Segregation analysis indicates that Puroindoline b-2 variants 2 and 3 are allelic in Triticum aestivum and that a revision to Puroindoline b-2 gene symbolization is indicated     

Hongwei Geng  Brian S. Beecher  Michael Pumphrey  Zhonghu He  Craig F. Morris 《Journal of Cereal Science》2013

Genetic and kernel texture relationships between Puroindoline b-2 variants 2 and 3 have not been fully established in wheat (Triticum aestivum L.). Here, 480 F₂ plants, derived from three hard spring wheat populations were used to test the segregation of Puroindoline b-2 (Pinb-2) variants 2 and 3. Chi-square analysis indicated that Pinb-2 variants 2 and 3 in all three F₂ populations segregated as a single bi-allelic locus, with segregation ratios fitting a 1:2:1 ratio. Using 448 of the 480 plants derived from these three F₂ populations, the average SKCS hardness index of plants homozygous for Pinb-2 variant 2 vs. those homozygous for variant 3 was not significantly different (67.5 vs. 67.9). Results indicated that plants with Pina-D1b/Pinb-D1a were on average 10.0 Single Kernel Characterization System (SKCS) hardness index units harder than those carrying the Pina-D1a/Pinb-D1b haplotype. In conclusion, Pinb-2 variants 2 and 3 are allelic and exert little effect on kernel texture in hard-kernel T. aestivum germplasm. Further, the designation of Pinb-2v2 and Pinb-2v3 should be changed to Pinb-B2a and Pinb-B2b, respectively. We propose that Pinb-2 variants 1 and 4 of Chinese Spring be designated Pinb-D2a and Pinb-A2a, respectively.  相似文献   

Association of Puroindoline b-B2 variants with grain traits,yield components and flag leaf size in bread wheat (Triticum aestivum L.) varieties of the Yellow and Huai Valleys of China     

Feng Chen  Fuyan Zhang  Xiyong Cheng  Craig Morris  Haixia Xu  Zhongdong Dong  Kehui Zhan  Dangqun Cui 《Journal of Cereal Science》2010

A total of 169 wheat (Triticum aestivum L.) varieties (landraces and cultivars) were used to asses the relationship between Puroindoline D1 alleles and Puroindoline b-B2 variants and grain hardness, other grain traits, yield components, and flag leaf size. Results indicated that the average SKCS hardness of Pinb-B2v3 varieties was significantly greater than that of Pinb-B2v2 varieties within the soft Puroindoline D1 haplotype sub-group. Conversely, no statistically significant difference was obtained for SKCS hardness between varieties with the Pinb-B2v3 vs. Pinb-B2v2 alleles within the two hard Puroindoline D1 haplotypes (Pinb-D1b and Pinb-D1p sub-groups). Therefore, the Puroindoline b-B2 gene may have a bigger impact on soft wheat varieties than hard. Across all varieties, thousand-kernel weight, grain weight per spike, grain diameter, grain number per spike, flag leaf width and area of Pinb-B2v3 varieties were significantly greater than those possessing Pinb-B2v2. These results indicated that the Pinb-B2v3 allele was associated with preferable grain yield traits compared to the Pinb-B2v2 allele in bread wheat. This study provides evocative information for better understanding the molecular and genetic basis of wheat grain yield.  相似文献   

A novel Puroindoline b-2 variant present in Chinese winter wheat cultivar Yunong 202     

Feng Chen  Huanhuan Li  Xiaoli Shang  Xiangnan Li  Dangqun Cui 《Journal of Cereal Science》2013

The recently identified Puroindoline b-2 (Pinb-2) variants on the homoeologous group 7 chromosomes in bread wheat are Puroindoline-like genes that account for minor grain texture modulation and display activity against bacteria and phytopathogenic fungi. In this study, the coding sequence of the Pinb-2 gene in the Chinese winter wheat cultivar Yunong 202 (Triticum aestivum L.) was amplified with the universal primer, and the obtained 452-bp fragment was cloned and 36 plasmids encompassing the targeted fragment were sequenced from two strands. Results indicated that Yunong 202 possessed Pinb-2v1, Pinb-2v2, Pinb-2v3b and Pinb-2v4 alleles. A new Puroindoline-2 variant was discovered in Yunong 202 as well and was designated as Pinb-2v6. Full alignment showed that Pinb-2v6 possessed 74.0%, 95.4%, 94.7%, 92.3%, 98.7% and 98.0% identity at the DNA level with Pinb-D1a, Pinb-2v1, Pinb-2v2, Pinb-2v3a, Pinb-2v4 and Pinb-2v5 alleles, respectively. This study may provide useful information for further understanding the molecular and genetics basis of grain texture and for illustrating gene duplication events in wheat.  相似文献   

Effect of the grain protein content locus Gpc-B1 on bread and pasta quality     

Juan Carlos Brevis  Craig F. Morris  Frank Manthey  Jorge Dubcovsky 《Journal of Cereal Science》2010

Grain protein concentration (GPC) affects wheat nutritional value and several critical parameters for bread and pasta quality. A gene designated Gpc-B1, which is not functional in common and durum wheat cultivars, was recently identified in Triticum turgidum ssp. dicoccoides. The functional allele of Gpc-B1 improves nitrogen remobilization from the straw increasing GPC, but also shortens the grain filling period resulting in reduced grain weight in some genetic backgrounds. We developed isogenic lines for the Gpc-B1 introgression in six hexaploid and two tetraploid wheat genotypes to evaluate its effects on bread-making and pasta quality. In common wheat, the functional Gpc-B1 introgression was associated with significantly higher GPC, water absorption, mixing time and loaf volume, whereas in durum wheat, the introgression resulted in significant increases in GPC, wet gluten, mixing time, and spaghetti firmness, as well as a decrease in cooking loss. On the negative side, the functional Gpc-B1 introgression was associated in some varieties with a significant reduction in grain weight, test weight, and flour yield and significant increases in ash concentration. Significant gene × environment and gene × genotype interactions for most traits stress the need for evaluating the effect of this introgression in particular genotypes and environments.  相似文献   

Influence of puroindoline alleles on milling performance and qualities of Chinese noodles,steamed bread and pan bread in spring wheats   总被引：1，自引：0，他引：1  

Feng Chen  Zhonghu He  Dongsheng Chen  Chunli Zhang  Yan Zhang  Xianchun Xia 《Journal of Cereal Science》2007

Two trials with a total of 75 spring bread wheat cultivars and advanced lines, were used to evaluate single kernel characterization system hardness, puroindoline alleles, milling yield, flour ash content, flour colour, and end-use qualities for Chinese noodles, steamed bread and pan bread. The results indicated that all International Maize and Wheat Improvement Center hard wheat lines surveyed were Pina-D1b genotype, whereas Pinb-D1b was the most common allele in the remaining cultivars. Genotypes with Pinb-D1b possess significantly lower flour ash content and higher milling yield than those of genotypes with Pina-D1b. For steamed bread, mean scores for loaf volume, crumb colour, width, structure and total score of Pinb-D1b genotypes were significantly higher than those of genotypes with Pina-D1b and wild type. For Chinese fresh white noodles, means for noodle a*, colour score, viscoelasticity and total score with Pinb-D1b were significantly higher than those of Pina-D1b and wild type. Means of loaf volume, texture and total score for Pinb-D1b genotypes were significantly higher than those of Pina-D1b genotypes. This study further illustrated the superiority of the Pinb-D1b allele on milling and processing qualities for various end products and provides useful information for wheat quality improvement.  相似文献   

The Pinb-2 genes in wheat comprise a multigene family with great sequence diversity and important variants     

Abirami Ramalingam  Enzo A. PalomboMrinal Bhave 《Journal of Cereal Science》2012

The puroindoline genes Pina-D1 and Pinb-D1 located at the Ha locus on chromosome 5D of common wheat are considered the most important genetic determinants of grain hardness. The recent identification of Pinb-2 genes on group 7 chromosomes emphasises the need for detailed analysis of the genetics of this important trait. This study focussed on the analysis of Pinb-2 genes from accessions of hexaploid, tetraploid and diploid wheat, to address key questions related to their diversity and possible roles. Extensive DNA sequence heterogeneity was identified in the form of single nucleotide polymorphisms (SNPs), leading to seventeen reproducible haplotypes, of which thirteen are new. The results confirmed the known groups Pinb-2v1 to Pinb-2v5, identified a new group Pinb-2v6, and showed that the Pinb-2 genes comprised a small multigene family, at least in some genomes. The putative proteins exhibited changes at the important tryptophan-rich domain as well as basic and hydrophobic residues. A new Pina-D1 allele (at Ha locus) was also identified, designated Pina-D1t, with a premature stop codon at the TRD. Additionally, peptides designed on PINB-2 proteins displayed activity against bacteria and phytopathogenic fungi. The data strongly support the Pinb-2 genes being functionally relevant to roles including influencing grain texture.  相似文献   

Development of simple and co-dominant PCR markers to genotype puroindoline a and b alleles for grain hardness in bread wheat (Triticum aestivum L.)     

Xiu-Qiang Huang  Anita Brûlé-Babel 《Journal of Cereal Science》2011

Grain hardness is one of the most important quality characteristics of cultivated bread wheat (Triticum aestivum L.). A large deletion in the puroindoline a (Pina) gene or single nucleotide polymorphisms (SNPs) in the puroindoline b (Pinb) gene results in hard grain texture. So far, nine Pina alleles (Pina-D1a–Pina-D1b, Pina-D1k–Pina-D1q) and seventeen Pinb alleles (Pinb-D1a–Pinb-D1g, Pinb-D1p–Pinb-D1ab) have been identified in bread wheat. The major Pina and Pinb alleles identified in hard wheat cultivars are Pina-D1b, Pinb-D1b, Pinb-D1c and Pinb-D1d. In this study, a three-primer PCR system was employed to develop nine co-dominant STS markers for genotyping Pina-D1a and Pina-D1b, whereas temperature-switch (TS) PCR was used to develop six co-dominant SNP markers for genotyping the Pinb-D1a, Pinb-D1b, Pinb-D1c and Pinb-D1d alleles. These STS and TS-PCR markers were used to verify the grain hardness genotype of 100 wheat cultivars. The reliability and genotyping accuracy of TS-PCR markers were confirmed through sequencing of PCR products and a comparison with previously published results. Therefore, STS and TS-PCR markers offer a simple, cost-effective and reliable method for high-throughput genotyping Pina and Pinb alleles to select grain hardness in wheat quality breeding programs and for wheat market classification.  相似文献   

Development of an Aegilops longissima substitution line with improved bread-making quality     

Monika Garg  Rohit Kumar  Rajinder Pal Singh  Hisashi Tsujimoto 《Journal of Cereal Science》2014

This study focuses on the effect of Aegilops longissima on wheat bread making quality. Chromosome 1S^l disomic addition line of Ae. longissima (DAL1S^l) had significantly higher dough strength, grain hardness, mixographic peak height, band width, and unextractable polymeric protein content compared with wheat. DAL1S^l also had additional glutenin and gliadin proteins contributed by Ae. longissima. The larger size of 1S^l coded HMW-GSs sequenced from DAL1S^l and their phylogenetic similarity to the D-genome-coded subunits were suspected to be one of the major reasons for the increased dough strength of DAL1S^l. To transfer the chromosome 1S^l genes responsible for the good bread-making quality to wheat, we generated a chromosome-specific disomic substitution line [DSL1S^l(1A)] by crossing DAL1S^l with nulli 1A tetra 1B genetic stock and further selection. Grain quality analysis revealed significantly lower grain hardness and significantly higher dough strength, farinograph development time, stability time, gluten index, bread loaf volume, and bread quality score in DSL1S^l(1A), compared with wheat. However, the increased bread loaf volume and quality were not proportional to the relatively higher increases in dough strength and gluten index, indicating importance of other traits influencing bread making quality. The presence of a minor hardness locus on chromosome 1A is speculated.  相似文献   

江苏淮北地区小麦品种资源籽粒硬度基因等位变异的KASP检测   总被引：2，自引：0，他引：2  

杨子博  顾正中  周羊梅  王安邦  高平中  熊正海  刘畅  蒋学祥  沈业松 《麦类作物学报》2017,(2):153-161

为了解江苏淮北地区小麦品种资源的籽粒硬度概况及硬度基因型分布规律,以74份近年来江苏淮北地区所育品种(系)和38份来自黄淮其他麦区的常用亲本为材料,采用单籽粒谷物硬度测试仪、KASP标记检测技术和基因扩增及测序技术对其SKCS硬度值及硬度基因型进行鉴定。硬度检测结果表明,供试小麦品种(系)硬度变化范围较大,但硬质麦的比例最大,为70.5%。与常用亲本相比,江苏淮北地区育成品种中软质麦比例较高,为34.3%,但在高代品系中软质麦比例下降到20.5%。基因型检测结果表明,在Puroindoline-D1位点,供试品种(系)中共检测到4种基因型,即野生型(Pina-D1a/Pinb-D1a)、Pina-D1b、Pinb-D1b和Pinb-D1p,其频率依次为25.0%、2.7%、67.9%和4.5%。其中,野生型和Pinb-D1p主要分布在江苏淮北地区。不同硬度基因型的硬度值也存在差异,其中以Pina-D1b基因型的硬度值最高,野生型(Pina-D1a/Pinb-D1a)硬度值最低,Pinb-D1b和Pinb-D1p两硬质类型的籽粒硬度没有显著性差异。在Pinb-2位点,供试品种(系)中共检测到25份材料为Pinb-B2b基因型,包含21份硬质麦、2份混合麦和2份软质麦,其平均硬度值为63.8。  相似文献   

甘肃冬小麦品种(系)面粉品质性状相关基因分析     

杜晓霖  何瑞  展宗冰  刘风  白斌 《麦类作物学报》2024,44(1):36-45

为了解甘肃省近20年育成的106份冬小麦品种(系)中加工品质性状相关基因分布情况,用22个分子标记对供试材料的HMW-GS、LMW-GS、面粉色泽及籽粒硬度等品质性状相关基因进行了分析。结果发现,供试品种(系)的HMW-GS相关基因中,在Glu-A1位点检测到34份品种(系)含有AxNull,频率为32.08%;在Glu-B1位点检测到Bx7+By8和Bx14+By15共2种基因组合,分别占17.92%和25.47%;在Glu-D1位点检测到11份品种(系)含有Dx5+Dy10,占10.38%。对LMW-GS鉴定结果显示,29份品种(系)含Glu-A3d基因,分布频率为27.36%。HMW-GS和LMW-GS亚基组合中,含有4个、3个和2个位点优质亚基基因组合的品种(系)分别占0.94%、8.49%和3.77%。对面粉色泽相关基因Ppo-A1、Ppo-D1、Psy-A1、Lox-B1和TaPod-A1位点的检测发现,优异等位变异占比分别为39.62%、50.94%、31.13%、30.19%和38.68%。对籽粒硬度相关基因检测发现,在Pina、Pinb和Pinb-2等位变异位点的检测...  相似文献   

Identification of new puroindoline genotypes and their relationship to flour texture among wheat cultivars     

《Journal of Cereal Science》2005,41(1):1-6

Puroindoline genotypes (Pina and Pinb) and their encoded proteins related to grain hardness were studied in various common wheat cultivars from Australia, China, Japan, Korea and North America. Most of the hard wheats had the Pinb-D1b genotype with a glycine to serine mutation at position 46. In addition to the known Pina and Pinb genotypes, cultivars were found with Pina and Pinb double-null mutations (Pina-D1b/Pinb-D1h (t)) and a new Pinb frameshift mutation (designated Pinb-D1i (t)) within the region encoding a tryptophan-rich domain. This new Pinb frameshift mutation was found only in Chinese cultivars. Endosperm proteins encoded by Pina and Pinb in these cultivars were analysed by 2D-gel electrophoresis (IPG×SDS-PAGE). Cultivars with Pina and Pinb double-null mutations showed no PIN-a or PIN-b protein, and cultivars with Pinb-D1i (t) had no PIN-b protein. Surprisingly, cultivars with Pinb-D1b had severely reduced amounts of PIN-b and cultivars with Pinb-D1c showed no PIN-b proteins. Grain hardness among cultivars having mutated Pinb may be explained by the amount of PIN-b protein and not by the type of amino acid substitutions.  相似文献   

青海小麦籽粒硬度等位变异研究   总被引：1，自引：0，他引：1  

王雪玲  李建民  魏乐  李红琴  刘宝龙  张怀刚 《麦类作物学报》2014,34(1):23-27

为了解小麦品种籽粒硬度的遗传多样性,利用单粒谷物硬度测定、PCR扩增和核苷酸测序技术,分析了66份青海小麦品种籽粒硬度主效基因的等位变异。结果表明,青海小麦以硬质类型为主,比例达到47.0%,混合麦比例为19.7%,软质麦比例为33.3%。硬度基因有5种组合类型:野生型、Pina-D1a/PinbD1b、Pina-D1a/Pinb-D1c、Pina-D1a/Pinb-D1x和Pina-D1b/Pinb-D1a。野生型小麦类型比例最高,占59.09%,SKCS硬度指数平均为44.12,变化范围为12.75~84.89。突变类型的品种籽粒均为硬质。因此,在青海硬质小麦可以通过突变类型的分子标记进行选育,软质小麦选育需在利用硬度基因分子标记筛选的基础上进一步考察籽粒硬度性状的表现型。  相似文献   

Agronomic and quality characteristics of triticale (X Triticosecale Wittmack) with HMW glutenin subunits 5+10     

P. Martinek  M. Vinterová  I. Burešová  T. Vyhnánek 《Journal of Cereal Science》2008

Sets of triticale (X Triticosecale Wittmack) lines derived from the cv. Presto with HMW glutenin allele Glu-D1d (subunits 5+10) translocated from bread wheat (Triticum aestivum L.) chromosome 1D to chromosome 1R were evaluated for agronomic and grain quality characteristics in 2002–2005. Two different translocation types were used: (a) single translocation 1R.1D₅₊₁₀-2 where the long arm of 1R carries the wheat segment from 1DL with the Glu-D1d replacing a secalin locus Sec-3, (b) double translocation Valdy where the long arm of 1R has the translocation 1R.1D₅₊₁₀-2 and the short arm has a segment from 1DS carrying wheat loci Gli-D1 and Glu-D3. The presence of Glu-D1d was determined by polyacrylamide gel electrophoresis (PAGE-ISTA) and DNA markers. The tested lines of triticale were compared with the check triticale cv. Presto and with wheat cultivars of different bread making quality (E-C quality classes). Single translocation 1R.1D₅₊₁₀-2 reduced grain yield by 16% and Valdy translocation by 24% as compared with cv. Presto. The Valdy translocation had substantially shortened spike length and reduced specific weight in comparison with check cv. Presto. Wet gluten content (according to the Perten method) was 12% in both translocation types, 8% in check Presto and on average 24% in wheat. Translocations increased the Zeleny sedimentation value (Valdy — 27 ml, 1R.1D₅₊₁₀-2 – 25 ml, cv. Presto — 23 ml). Triticale had a very low Hagberg falling number (FN) of 62–70 s without significant differences, while wheat had on average 301 s. The translocations did not significantly increase loaf volume; however, they improved loaf shape (height/width ratio): Valdy — 0.61, 1R.1D₅₊₁₀-2 – 0.56, cv. Presto 0.44, wheat on average 0.70. The dough was non-sticky in Valdy, slightly sticky in 1R.1D₅₊₁₀-2 and sticky in cv. Presto. Problems with a low FN for improving bread making quality of triticale are discussed. Higher bread making quality can be influenced by appropriate combination with donors of low α-amylase activity.  相似文献   

Puroindoline genotype,starch granule size distribution and milling quality of wheat     

M.A. Edwards  B.G. Osborne  R.J. Henry 《Journal of Cereal Science》2010

Genetically-diverse wheat samples from the Australian Winter Cereals Collection propagated in two environments were sequenced to identify puroindoline genotypes then the relationships between flour yield, genotype, starch granule size distribution and starch-bound puroindoline protein content were investigated. The Pina-D1a, Pinb-D1b genotype resulted in a higher average flour yield than either the Pina-D1b, Pinb-D1a or the Pina-D1a, Pinb-D1a but the ranges of flour yields for the three genotypes showed considerable overlap. For both hard wheat genotypes (Pina-D1a, Pinb-D1b or Pina-D1b, Pinb-D1a), a higher proportion of type A to type C starch granules was associated with higher flour yield and this relationship accounted for between 31% and 33% of the variation in flour yield. This result is consistent with previously reported findings for soft wheat. For the Pina-D1a, Pinb-D1b genotype, increased flour yield was also associated with a decrease in starch granule-bound puroindoline protein, which accounted for 31–35% of the variation in flour yield across the two environments. The combined effect of starch granule type and associated puroindoline content accounted for 68% of the variation in flour yield within the Pina-D1a, Pinb-D1b genotype.  相似文献   

Analysis of Pina and Pinb alleles in the micro-core collections of Chinese wheat germplasm by Ecotilling and identification of a novel Pinb allele     

《Journal of Cereal Science》2009,49(3):836-842

Kernel hardness is mainly conditioned by allelic variations of Pina-D1 and Pinb-D1 genes located on the short arm of chromosome 5D. In this work, the Ecotilling approach was optimized to investigate Pina and Pinb alleles in the micro-core collections of Chinese wheat germplasm, and three Pina and eight Pinb alleles were found. Generally, more Pinb alleles were detected in the accessions coming from the regions that grow winter or a mixture of spring and winter wheats. This was particularly evident for the Southwestern winter wheat, Xinjiang winter–spring wheat and Yellow and Huai River Valley winter wheat regions. A novel variant (designated as Pinb-D1x) was discovered in one of the accessions from the Xinjiang winter–spring wheat region. Compared to wild type (WT) allele Pinb-D1a, two nucleotide substitutions occurred in the coding region of Pinb-D1x, one (at nucleotide position 257) resulting in the replacement of a WT cysteine residue by tyrosine and the other (at nucleotide position 382) creating a premature stop codon. The implications of our data to understanding the diversity of Pina and Pinb alleles in wheat and to future molecular breeding of wheat kernel hardness are discussed.  相似文献   

Analysis of Pina and Pinb alleles in the micro-core collections of Chinese wheat germplasm by Ecotilling and identification of a novel Pinb allele     

Jing Wang  Jiazhu Sun  Dongcheng Liu  Wenlong Yang  Daowen Wang  Yiping Tong  Aimin Zhang   《Journal of Cereal Science》2008,48(3):836-842

Kernel hardness is mainly conditioned by allelic variations of Pina-D1 and Pinb-D1 genes located on the short arm of chromosome 5D. In this work, the Ecotilling approach was optimized to investigate Pina and Pinb alleles in the micro-core collections of Chinese wheat germplasm, and three Pina and eight Pinb alleles were found. Generally, more Pinb alleles were detected in the accessions coming from the regions that grow winter or a mixture of spring and winter wheats. This was particularly evident for the Southwestern winter wheat, Xinjiang winter–spring wheat and Yellow and Huai River Valley winter wheat regions. A novel variant (designated as Pinb-D1x) was discovered in one of the accessions from the Xinjiang winter–spring wheat region. Compared to wild type (WT) allele Pinb-D1a, two nucleotide substitutions occurred in the coding region of Pinb-D1x, one (at nucleotide position 257) resulting in the replacement of a WT cysteine residue by tyrosine and the other (at nucleotide position 382) creating a premature stop codon. The implications of our data to understanding the diversity of Pina and Pinb alleles in wheat and to future molecular breeding of wheat kernel hardness are discussed.  相似文献   

长江中下游麦区小麦品种籽粒硬度及puroindoline基因等位变异的分子检测   总被引：1，自引：0，他引：1  

王化敦  高春蕾  张鹏  张瑜  张平平  马鸿翔 《麦类作物学报》2017,(4):438-444

为了明确长江中下游麦区小麦籽粒硬度及puroindoline基因型的分布,以该麦区105份小麦育成品种为材料,利用单籽粒硬度仪(SKCS)测定其籽粒硬度,利用分子标记检测和基因序列分析鉴定puroindoline基因的等位变异。结果表明,在长江中下游麦区历年育成的小麦品种中软质麦比例较高,占52.4%,硬质麦和混合麦分别占38.1%和9.5%;硬质麦和混合麦中存在Pinb-D1b、Pina-D1b和Pinb-D1p三种变异类型,突变频率分别为29.5%、10.5%和3.8%。  相似文献   

我国春麦区部分小麦品种品质状况分析   总被引：20，自引：6，他引：20  

张勇  何中虎等 《麦类作物学报》2002,22(1):27-32

1999年将 38份春小麦品种 (品系 )种植于内蒙古呼和浩特 ,对其磨粉品质和面包烘烤品质进行了评价。结果表明 ,我国春小麦品种的面包烘烤品质较差 ,不同地区品种间品质差异较大 ,辽宁和内蒙品种的磨粉品质和面包烘烤品质优于其它地区的品种。回归分析表明 ,蛋白质含量和单位蛋白质含量的面包体积决定了面包体积总变异的 99.9% ,硬度、沉淀值和吸水率对面包总分有重要作用。品种的出粉率主要取决于 1心槽路出粉率 ,2心和 1皮槽路出粉率对出粉率贡献也较大。高分子量麦谷蛋白亚基 (HMW GS)Glu A1和Glu D1位点的等位变异与品质性状密切相关。面包烘烤品质的改良应在分析HMW GS的基础上 ,将硬度作为选择指标之一 ,适当提高蛋白质含量 ,重点加强对沉淀值的选择  相似文献   

Effects of the replacement of Glu-A1 by Glu-D1 locus on agronomic performance and bread-making quality of the hexaploid wheat cv. Courtot     

J. Dumur  J. Jahier  M. Dardevet  H. Chiron  A.-M. Tanguy  G. Branlard 《Journal of Cereal Science》2010

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   

Both genetic and environmental conditions affect wheat grain texture: Consequences for grain fractionation and flour properties     

《Journal of Cereal Science》2020

This review summarizes the results of studies on near-isogenic common wheat lines differing in the Pinb-D1 allele encoding puroindoline B or durum wheat into which both wild-type puroindoline genes were introduced. The material was grown in different environments to evaluate the respective effect of puroindoline genes or of the environmental factors on grain characteristics and milling behavior.Environmental conditions were found to impact grain porosity (=1/vitreousness) and the presence of both wild-type puroindoline genes was found to reduce the vitreousness threshold under 60%. Hardness measurements with single kernel characterization system were found to differ from near-infrared reflectance spectroscopy analysis and were linearly related to vitreousness but differently depending on the puroindoline allele carried.Puroindoline genes were found to play a major role in the grain porosity, breaking energy, size of generated particles and in the concentration of phytic acid and damaged starch into flour whereas vitreousness introduced variations in the ability to break and in the level of damaged starch.Finally, the highest flour yield is obtained from either vitreous common wheat grains carrying the wild-type puroindoline alleles or carrying mutated alleles and displaying low vitreousness. This result was confirmed using common French wheat cultivars whose puroindoline genes were identified.  相似文献