha Aouni Peter R. Shewry Cristina M. Rosell Antonio Martin Francisco Barro 《Journal of Cereal Science》2010
Seven transgenic lines of a commercial wheat (Triticum aestivum L.) cultivar expressing transgenic subunits 1Ax1, 1Dx5 and 1Dy10, alone or in combination have been developed. Pasting properties were determined in these transgenic lines using a Rapid Visco Analyser (RVA) in order to determine the possible impact of HMW-GS transgene expression on the starch properties. Expression of the HMW-GS transgenes increased the proportions of the corresponding 1Ax, 1Dx and 1Dy subunits affecting significantly the ratios of HMW-GS:LMW-GS and x-type:y-type HMW-GS. Starch granule size distribution varied significantly among all transgenic lines, with the Anza control and transgenic line T616 (expressing subunits 1Ax1 and 1Dy10) showing the highest and the lowest percentage of B granules, respectively. All transgenic lines increased the water-binding capacities (WBC) at 25 °C and 90 °C. Line T606 (expressing subunits 1Ax1 and 1Dx5) and line T590 (expressing subunit 1Dy10) showed the lowest and the highest values for peak viscosity, respectively. Notably, lines expressing only transgenic x-type subunits (T580, T581 and T606), with high ratios of x-type:y-type HMW-GS, had low peak viscosities, final viscosities and breakdown viscosities. Line T590 had the highest breakdown viscosity while lines T606 and T581 had the lowest. 相似文献
9.
为了证实长发带芒草中的y型高分子量谷蛋白亚基的存在,利用SDS-PAGE分析了3份长发带芒草的高分子量谷蛋白亚基组成,发现其y亚基的迁移率均较普通小麦中迁移率最快的D y12亚基迁移率更快,应用PCR扩增、序列测定及基因编码区体外表达等方法研究了1份材料中的y亚基,确认了长发带芒草比普通小麦中迁移率最快的D y12亚基迁移率更快的T ay亚基的真实存在及表达。研究结果证实带芒草属具有与普通小麦中相类似的y型高分子量谷蛋白亚基。 相似文献
10.
J. Michael Field Dhan Bhandari Arturo Bonet Claudia Underwood Helen Darlington Peter Shewry 《Journal of Cereal Science》2008
Transgenes encoding the HMW subunits 1Ax1 and 1Dx5 have been transferred from “model” wheat lines into the commercial French bread wheat cultivar Soissons, using three backcrosses. Five pairs of BC3 expressing and null lines were isolated from each cross and multiplied to provide grain for functionality studies. Analysis of white flour samples confirmed the expression of the transgenes. SE-HPLC and Reomixer studies showed that the two transgenes had differential effects on dough functional properties. Thus, subunit 1Dx5 resulted in detrimental effects on dough development which were associated with decreased extractability of large glutenin polymers. In contrast, lines expressing subunit 1Ax1 contained increased proportions of extractable large glutenin polymers with three lines showing higher torque at similar mixing times (i.e. increased dough strength). This confirms the results obtained with the model wheat lines and shows that the 1Ax1 transgene can be used to increase dough strength in commercial cultivars. 相似文献
11.
《Plant Production Science》2013,16(3):341-344
AbstractIn order to improve rice dough functionality, we co-transformed the Glu-1Dx5 gene encoding a high molecular weight (HMW) glutenin subunit Dx5 from bread wheat, Triticum aestivum L. and either bar gene conferring resistance to herbicide bialaphos or hpt gene conferring resistance to hygromycin B to rice callus cells of cv. Fatmawati. We molecularly characterized 9 plants regenerated from bialaphos-containing medium and 63 plants from hygromycin-containing medium. The Glu-1Dx5 gene was detected by PCR analysis in 15 transgenic T0 plants. Further analysis of T1 and T2 plants revealed that some transgenic plants carried the Glu-1Dx5 gene. Analysis of the endosperm extracts of T2 plants by SDS-PAGE revealed the existence of a protein similar in size to the wheat Glu-1Dx5 gene product, suggesting successful expression of the transgene. These plants will be incorporated into breeding program for further assessment of their benefits. 相似文献
12.
The aim of this study was to evaluate the cumulative and interactive effects on wheat (Triticum aestivum L.) gluten strength and mixing properties of dough associated with the duplication of the Glu-D1 locus. A partially isohomoeoallelic line RR240, in which a segment of the wheat chromosome 1D containing the Glu-D1 locus encoding the Dx2 + Dy12 subunits and translocated to the long arm of the chromosome 1A through homoeologous recombination, was assessed. Agronomic traits and yield components were studied in the translocated line RR240 and compared with the control line cv. Courtot. Both lines were evaluated under field conditions in two experimental years. Technological effects resulting from the duplication of HMW glutenin subunits Dx2 and Dy12 were evaluated using the Alveograph test, the Mixograph test and the baking test. The RR240 line was shown to have a lower agronomic performance for 1000-kernel weight and grain yield. However the duplication of the Glu-D1 allele was associated with a significant effect on dough strength and mixing resistance, and on the Zeleny sedimentation volume. Baking parameters were not significantly modified between both lines although the score values of the CNERNA test were observed to be slightly higher in RR240 than in Courtot. 相似文献
13.
14.
高分子量谷蛋白亚基(HMWGS)对小麦面粉加工品质有促进作用,尤其是GluD1d 基因编码的1Dx5+1Dy10亚基能增加面团的筋度和弹性。小麦背景中的1BL·1RS易位对小麦面粉加工品质有显著的负面影响。因此,在小麦品质育种中如何判定小麦背景中是否含有1BL·1RS易位和HMWGS的GluD1d基因具有重要意义。本研究利用3对分别检测1BL·1RS易位、GluB3和GluD1位点的共显性特异标记,结合SDSPAGE鉴定,对16份已知遗传背景和GluD1x等位基因材料及38株(周麦18×烟农19)F2群体进行了分析,探索出适合同时鉴定小麦背景中1BL·1RS易位和GluD1d基因的多重PCR技术实验体系,并采用该体系对国内外352份小麦品种(系)进行了鉴定。结果表明,该体系是同时鉴定小麦背景中1BL·1RS易位和GluD1d基因的一种非常有效、简便可行的实验方法,可在标记辅助选择(MAS)育种中应用。 相似文献
15.
Incorporation of high-molecular-weight glutenin subunits into doughs using 2 gram mixograph and extensigraphs 总被引:1,自引:0,他引:1
To study the contributions of high-molecular-weight glutenin subunits (HMW-GS) to the gluten macropolymer and dough properties, wheat HMW-GS (x- and y-types) are synthesized in a bacterial expression system. These subunits are then purified and used to supplement dough mixing and extensigraph experiments through dough partial reduction and reoxidation to allow these exogenously added HMW-GS to incorporate into gluten polymers. Detailed results are given for seven mixing and two extension parameters. HMW-GS synthesized in bacteria behaved similarly under these conditions to the same HMW-GS extracted from wheat flour. These experiments initially focused on the HMW-GS of the D-genome of hexaploid wheat encoded at the Glu-D1 locus; e.g. the Dx2, Dx5, Dy10, and Dy12 subunits. Experiments used five different flours and results are shown to be consistent when normalized to results from Dx5. The incorporation of Dx-type subunits into the gluten disulfide bonded network has greater effects on dough parameters than incorporation of Dy-type subunits. When Glu-D1 x- and y-type subunits are incorporated together, there are synergistic effects greater than those with either subunit type alone. This synergistic effect was greatest with approximately equal amounts of Dx- and Dy-type subunits - implying a 1:1 stoichiometric relationship. 相似文献
16.
Francesco Sestili Federica Paoletti Ermelinda Botticella Stefania Masci Rosaria Saletti Vera Muccilli Domenico Lafiandra 《Journal of Cereal Science》2013
In this work, we compared the proteome of mature and immature kernels of transgenic and untransformed durum wheat lines in which genes of the starch branching enzymes of class II (SBEIIa) were silenced by RNA interference using two different methods of genetic transformation. The comparative analysis of granule bound and metabolic protein fractions of Svevo and Ofanto and their derived transgenic lines highlighted twenty four and thirty three differentially accumulated spots, respectively, in the line MJ16-112 (obtained by biolistic transformation of Svevo) and in the line A431_4p1a (obtained by Agrobacterium-mediated transformation of Ofanto). 相似文献
17.
《Journal of Cereal Science》1996,23(2):133-144
In an attempt to detect highMrglutenin subunits specifically by immunochemical means, antisera were produced against synthetic peptides corresponding to three N-terminal sequences and to two repetitive motifs of highMrglutenin subunits. The three N-terminal peptides, NT1, NT2 and NT3, differed by a single substitution at the sixth position and correspond, respectively, to the N-termini off Dx subunits, Ax and Bx subunits and By and Dy subunits. The anti-peptide sera did not cross react with gliadins or with lowMrglutenin subunits, and differed in their ability to recognise highMrglutenin subunits. The antisera to the repetitive motifs recognised all highMrglutenin subunits, whereas the antisera to the N-terminal peptides detected only some of the subunits. The antiserum directed against the N-terminal peptide from Dx subunits detected these subunits specifically, whereas the antiserum directed against the N-terminal peptide corresponding to y type subunits did not react with the homologous subunits although it did react with Dx or Bx subunits. Antisera were also produced against internal sequences present in the N-terminal domain specific for x and for y-type subunits, but these antisera did not react with the cognate proteins. The failure of some anti-peptide sera to recognise the homologous highMrglutenin subunits may be due to differences in conformation between peptides and the corresponding regions in proteins. 相似文献
18.
Electrophoretic (urea SDS–PAGE) and chromatographic (RP–HPLC) analysis was performed on 8 allelic variants of HMW glutenin subunits derived fromTriticum tauschiiand from the D genome of a hexaploid wheat species (Triticum macha) and hexaploid landraces. These subunits had been previously identified using SDS–PAGE. The characterisation revealed that subunits Dy10tand Dy12tfromT. tauschiicould be differentiated from their bread wheat counterparts using both urea SDS–PAGE and RP–HPLC. In the latter case, theT. tauschiiy-type subunits were clearly more hydrophobic than the Dy type subunits of bread wheat. The characterisation also suggested that subunit Dx5t, derived from two separateT. tauschiiaccessions, did not contain the extra cysteine residue characteristic of Dx5 from bread wheat. RFLP analysis of the genes encoding the HMW glutenin subunits of interest suggested that the absence of Dx-type HMW glutenins in two hexaploid landraces was due to lack of expression of their encoding genes. The relationship betweenHindIII DNA fragment size and protein subunit size, as measured by electrophoretic mobility, is examined and discussed. Finally, the solubility properties of a HMW protein designated T1 (derived fromT. tauschiiaccession AUS 18913) suggested that it was not a HMW glutenin subunit as was previously thought. Further studies are needed to clarify the identity of this subunit. 相似文献
19.
小麦高分子量谷蛋白亚基1Dx5的AS-PCR分子鉴定 总被引:5,自引:1,他引:4
小麦高分子量谷蛋白亚基Glu—D1位点上1Dx5—1Dy10和1Dx2—1Dy12分别紧密连锁,与小麦面包加工品质的优劣密切相关。为了加速小麦品质育种进程,利用1Dx5亚基特异PCR标记鉴定了67份小麦品种(系)的谷蛋白Glu—D1位点,有22个品种扩增出478bp特异片段,表明这些品种具有1Dx5亚基;45份品种未扩增出478bp特异片段,表明其不具有1Dx5亚基,1Dx5亚基出现频率为32.8%。PCR标记的鉴定结果与SDs-PAGE电泳结果一致,通过比较,初步建立了鉴定1Dx5亚基的稳定扩增体系。 相似文献
20.
外源基因拷贝数是影响转基因植物遗传稳定性及其自身表达水平的重要因素。为了探析TaNAC14基因在小麦生长发育中的生物学功能,本研究通过农杆菌介导的遗传转化法获得了14个T0代TaNAC14转基因小麦植株,采用BASTA溶液涂抹和目标序列PCR检测相结合的方法,从14个转基因小麦植株中鉴定出9个阳性植株。通过TaqMan实时定量PCR方法,以小麦内源单拷贝基因Pinb为内参基因,对9个T0代转基因小麦阳性植株中外源目标基因拷贝数进行检测,结果表明,T0代转基因小麦再生植株中有5株为单拷贝,4株为双拷贝,其中单拷贝插入整合的比率接近55.6%。选取单拷贝转基因植株收获的种子进行种植,根据BASTA溶液涂抹鉴定对T0:1代小麦株系遗传情况进行分析,结果表明目标基因TaNAC14是可遗传的。此外,还对T1代转基因小麦目标基因表达水平进行测定,结果表明,与野生型JW1相比,各转基因小麦植株目的基因TaNAC14表达量均极显著增加。该研究结果为后续TaNAC14基因的功能研究奠定了基础。 相似文献