共查询到20条相似文献,搜索用时 31 毫秒
1.
Tripti Bhatnagar Archana Sachdev R. P. Johari 《Journal of plant biochemistry and biotechnology.》2002,11(1):33-36
Five wheat (Triticum aestivum) varieties differing in chapati quality characteristics viz. C-306, K-68, HD-2745 and HD-2735 with good and Sonalika with poor chapati quality characteristics, were selected for the characterization or distribution of glutenin genes. Polymorphism was observed when genomic DNA of wheat varieties was hybridized with a HMW glutenin probe [glutenin subunit 10 (Dy10)]. No hybridization was observed in Sonalika. PCR amplification of genomic DNA with the LMW glutenin gene-specific primers did not show any polymorphism. However, with HMW glutenin gene-specific primers a single band of ~ 650 by was obtained in all the good chapati characteristic wheat varieties.The amplified fragment was sequenced and found to have sequence homology with HMW glutenin subunit Dx5.The deduced protein structure analysis showed that the peptide was made up of N-terminally placed (x-helices and centrally placed repetitive β-turns. 相似文献
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利用SDS-PAGE检测了2份类大麦属(Crithopsis delileana)材料的高分子量谷蛋白亚基组成,并对其中1份材料的x型亚基进行了克隆和测序。结果表明,2份材料具有完全相同的蛋白电泳图谱。在小麦的高分子量区域仅检测到一条蛋白质带,与小麦y型亚基的迁移率接近,但克隆测序表明其为x型高分子量谷蛋白亚基,其编码基因命名为Kx。Kx基因编码区序列长度为2052bp.编码长度为661个氨基酸残基的蛋白质,其序列具有典型的x型高分子量谷蛋白亚基的特征。Kx基因能在原核表达系统内正确表达,其表达蛋白与来源于种子中的Kx亚基的迁移率完全一致。Kx亚基与小麦属A、B和D,山羊草属C和U以及黑麦属R染色体组编码的高分子量谷蛋白亚基氨基酸序列非常相似,但在N和C保守区的氨基酸组成以及重复区长度上与它们存在明显差异。聚类分析可将Kx与Ax1聚类为平行的分支。由此可见,来源于C.delileana的Kx基因为一新的x型高分子量谷蛋白亚基基因。 相似文献
4.
小麦HMW-G12亚基基因启动子克隆及序列分析 总被引:2,自引:1,他引:1
为了研究高分子量谷蛋白基因启动子在种子中的特异性表达,以小麦品种“东农7742”的基因组DNA为模板,根据已发表序列设计并合成引物,用PCR的方法克隆了小麦贮藏蛋白中高分子量谷蛋白12亚基基因的上游调控序列。序列测定结果表明:所克隆的启动子片段大小为424bp与Thomspon报道的序列比较,同源性为97.9%,有9个核苷酸发生了改变。推测的TATA box位于-27— -30bp,Prolamin-box位于-175— -181bp,认为该元件可能与转录速率的调控有关。 相似文献
5.
Analysis of HMW glutenin subunits and their coding sequences in two diploid Aegilops species 总被引:11,自引:0,他引:11
Liu Z Yan Z Wan Y Liu K Zheng Y Wang D 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,106(8):1368-1378
Considerable progress has been made in understanding the structure, function and genetic regulation of high-molecular-weight (HMW) glutenin subunits in hexaploid wheat. In contrast, less is known about these types of proteins in wheat related species. In this paper, we report the analysis of HMW glutenin subunits and their coding sequences in two diploid Aegilops species, Aegilops umbellulata (UU) and Aegilops caudata (CC). SDS-PAGE analysis demonstrated that, for each of the four Ae. umbellulata accessions, there were two HMW glutenin subunits (designated here as 1Ux and 1Uy) with electrophoretic mobilities comparable to those of the x- and y-type subunits encoded by the Glu-D1 locus, respectively. In our previous study involving multiple accessions of Ae. caudata, two HMW glutenin subunits (designated as 1Cx and 1Cy) with electrophoretic mobilities similar to those of the subunits controlled by the Glu-D1 locus were also detected. These results indicate that the U genome of Ae. umbellulata and the C genome of Ae. caudata encode HMW glutenin subunits that may be structurally similar to those specified by the D genome. The complete open reading frames (ORFs) coding for x- and y-type HMW glutenin subunits in the two diploid species were cloned and sequenced. Analysis of deduced amino acid sequences revealed that the primary structures of the x- and y-type HMW glutenin subunits of the two Aegilops species were similar to those of previously published HMW glutenin subunits. Bacterial expression of modified ORFs, in which the coding sequence for the signal peptide was removed, gave rise to proteins with electrophoretic mobilities identical to those of HMW glutenin subunits extracted from seeds, indicating that upon seed maturation the signal peptide is removed from the HMW glutenin subunit in the two species. Phylogenetic analysis showed that 1Ux and 1Cx subunits were most closely related to the 1Dx type subunit encoded by the Glu-D1 locus. The 1Uy subunit possessed a higher level of homology to the 1Dy-type subunit compared with the 1Cy subunit. In conclusion, our study suggests that the Glu-U1 locus of Ae. umbellulata and the Glu-C1 locus of Ae. caudata specify the expression of HMW glutenin subunits in a manner similar to the Glu-D1 locus. Consequently, HMW glutenin subunits from the two diploid species may have potential value in improving the processing properties of hexaploid wheat varieties. 相似文献
6.
Wheat storage proteins: diversity of HMW glutenin subunits in wild emmer from Israel 总被引:2,自引:0,他引:2
E. Nevo P. I. Payne 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1987,74(6):827-836
Summary The diversity of HMW glutenin subunits in the tetraploid wild progenitor of wheat, Triticum turgidum var. dicoccoides was studied electrophoretically in 231 individuals representing 11 populations of wild emmer from Israel. The results show that (a) The two HMW glutenin loci, Glu-A1 and Glu-B1, are rich in variation, having 11 and 15 alleles, respectively, (b) Genetic variation in HMW glutenin subunits is often severely restricted in individual populations, supporting an island population genetic model, (c) Significant correlations were found between glutenin diversity and the frequencies of specific glutenin alleles and physical (climate and soil) and biotic (vegetation) variables. Our results suggest that: (a) at least part of the glutenin polymorphisms in wild emmer can be accounted for by environmental factors and (b) the endosperm of wild emmer contains many allelic variants of glutenin storage proteins that are not present in bread wheat and could be utilized in breeding varieties with improved bread-making qualities. 相似文献
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Liu S Chao S Anderson JA 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2008,118(1):177-183
End-use quality is one of the priorities of modern wheat (Triticum aestivum L.) breeding. Even though quality is a complex trait, high molecular weight (HMW) glutenins play a major role in determining
the bread making quality of wheat. DNA markers developed from the sequences of HMW glutenin genes were reported in several
previous studies to facilitate marker-assisted selection (MAS). However, most of the previously available markers are dominant
and amplify large DNA fragments, and thus are not ideal for high throughput genotyping using modern equipment. The objective
of this study was to develop and validate co-dominant markers suitable for high throughput MAS for HMW glutenin subunits encoded
at the Glu-A1 and Glu-D1 loci. Indels were identified by sequence alignment of allelic HMW glutenin genes, and were targeted to develop locus-specific
co-dominant markers. Marker UMN19 was developed by targeting an 18-bp deletion in the coding sequence of subunit Ax2* of Glu-A1. A single DNA fragment was amplified by marker UMN19, and was placed onto chromosome 1AL. Sixteen wheat cultivars with known
HMW glutenin subunits were used to validate marker UMN19. The cultivars with subunit Ax2* amplified the 362-bp fragment as
expected, and a 344-bp fragment was observed for cultivars with subunit Ax1 or the Ax-null allele. Two co-dominant markers,
UMN25 and UMN26, were developed for Glu-D1 by targeting the fragment size polymorphic sites between subunits Dx2 and Dx5, and between Dy10 and Dy12, respectively. The
16 wheat cultivars with known HMW glutenin subunit composition were genotyped with markers UMN25 and UMN26, and the genotypes
perfectly matched their subunit types. Using an Applied Biosystems 3130xl Genetic Analyzer, four F2 populations segregating for the Glu-A1 or Glu-D1 locus were successfully genotyped with primers UMN19, UMN25 and UMN26 labeled with fluorescent dyes. 相似文献
9.
R. D'Ovidio D. Lafiandra E. Porceddu 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,93(7):1048-1053
High-molecular-weight (HMW) glutenin subunits are a particular class of wheat endosperm proteins containing a large repetitive domain flanked by two short N- and C-terminal non-repetitive regions. Deletions and insertions within the central repetitive domain has been suggested to be mainly responsible for the length variations observed for this class of proteins. Nucleotide sequence comparison of a number of HMW glutenin genes allowed the identification of small insertions or deletions within the repetitive domain. However, only indirect evidence has been produced which suggests the occurrence of substantial insertions or deletions within this region when a large variation in molecular size is present between different HMW glutenin subunits. This paper represents the first report on the molecular characterization of an unusually large insertion within the repetitive domain of a functional HMW glutenin gene. This gene is located at the Glu-D1 locus of a hexaploid wheat genotype and contains an insertion of 561 base pairs that codes for 187 amino acids corresponding to the repetitive domain of a HMW glutenin subunit encoded at the same locus. The precise location of the insertion has been identified and the molecular processes underlying such mutational events are discussed. 相似文献
10.
The high-molecular-weight (HMW) prolamines subunits and their coding sequences from wheat-related diploid species Crithopsis delileana were investigated. Only one HMW prolamine subunit with the similar electrophoresis mobility to the y-type HMW glutenin subunit of hexaploid wheat was observed in two accessions of C. delileana by SDS-PAGE analyses of the total storage protein fractions. It was confirmed by sequencing and expression analysis that this prolamine subunit was an x-type subunit. The amino acid sequence of this subunit had the similar typical structure to those of x-type HMW glutenin genes previously described in wheat. An in-frame stop codon was found in the coding sequences of y-type prolamine subunits. It was found by specifically extraction of HMW prolamines and sequence analysis that the coding regions of Ky prolamine subunit gene is very likely to be not expressed as a full-length protein. Phylogenetic analysis indicated that the Kx subunit could be clustered together with 1Ax1 subunit by an interior paralleled branch, and Ky subunit (inactive) was most closely related to the 1Ay subunit. The coding sequences of Kx subunit could successfully be expressed in bacterial expression system, and the expressed protein had the same electrophoresis mobility as the Kx subunit from the seed of C. delileana. It was the first time that the HMW prolamines subunits encoded by K genome of C. delileana were characterized. 相似文献
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M. L. Alvarez S. Guelman N. G. Halford S. Lustig M. I. Reggiardo N. Ryabushkina P. Schewry J. Stein R. H. Vallejos 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2000,100(2):319-327
Wheat HMW glutenin subunit genes 1Ax1 and 1Dx5 were introduced, and either expressed or overexpressed, into a commercial wheat
cultivar that already expresses five subunits. Six independent transgenic events were obtained and characterized by SDS-PAGE
and Southern analysis. The 1Dx5 gene was overexpressed in two events without changes in the other endosperm proteins. Overexpression
of 1Dx5 increased the contribution of HMW glutenin subunits to total protein up to 22%. Two events express the 1Ax1 subunit
transgene with associated silencing of the 1Ax2* endogenous subunit. In the SDS-PAGE one of them shows a new HMW glutenin
band of an apparent Mr lower than that of the 1Dx5 subunit. Southern analysis of the four events confirmed transformation and suggest that the transgenes
are present in a low copy number. Silencing of all the HMW glutenin subunits was observed in two different events of transgenic
wheat expressing the 1Ax1 subunit transgene and overexpressing the Dx5 gene. Transgenes and expression patterns were stably
transmitted to the progenies in all the events except one where in some of the segregating T2 seeds the silencing of all HMW glutenin subunits was reverted associated with a drastic lost of transgenes from a high to
a low copy number. The revertant T2 seeds expressed the five endogenous subunits plus the 1Ax1 transgene.
Received: 16 June 1999 / Accepted: 29 July 1999 相似文献
12.
Variation in the HMW and LMW glutenin subunits from Spanish accessions of emmer wheat (Triticum turgidum ssp. dicoccum Schrank) 总被引:4,自引:0,他引:4
L. A. Pflüger L. M. Martín J. B. Alvarez 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2001,102(5):767-772
Emmer wheat (Triticum turgidum ssp. dicoccum Schrank) is hulled wheat that survives in marginal areas of the Mediterranean Region. The HMW and LMW glutenin subunit composition
of 97 accessions of emmer wheat from Spain have been analysed by SDS-PAGE. For the HMW glutenin subunits, four allelic variants
were detected for the Glu-A1 locus; one of them has not been previously described. For the Glu-B1 locus, three of the nine alleles detected have not been found before. A high degree of variation was evident for the LMW
glutenin subunits, and up to 23 different patterns were detected for the B-LMW glutenin subunits. Considering both types of
proteins (HMW and LMW), 30 combinations were found between all the evaluated lines. This wide polymorphism can be used to
transfer new quality genes to wheat, and to widen its genetic basis.
Received: 13 June 2000 / Accepted: 3 July 2000 相似文献
13.
N. G. Halford J. M. Field H. Blair P. Urwin K. Moore L. Robert R. Thompson R. B. Flavell A. S. Tatham P. R. Shewry 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1992,83(3):373-378
Summary A gene encoding the high-molecular-weight (HMW) subunit of glutenin 1Ax1 was isolated from bread wheat cv Hope. Comparison of the deduced amino acid sequence with that previously reported for an allelic subunit, 1Ax2*, showed only minor differences, which were consistent with both subunits being associated with good bread-making quality. Quantitative analyses of total protein extracts from 22 cultivars of bread wheat showed that the presence of either subunit 1Ax1 or 1Ax2*, when compared with a null allele, resulted in an increase in the proportion of HMW subunit protein from ca. 8 to 10% of the total. It is suggested that this quantitative increase in HMW subunit protein may account for the association of 1Ax subunits with good quality.EMBL Data Library. Accession number: X61009 相似文献
14.
The compositions of high molecular weight (HMW) glutenin subunits from three species of Taenitherum Nevski (TaTa, 2n = 2x = 14), Ta. caput-medusae, Ta. crinitum and Ta. asperum, were investigated by SDS-PAGE analysis. The electrophoresis mobility of the x-type HMW glutenin subunits were slower or
equal to that of wheat HMW glutenin subunit Dx2, and the electrophoresis mobility of the y-type subunits were faster than
that of wheat HMW glutenin subunit Dy12. Two HMW glutenin genes, designated as Tax and Tay, were isolated from Ta. crinitum, and their complete nucleotide coding sequences were determined. Sequencing and multiple sequences alignment suggested that
the HMW glutenin subunits derived from Ta. crinitum had the similar structures to the HMW glutenin subunits from wheat and related species with a signal peptide, and N- and
C-conservative domains flanking by a repetitive domain consisted of the repeated short peptide motifs. However, the encoding
sequences of Tax and Tay had some novel modification compared with the HMW glutenin genes reported so far: (1) A short peptide
with the consensus sequences of KGGSFYP, which was observed in the N-terminal of all known HMW glutenin genes, was absent
in Tax; (2) There is a specified short peptide tandem of tripeptide, hexapeptide and nonapeptide and three tandem of tripeptide
in the repetitive domain of Tax; (3) The amino acid residues number is 105 (an extra Q presented) but not 104 in the N-terminal
of Tay, which was similar to most of y-type HMW glutenin genes from Elytrigia elongata and Crithopsis delileana. Phylogenetic analysis indicated that Tax subunit was mostly related to Ax1, Cx, Ux and Dx5, and Tay was more related to
Ay, Cy and Ry. 相似文献
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小麦新品种(系)Glu-1位点等位基因变异研究 总被引:3,自引:1,他引:2
应用SDS-PAGE技术分析了40份小麦新品种(系)的高分子量麦谷蛋白亚基等位基因变异。在Glu-1位点共检测到10种变异类型,其中Glu-Al位点有3种类型:Null、1、26 ,Glu-B1位点有5种类型:7 8、7 9、14 15、7、17 18,Glu-D1位点有2种类型:2 12、5 10;Null(54.3%)、7 8(51.4%)和2 12(62.9%)分别是Glu-Al、Glu-B1和Glu-D1位点上的主要亚基变异类型。另外,在2份材料的Glu-B1和Glu-D1位点各检测到1个新的亚基,分别命名为1By8.1和1Dx5^ 。Glu-1位点的Nei‘s遗传变异指数平均为0,5648,Glu-B1的遗传多样性最高,Glu-D1最低。供试小麦材料Glu-1位点的HMW-GS组合共有17种类型,以(Null,7 8,2 12)组合为主要类型,占31.4%;有9种亚基组合类型分别只在1份材料中出现,占26.1%。结果表明,这些小麦新品种(系)存在着丰富的亚基组合类型。 相似文献
16.
Xiaohui Li Yanzhen Zhang Liyan Gao Aili Wang Kangmin Ji Zhonghu He Rudi Appels Wujun Ma Yueming Yan 《Génome》2007,50(12):1130-1140
A novel y-type high molecular weight (HMW) glutenin subunit gene from the G genome of Triticum timopheevi (2n=4x=28, AAGG) was isolated and characterized. Genomic DNA from accession CWI17006 was amplified and a 2200 bp fragment was obtained. Sequence analysis revealed a complete open reading frame including N- and C-terminal ends and a central repetitive domain encoding 565 amino acid residues. The molecular weight of the deduced subunit was 77,031, close to that of the x-type glutenin subunits. Its mature protein structure, however, demonstrated that it was a typical y-type HMW subunit. To our knowledge, this is the largest y-type subunit gene among Triticum genomes. The molecular structure and phylogenetic analysis assigned it to the G genome and it is the first characterized y-type HMW glutenin subunit gene from T. timopheevi. Comparative analysis and secondary structure prediction showed that the subunit possessed some unique characters, especially 2 large insertions of 45 (6 hexapeptides and a nonapeptide) and 12 (2 hexapeptides) amino acid residues that mainly contributed to its higher molecular weight and allowed more coils to be formed in its tertiary structure. Additionally, more alpha-helixes in the repeat domain of the subunit were found when compared with 3 other y-type subunits. We speculate that these structural characteristics improve the formation of gluten polymer. The novel subunit, expressed as a fusion protein in E. coli, moved more slowly in SDS-PAGE than the subunit Bx7, so it was designated Gy7*. As indicated in previous studies, increased size and more numerous coils and alpha-helixes of the repetitive domain might enhance the functional properties of HMW glutenins. Consequently, the novel Gy7* gene could have greater potential for improving wheat quality. 相似文献
17.
应用简并性引物和基因组PCR反应从乌拉尔图小麦(Triticum urartu)不同种质材料中获得并测定了表达型和沉默型1Ay高分子量麦谷蛋白亚基基因全长编码区的基因组DNA序列.表达型1Ay基因编码区的序列与前人已发表的y型高分子量麦谷蛋白亚基基因编码区的序列高度同源,由其推导的1Ay亚基的一级结构与已知的高分子量麦谷蛋白亚基相似.在细菌细胞中,表达型1Ay基因编码区的克隆序列可经诱导而产生1Ay蛋白,该蛋白与种子中1Ay亚基在电泳迁移率和抗原性上类似,表明所克隆的序列真实地代表了表达型1Ay基因的全长编码区.但是,本研究所克隆的沉默型1Av基因的编码区序列因含有3个提前终止子而不能翻译成完整的1Ay蛋白.讨论了表达型1Ay基因在小麦籽粒加工品质改良中的潜在利用价值以及lAy基因沉默的机制. 相似文献
18.
乌拉尔图小麦(Triticum urartu)1Ay高分子量麦谷蛋白亚基基因编码区的克隆与鉴定(英文) 总被引:5,自引:0,他引:5
应用简并性引物和基因组PCR反应从乌拉尔图小麦(Triticum urartu)不同种质材料中获得并测定了表达型和沉默型1Ay高分子量麦谷蛋白亚基基因全长编码区的基因组DNA序列。表达型1Ay基因编码区的序列与前人已发表的y型高分子量麦谷蛋白亚基基因编码区的序列高度同源,由其推导的1Ay亚基的一级结构与已知的高分子量麦谷蛋白亚基相似。在细菌细胞中,表达型1Ay基因编码区的克隆序列可经诱导而产生1Ay蛋白,该蛋白与种子中1Ay亚基在电泳迁移率和抗原性上类似,表明所克隆的序列真实地代表了表达型1Ay基因的全长编码区。但是,本研究所克隆的沉默型1Ay基因的编码区序列因含有3个提前终止子而不能翻译成完整的1Ay蛋白。讨论了表达型1Ay基因在小麦籽粒加工品质改良中的潜在利用价值以及1Ay基因沉默的机制。 相似文献
19.
小麦高分子量谷蛋白亚基对加工品质影响的效应分析 总被引:30,自引:2,他引:28
分析了 2 50份小麦材料的高分子量谷蛋白亚基 (HMW- GS)组成以及其中 66份材料的加工品质及面条制作品质。回归分析表明 :HMW- GS与 1 0种加工品质性状均有显著的线性关系。不同亚基对综合品质效应的得分大小依次为 :Glu- Al,1 >2 * >null;Glu- Bl,1 4 +1 5>7+8>1 7+1 8>>7+9;Glu- Dl,5+1 0 >>2 +1 2 >4+1 2。不同基因位点对品质的贡献大小顺序为 :Glu- Dl>Glu- Al>Glu- Bl。首次提出了 HMW- GS综合品质评分系统 相似文献
20.
Saumonneau A Rottier K Conrad U Popineau Y Guéguen J Francin-Allami M 《Plant cell reports》2011,30(7):1289-1302
In wheat, the high-molecular weight (HMW) glutenin subunits are known to contribute to gluten viscoelasticity, and show some
similarities to elastomeric animal proteins as elastin. When combining the sequence of a glutenin with that of elastin is
a way to create new chimeric functional proteins, which could be expressed in plants. The sequence of a glutenin subunit was
modified by the insertion of several hydrophobic and elastic motifs derived from elastin (elastin-like peptide, ELP) into
the hydrophilic repetitive domain of the glutenin subunit to create a triblock protein, the objective being to improve the
mechanical (elastomeric) properties of this wheat storage protein. In this study, we investigated an expression model system
to analyze the expression and trafficking of the wild-type HMW glutenin subunit (GSW) and an HMW glutenin subunit mutated by the insertion of elastin motifs (GSM-ELP). For this purpose, a series of constructs was made to express wild-type subunits and subunits mutated by insertion of
elastin motifs in fusion with green fluorescent protein (GFP) in tobacco BY-2 cells. Our results showed for the first time
the expression of HMW glutenin fused with GFP in tobacco protoplasts. We also expressed and localized the chimeric protein
composed of plant glutenin and animal elastin-like peptides (ELP) in BY-2 protoplasts, and demonstrated its presence in protein
body-like structures in the endoplasmic reticulum. This work, therefore, provides a basis for heterologous production of the
glutenin-ELP triblock protein to characterize its mechanical properties. 相似文献