共查询到20条相似文献,搜索用时 668 毫秒
1.
Stephen J. Chapman Steven J. Mulvaney Rangan Chinnaswamy Patricia Rayas-Duarte Bo Allvin 《Journal of Cereal Science》2012
Despite the great variety of physicochemical and rheological tests available for measuring wheat flour, dough and gluten quality, the US wheat marketing system still relies primarily on wheat kernel hardness and growing season to categorize cultivars. To better understand and differentiate wheat cultivars of the same class, the tensile strength, and stress relaxation behavior of gluten from 15 wheat cultivars was measured and compared to other available physicochemical parameters, including but not limited to protein content, glutenin macropolymer content (GMP) and bread loaf volume. In addition, a novel gluten compression–relaxation (Gluten CORE) instrument was used to measure the degree of elastic recovery of gluten for 15 common US wheat cultivars. Gluten strength ranged from 0.04 to 0.43 N at 500% extension, while the degree of recovery ranged from 5 to 78%. Measuring gluten strength clearly differentiated cultivars within a wheat class; nonetheless it was not a good predictor of baking quality on its own in terms of bread volume. Gluten strength was highly correlated with mixograph mixing times (r = 0.879) and degree of recovery (r = 0.855), suggesting that dough development time was influenced by gluten strength and that the CORE instrument was a suitable alternative to tensile testing, since it is less time intensive and less laborious to use. 相似文献
2.
The variations of the amounts of individual high molecular weight glutenin subunits (HMW-GS), of the ratios HMW-GSy to HMW-GSx and HMW-GS to low molecular weight glutenin subunits (LMW-GS) and of protein content were evaluated for eight durum wheat cultivars in two regions using four fertilizer combinations during two successive years. All measured parameters showed significant variation with genotypes (G), environments (E) and fertilizers (F). The interaction E × G × F was highly significant for glutenin amount variation. Amongst cultivars possessing HMW-GS 20, landraces seem to better value the N-fertilizer use for the accumulation of HMW-GSy than high yielding cultivars. Both HMW-GSy to HMW-GSx and HMW-GS to LMW-GS ratios were found to be positively correlated (p < 0.05) with total protein content. 相似文献
3.
Daniel Vázquez Andrés G. Berger Martha Cuniberti Carlos Bainotti Martha Zavariz de Miranda Pedro Luiz Scheeren Claudio Jobet Javier Zúñiga Graciela Cabrera Rubén Verges Roberto Javier Peña 《Journal of Cereal Science》2012
Wheat consumption is growing, with processors asking for wheat-based products showing better and more consistent quality. Genotype, environment and their interaction (G × E) play an important role in the final expression of quality attributes. An international research consortium was developed in order to evaluate the magnitude of genotype, environment and G × E effects on wheat quality of cultivars developed for different agro-ecological zones in Latin America. Genotypes released in Argentina, Brazil, Chile, Mexico, Paraguay and Uruguay, were cultivated in twenty different environments within the participating countries. Each environment was characterized for cultural practices, soil type and climatic conditions. Grain yield and analyses of test weight, protein, ash, gluten, Alveograph, Farinograph, Falling Number, SDS sedimentation and flour color were determined. Allelic variations of puroindolines and glutenins were determined in all the genotypes evaluated. Both puroindoline and gluten protein alleles corresponded to genotypes possessing medium to very good bread making quality. Large variability for most quality attributes evaluated was observed, with wider ranges in quality parameters across environments than among genotypes; even for parameters known to be largely determined by genotype. The importance of growing environment on grain quality was proved, suggesting that breeders’ quality objectives should be adapted to the targeted environments. 相似文献
4.
Hermann Buerstmayr Nicola Krenn Uwe Stephan Heinrich Grausgruber Elisabeth Zechner 《Field Crops Research》2007
One hundred and twenty oat (Avena sativa L.) genotypes of worldwide origin were evaluated for agronomic and grain quality characters in three replicated field experiments in Austria and one in Germany. Panicle emergence, plant height and lodging severity were evaluated under field conditions, and grain yield, thousand kernel weight, hectolitre weight, screenings percentage > 2 mm, and groat percentage were measured after harvesting. Substantial genetic variation and high heritability were observed for all traits. The highest yielding entries were improved cultivars from European breeding programs. Groat yield and grain yield were highly correlated. For agronomic traits such as earliness and plant height, and quality traits such as groat percentage, several of the overseas genotypes, mostly from the USA and Canada, showed better performance than the European cultivars. Selected lines from the North American breeding programs appear to be valuable resources for European oat breeding programs, especially for the improvement of physical grain quality traits. 相似文献
5.
为了探究预测小麦品质的方法,利用以小麦品种川农17与绵阳11为亲本构建的重组自交系群体为研究材料(共169个家系),分析了其籽粒性状和品质特性及二者之间的关系。结果表明,小麦粒长与降落值、面团形成时间和面团稳定时间呈极显著负相关,粒宽与沉降值、湿面筋含量和面筋指数呈极显著负相关,千粒重与降落值、沉降值、面团形成时间和面团稳定时间呈极显著负相关,容重与降落值、面团形成时间和面团稳定时间呈极显著正相关,与沉降值、湿面筋含量和面筋指数呈极显著负相关。粒长、千粒重和容重决定了降落值总变异的77.9%,粒长和千粒重决定了沉降值总变异的35.0%,容重和千粒重决定了面团形成时间总变异的50.7%,容重和千粒重决定了面团稳定时间总变异的49.3%,粒长、粒宽和容重决定了湿面筋含量总变异的51.0%,容重决定了面筋指数总变异的45.7%。说明在小麦品质育种中,粒长、粒宽、千粒重和容重可作为预测小麦品质优劣的选择指标。 相似文献
6.
Josef Hakl Seyed Mohammad Ali Mofidian Zde&#x;ka Kozov Pavel Fuksa &#x;antr
ek Jaromír 《Grass and Forage Science》2019,74(4):687-695
Evaluation of crop and forage yield stability is of increasing relevance in the context of current and recent environmental changes but, in contrast to other field crops, there are no published systematic analyses among forage crops in Europe. A study of stability performance was conducted with 13 Czech cultivars of lucerne at four locations over a 2‐year period with the following aims: (a) to evaluate yield stability of varieties across different environments and (b) to calculate measurable benefits of variety selection in relation to the specific environment. The cultivar Vlasta was identified as the highest yielding cultivar (annual yield 16.0 t DM/ha), whereas the lowest yielding cv. Magda, Tereza and Oslava averaged around 14.9 t DM/ha. Effect of genotype × environment interaction (G × E) was two times higher than for genotype alone. Additive main effects and the multiplicative interaction (AMMI) model showed that the highest yielding cultivars may not be stable across environments. This study demonstrated further that significant yield improvement could be detected, even among a relatively homogenous group of domestic cultivars, and this was driven mainly by site productivity: the improvement was +10% in low‐yielding sites, compared with +3% in high‐yielding sites. Results highlight that advanced agronomy should also consider stability parameters such as AMMI stability value or superiority measures for forage crops in response to the challenges associated with climate change. 相似文献
7.
Nimesha Fernando Joe Panozzo Michael Tausz Robert M. Norton Glenn J. Fitzgerald Samuel Myers Marc E. Nicolas Saman Seneweera 《Journal of Cereal Science》2014
In order to investigate the intra-specific variation of wheat grain quality response to elevated atmospheric CO2 concentration (e[CO2]), eight wheat (Triticum aestivum L.)cultivars were grown at two CO2 concentrations ([CO2]) (current atmospheric, 389 CO2 μmol mol−1vs. e[CO2], FACE (Free-Air CO2 Enrichment), 550 ± 10% CO2 μmol mol−1), at two water levels (rain-fed vs. irrigated) and at two times of sowing (TOS1, vs. TOS2). The TOS treatment was mainly imposed to understand whether e[CO2] could modify the effects of timing of higher grain filling temperatures on grain quality. When plants were grown at TOS1, TKW (thousand kernel weight), grain test weight, hardness index, P, Ca, Na and phytate were not significantly changed under e[CO2]. On the other hand, e[CO2] increased TKW (16%), hardness index (9%), kernel diameter (6%), test weight (2%) but decreased grain protein (10%) and grain phytate (11%) at TOS2. In regard to grain Zn, Mn and Cu concentrations and some flour rheological properties, cultivar specific responses to e[CO2] were observed at both sowing times. Observed genetic variability in response to e[CO2] in terms of grain minerals and flour rheological properties could be easily incorporated into future wheat breeding programs to enable adaptation to climate change. 相似文献
8.
Seed nitrogen content, protein composition and free amino acid content were determined in rice mutant lines with altered storage protein composition and their parental cultivars. The Lgc1 gene, which causes low glutelin content and high content of 13 kDa prolamin and 26 kDa globulin, did not affect grain weight, nitrogen content, or free amino acid content. The glb1 gene, which lacks the 26 kDa globulin, did not affect grain weight or nitrogen content, but in mutant lines with glb1 gene the content of the major free amino acids was significantly (1.3–1.5 times) higher than those of their parental cultivars. These results suggest that absence of 26 kDa globulin is accompanied by an accumulation of a high level of free amino acids in rice grains. 相似文献
9.
Ramya Prashant Narendra Kadoo Charushila Desale Prajakta Kore Harcharan Singh Dhaliwal Parveen Chhuneja Vidya Gupta 《Journal of Cereal Science》2012
Wheat kernel size and shape influence its flour yield and market price. A hexaploid wheat population of 185 recombinant inbred lines was evaluated for five kernel morphometric traits namely, 1000-kernel weight, kernel length, width, length–width ratio and factor form density in two diverse agro-climatic regions in India in five to eight year–location combinations. Additive main effects and multiplicative interaction analysis revealed significant contributions from genotype (G) and genotype × environment (G × E) effects for these traits. Quantitative trait locus (QTL) analysis by composite interval mapping (CIM) was performed using a linkage map of 251 SSR markers and 59 QTLs distributed on 16 chromosomes were identified. The majority of the QTLs were located on the D genome (44.07%) and the homeologous chromosomes of Group 2 (38.98%). Stable QTLs detected in three or more year–location combinations were identified for four traits. Multi-trait CIM showed 10 chromosomal regions harboring putative pleiotropic loci. Complexity in the genetic effects was further revealed by QTL analysis based on mixed-linear model that indicated 19 QTLs with significant individual effects (main-effect QTLs) and 14 QTL × QTL interactions. Five of these nineteen main-effect QTLs and one of the fourteen QTL × QTL interactions showed environmental influence. 相似文献
10.
选用具有高产潜力的6个玉米杂交种,采用12万株/hm2的密度大田种植,研究高产玉米不同品种子粒灌浆特征的差异及其与粒重的关系。结果表明,6个玉米杂交种均可实现15 000 kg/hm2的高产水平。良玉66和中单909前中期灌浆速率高,且最早到达最大灌浆速率;灌浆速率下降慢的品种,成熟相对偏晚。品种间差异主要是灌浆速率和到达最大灌浆速率的时间不同,活跃灌浆期并没有明显差异。影响不同品种粒重的主要因素是线性灌浆期和缓慢灌浆期的灌浆速率。因此提高品种的线性灌浆期和缓增期灌浆速率可以增加粒重。在新疆伊犁春播玉米高产区,适宜的高产品种为中单909和良玉66。 相似文献
11.
Ajay Kumar Elias M. Elias Farhad Ghavami Xin Xu Shalu Jain Frank A. Manthey Mohamed Mergoum Mohammed S. Alamri Penny M.A. Kianian Shahryar F. Kianian 《Journal of Cereal Science》2013
Gluten strength is an important characteristic, determining the end product quality of durum wheat semolina. To identify the genetic basis of gluten strength in North Dakota durum cultivars, a doubled haploid population was developed from the cross of a weak gluten cultivar ‘Rugby’ and a strong gluten cultivar ‘Maier’. A framework linkage map consisting of 228 markers was constructed and used with phenotypic data on gluten strength (measured by sedimentation volume) to conduct single- and two-locus QTL analyses. Only one consistent QTL (QGs.ndsu-1B) contributing up to 90% of the phenotypic or 93% of the genotypic variation was detected on 1BS. No QTL × QTL or QTL × environment interactions were observed. The QGs.ndsu-1B was flanked by two DArT markers which were converted to STS markers and used along with SSR and EST-SSRs to develop a map of 1BS. QTL analysis delineated QGs.ndsu-1B in a 7.3 cM region flanked by an STS marker (STS-wPt2395) and a SSR marker (wmc85). The adapted background of this material and availability of PCR-based markers closely associated with this locus represent invaluable resources for marker-assisted introgression of gluten strength into other durum wheat varieties. A single QTL segregating in this population also makes it an ideal target for map-based cloning. 相似文献
12.
Conxita Royo Marco Maccaferri Fanny Álvaro Marc Moragues Maria Corinna Sanguineti Roberto Tuberosa Fouad Maalouf Luis F. García del Moral Andrea Demontis Sayar Rhouma Miloudi Nachit Nasserlehaq Nserallah Dolors Villegas 《Field Crops Research》2010
A collection of 191 durum wheat accessions representing Mediterranean Basin genetic diversity was grown in nine different environments in four countries, with productivities ranging from 0.99 to 6.78 t ha−1. The population breeding structure comprised eight genetic subpopulations (GSPs) using data derived from 97 evenly distributed SSR markers. The phenotypic structure was assessed: (i) from the mean values of six agronomic traits across environments (multivariate), and (ii) from data representing each trait in each environment (univariate). Mean daily maximum temperature from emergence to heading was significantly (P < 0.05) and negatively associated to yield, accounting for 59% of yield variations. Significant but weak relationships were obtained between the genetic similarities among accessions and their overall agronomic performance (r = 0.15, P < 0.001), plant height (r = 0.12, P < 0.001), spike–peduncle length (r = 0.06, P < 0.01) and thousand kernel weight (r = 0.03, P < 0.05), suggesting a very low possibility of prediction of the agronomic performance based on random SSR markers. The percentage of variability (measured by sum of squares) explained by the environment varied between 76.3 and 98.5% depending on the trait, while that explained by genotypes ranged between 0.4 and 12.6%, and that explained by the GE interaction ranged from 1.1 to 12.5%. The clustering of the accessions based on multivariate phenotypic data offered the best explanation of genotypic differences, accounting for 30.3% (for yield) to 75.1% (for kernel weight) of the observed variation. The genotype × environment interaction was best explained by the phenotypic univariate clustering procedure, which explained from 28.5% (for kernel weight) to 74.9% (for days to heading) of variation. The only accessions that clustered both in the genetic dissimilarities tree and the tree obtained using Euclidean distances based on standardized phenotypic data across environments were those closely related to the CIMMYT hallmark founder ‘Altar 84’, the ICARDA accessions adapted to continental-dryland areas, and the landraces, suggesting that genetic proximity corresponded to agronomic performance in only a few cases. 相似文献
13.
《Field Crops Research》2005,91(2-3):319-327
The consumer's interest in natural, unconventional and nutritional foods led to the development of new specialty foods based on grain blends. Components of such foods are often so-called ‘ancient wheats’ which were never the subject of modern plant breeding programmes. Khorasan or Oriental wheat (Triticum turanicum) is a neglected and underutilised tetraploid wheat species, which probably survived over the centuries in subsistence farming systems in the Near East and Central Asia. In the present study the agronomic potential of Khorasan wheat was evaluated under eastern Austrian conditions.Fourteen accessions of Khorasan wheat were investigated together with check durum wheat cultivars over a period of 4 years in the Marchfeld region, north-east of Vienna. The crops were sown both in autumn and spring.The investigated material was inferior to modern durum wheats in most agronomic traits. No accession was found to tolerate soil temperatures below −5 °C. Tolerance to drought and fungal diseases was limited and/or modest, and grain yields were significantly lower. While the best performing turanicum accessions yielded in average 385.8 and 233.8 g m−2 for autumn and spring sowing, respectively, the check winter durum yielded 466.5 g m−2 and the check spring durums between 351.5 and 391.8 g m−2. Several characteristic and interesting features were observed which permit successful marketing of pure Khorasan grain or as a component in grain blends, despite possible flour quality traits. The grain has an impressive kernel size and thousand kernel weight, in most cases greater than 50 g and often even greater than 60 g. The high thousand kernel weight might be a valuable trait to transfer into durum wheat to improve grain yield. Moreover, the grain has an amber colour and high vitreousness.Due to higher plant height, low lodging tolerance and high susceptibility against powdery mildew, Khorasan wheat is more suitable for organic farming systems. Although there is evidence that Khorasan wheat has low adaptation, it is of interest as an alternative cereal to increase diversity both in the field and on the consumer's table. However, further experiments are necessary: on the one hand to study the interactions between sowing rates, sowing dates, weed suppression, thousand kernel weight and kernel plumpness in order to find out optimal production procedures, and on the other hand to find out areas/fields with the best growth conditions for Khorasan wheat. 相似文献
14.
不同水旱地小麦品种聚类分析及其利用模式研究 总被引:6,自引:0,他引:6
为了合理利用小麦种质资源,减少组配小麦杂交组合的盲目性,选取34份在中国大面积推广种植的具有一定代表性的旱薄地、旱肥地、水肥地及水旱兼用型小麦材料,以株高、穗长、有效分蘖数、单穗小穗数、单穗粒数、单株粒重、单株生物学产量、千粒重为指标进行系统聚类分析.结果表明,参试品种可以分为3组,第Ⅰ组是节水高产型品种,可作为高产型亲本;第Ⅱ组耐旱性强的旱薄地品种,可作为改良耐旱性状的亲本材料;第Ⅲ组在旱作条件下综合表现较好,主要表现为有效分蘖多,株高适中,单株粒重、千粒重大,是较为理想的节水高产育种的亲本材料.研究表明,中国小麦育种已经从耐旱潜力的挖掘转向了节水高产潜力的挖掘,选育抗旱节水高产品种是现代育种模式发展的重要方向之一. 相似文献
15.
为了解波兰小麦籽粒及其品质性状,对52份波兰小麦品种籽粒性状进行了测定,并对其品质性状间的相关性进行了分析。结果表明:(1)供试波兰小麦籽粒千粒重变异系数最高为42.27%,其次为粗蛋白、湿面筋含量,变异系数分别为11.47%和11.74%;较高原448,10号的籽粒千粒重提高46.95%,20号的粗蛋白含量提高105.83%,2号的湿面筋含量提高94.31%,这些品种可以作为较高千粒重和籽粒品质的重要种质资源;供试小麦籽粒长度、宽度与千粒重呈极显著正相关,籽粒大小可以作为千粒重选择的指标。(2)主成分分析表明,波兰小麦面粉的形成时间对其品质影响的权重最高(W=0.24),其次是稳定时间对品质的影响(W=0.23);面粉的稳定时间和形成时间与籽粒含水率、粗蛋白含量呈显著或极显著负相关,与籽粒千粒重呈极显著正相关,湿面筋含量与面粉形成时间呈显著正相关。可选择千粒重较大、籽粒含水率较低、粗蛋白含量适宜的波兰小麦作为我国小麦遗传基础拓展和品种改良的亲本材料。 相似文献
16.
宁夏引黄灌区冬小麦谷蛋白亚基组成和1BL/1RS易位分析及品质性状研究 总被引:1,自引:0,他引:1
为全面了解宁夏引黄灌区冬小麦品质概况,为冬小麦品质改良和粮食生产提供理论依据。选用冬小麦主栽品种、亲本材料和高代品系30份。用SDS-PAGE分析了其中18份材料的HMW—GS、LMW—GS组成和1BL/1RS易位系分布状况。并对23个冬小麦品种的营养与加工品质进行了研究。结果表明,2#、7+9、2+12、Glu-A3a、Glu-A3c、Glu-B3h和Glu—B3j在宁夏引黄灌区冬小麦中分布较广,1BL/1RS易位系分布相当普遍。分布频率为27.8%。参试品种的籽粒硬度、面粉PPO活性、SDS沉淀值、形成时间、稳定时间和评价值的变异范围较大,变异系数分别为25.37%、33.68%、21.42%、26.58%、43.95%和29.31%。多数冬小麦品种(系)的千粒重、出粉率和湿面筋含量低于对照宁春4号。而蛋白质含量、SDS沉淀值、吸水率和稳定时间优于宁春4号。供试品种(系)中。HMW-GS品质评分、籽粒硬度、蛋白质含量、SDS沉淀值均较高,并且不含1BL/1RS易位系的有烟优361、济麦20、鲁875067和923—9等,可用于宁夏引黄灌区冬麦品质改良。 相似文献
17.
新疆冬小麦品种品质性状与面包、馒头、面条加工品质的关系 总被引:7,自引:0,他引:7
为了给优质面包、馒头、面条专用品种选育提供品质辅助选择指标,以30份新疆冬小麦品种(包括自育品种和引进品种)为材料,分析了新疆冬小麦品种品质性状与面包、馒头、面条加工品质的关系.回归分析结果表明,小麦籽粒性状、面粉品质、面团特性、淀粉糊化特性以及面粉色泽对新疆冬小麦品种面包、馒头和面条加工品质均有显著影响;面粉灰分、湿面筋、稀懈值、亮度和红度是影响面包、馒头和面条加工品质的共同品质性状;形成时间、稳定时间、延展度是影响面包和面条加工品质的共同品质性状;而籽粒性状仅对新疆冬小麦品种馒头加工品质有显著影响.相关分析结果表明,千粒重、形成时间、稳定时间、拉伸面积、最大拉伸阻力、红度和黄度与面包总分呈显著相关关系,相关系数分别为0.460、0.516、0.537、0.719、0.707、0.534和-0.403;籽粒蛋白质含量、面粉蛋白含量和湿面筋含量与馒头总分呈显著相关关系,相关系数分别为-0.397、-0.458和-0.552,面团延展度、稀懈值与面条总分呈显著相关关系,相关系数分别为0.438和0.432.从以上结果可以看出,面包与面团流变学特性,馒头与蛋白质和面筋数量,面条与面团流变学特性及淀粉糊化特性的关系更为密切,这些品质性状可以作为新疆冬小麦品种面包、馒头、面条加工品质改良时的辅助选择指标. 相似文献
18.
《Field Crops Research》2006,96(1):125-132
The late-season foliar application of urea may increase yield and grain quality of wheat (Triticum aestivum L.). Limited information is available regarding the effect of late urea spraying on the performance of wheat cultivars under various basal N fertilization rates. Field experiments were conducted during 2000 through 2002 to evaluate the responses of six winter wheat cultivars to foliar urea (30 kg N ha−1) treatment around flowering at low (67 kg N ha−1) and high (194 kg N ha−1) basal N fertilization rates. Following urea spraying at low N rate, all cultivars increased grain yields to a similar extent (by an average of 7.8% or 509 kg ha−1) primarily due to an increase in the 1000-kernel weight. No yield response to the late-season urea treatment occurred at high basal N rate where grain yields averaged 24.9% (1680 kg ha−1) higher than those at low N rate. In contrast, late foliar urea application similarly improved grain quality at both low and high N rates by an average of 5 g kg−1 (4.5%) for protein content, 3.2 cm3 (11.9%) for Zeleny sedimentation, and 20 g kg−1 (8.6%) for wet gluten. These quality increments were consistent in all growing seasons regardless of significant variations in grain yields and protein concentrations across years. However, most cultivars failed to achieve breadmaking standards at low N rate as quality increments associated with the urea treatment were relatively small when compared to those achieved by high basal N rate. Late urea spraying had no effect on the falling number, whereas some cultivars showed small, but significant reduction in the gluten index at both N rates. Cultivars improved the hectolitre weight with the late-season urea treatment only at low N rate. Significant cultivar × urea interactions existed for most quality traits, which were due to the cultivar differences in the magnitude of responses. Thus, late-season urea spraying consistently produced larger yields at low basal N rate, and resulted in cultivar-dependent increases in protein content, Zeleny sedimentation, and wet gluten at both low and high N rates. 相似文献
19.
The aim of this study was to improve the baking quality of whole-wheat saltine cracker (WWSC) using endoxylanases, vital wheat gluten (VWG), and gum Arabic. SRC results showed both water-SRC and sucrose-SRC of soft white whole-wheat flour (SWWW) were significantly reduced by gum Arabic (r = 0.94, P < 0.05). Alveograph results indicated that the tenacity and extensibility of the whole-wheat dough (WWD) were increased by VWG. Rheometer G′ and G″ moduli increased with higher addition levels of endoxylanases, VWG, and gum Arabic. Low-field nuclear magnetic resonance (LF-NMR) detected three CPMG proton populations (T21, T22, and T23) in WWD. T21 peak area ratio (tightly bound water) reduced and T22 peak area ratio (less tightly bound water) increased with the levels of each additive. LF-NMR results revealed increased water mobility from T21 population to T22 population with addition of these additives, which was beneficial for gluten to form a continuous network. Both stack height and specific volume of WWSC were improved by the use of endoxylanases, VWG, and gum Arabic, but the breaking strength varied. The results of Orthogonal experimental design showed that the most-improved quality WWSC could be produced by combining 0.035% endoxylanases, 1.5% VWG, and 1.5% gum Arabic into SWWW flour. 相似文献
20.
《Journal of Cereal Science》2004,39(1):9-19
There is a need to develop more sensitive and reliable tests to help breeders select wheat lines of appropriate quality. Gluten thermostability, measured by the viscoelasticity of heated gluten, was assessed for its usefulness in evaluating quality of wheats in breeding programs. Two sets of wheat samples were used: Set I consisting of 20 cultivars and/or breeders' lines (BL), with diverse dough strengths and allelic variations of high Mr glutenin subunits coded at the Glu-A1, Glu-B1 and Glu-D1 loci (N=20) and Set II consisting of 16 near isogenic BL of F7 generation that had been in a quality selection program for three years. Thermostability of the isolated wet gluten was determined by measuring its viscoelastic properties, and was related to noodle texture, flour protein content, protein composition, dough physical properties and other quality predicting tests.Viscoelasticity of heat-treated gluten, isolated with 2% NaCl solution, significantly correlated with most of the tests used to measure dough and/or gluten strength and Chinese white salted noodle texture. The rate of thermal denaturation of proteins depends on Mr and packing density. High ratios of monomeric proteins such as gliadins and low Mr glutenin subunits to high Mr glutenin subunits increase the thermostability of the gluten. The measurement of viscoelasticity of heat-denatured gluten can be a useful test to determine gluten quality. Our study showed that gluten viscoelasticity and most of the tests related to dough and/or gluten strength are independent of allelic variations of the high molecular weight glutenin subunits. This test has been developed for predicting white salted noodle quality. 相似文献