Seed Storage Proteins of Triticum turgidum ssp. dicoccoides and Their Effect on the Technological Quality in Durum Wheat

F₄ progenies of a cross between durum wheat cultivar ‘Creso’ and an accession of Triticum turgidum ssp. dicoccoides with high protein content were analysed by two different electrophoretic procedures (A-PAGE and SDS-PAGE). Variation of storage proteins at the Glu-A1, Glu-B1, Glu-B3 and Gli-B1 loci was studied. Electrophoretic analyses have shown that parents contain different alleles at each of the four loci considered and that protein components of T. dicoccoides are uncommon among cultivated wheats. Recombination between the Glu-B3 and Gli-B1 loci was observed. To determine the effects of the allelic variants on gluten properties, F₅ grains from every F₄ line were analysed for protein content and SDS-sedimentation value. Gluten quality was strongly associated with the allelic type of proteins coded by the Glu-B3 locus and, to a lesser extent, to those coded by Glu-A1. Mean sedimentation value of progenies possessing the ‘Creso’Glu-B3 allele was significantly greater than that showing the T. dicoccoides allele. High molecular weight glutenin sub-units coded by the T. dicoccoides Glu-A1 locus were also associated with larger sedimentation values than null form of ‘Creso’. Results of SDS-test, obtained for recombinants between Glu-B3 and Gli-B1, confirmd that specific omega- and gamma-gliadins are only genetic markers of quality, whereas variation for LMW glutenin subunits coded at Glu-B3 is responsible for differences in gluten properties.     

Relationship Between High Molecular Weight Glutenin Subunit Composition and Gluten Quality in Ethiopian-grown Bread and Durum Wheat Cultivars and Lines

The high molecular weight glutenin subunit (HMW-GS) composition of 42 Ethiopian-grown bread wheat and 31 durum wheat cultivars and lines were examined using SDS-PAGE. Low variability in HMW-GS composition was present in both classes of wheat. A total of 10 variants with 14 different HMW patterns and seven variants with six different patterns were identified in bread and durum wheat, respectively, reflecting the limited ability of HMW-GS for cultivar identification. The most predominant alleles were 2*, 7 + 9 and 5 + 10 in bread wheat and nul and 7 + 8 in durum wheat. The Glu-1 quality scores for bread wheat ranged from 6 to 10, with an average value of 8.7. The variation in HMW-GS significantly correlated with and accounted for 44 % of the total variation in gluten quality, measured by the sodium dodecyl sulphate sedimentation test. In durum wheat, HMW-GS variation at Glu-B1 explained about 25 % of the variation in gluten quality. The high frequency of the 7 + 8 alleles among the landraces and the significant contribution of Glu-B1 alleles to the total variation in gluten quality indicate the potential benefit of Ethiopian tetraploid landraces in the development of lines suitable for both bread and pasta production.     

Relationship between Quality, Colour of Glume and Gliadin Electrophoregrams in Durum Wheat

Gliadin electrophoregrams, protein content and SDS-sedimentation values from the modified SDS-sedimentation test were obtained from six Greek cultivars of Triticum durum and 98 biotypes (78 with white glumes, 20 with red glumes). Our results provide wheat breeders with the tool TO predict the cooking quality of durum wheat from early generation breeding lines, since we were able to correlate the colour of the glume with the presence or absence of gliadin bands 42/45. All red glume biotypes lacked gliadin band 45 and possessed gliadin band 42. Furthermore, their SDS sedimentation values were around 27 (weak gluten), indicating poor cooking quality. Yet, the electrophoregrams of the gliadin proteins allowed an identification of the wheat cultivars examined, since for each cultivars the pattern was different. No correlation was found between the colour of the glume and the amount of total gram protein.     

Grain quality and yield characteristics of D-genome disomic substitution lines in 'Langdon' (Triticum turgidum var. durum)

Sets of D-genome disomic substitution lines of ‘Langdon’ (Triticum turgidum var. durum) were used to study the effect of chromosome substitutions on grain yield and flour technological properties. In general, the substitution of any D-genome chromosome had a detrimental effect on grain yield and growth vigour (some lines were sterile). SDS-sedimentation, SE-HPLC and two-gram mixograph procedures were used to measure dough strength of the lines studied. Significant correlations were observed between protein concentration and grain yield and other quality parameters such as SDS-sedimentation value, the proportion of glutenin, dough mix time and peak resistance. Most of the quality characters were highly correlated with each other. Substitution of chromosomes 1D, 5D, 2D and 7D resulted in positive responses to SDS-sedimentation values, but only chromosome 1D had positive effects on the proportion of peak 1 (P₁%), measured by SE-HPLC. Besides the major influence of chromosome 1D on three major mixograph parameters (mixing time, peak resistance and resistance breakdown), chromosome 5D also exhibited significant effects on these mixing parameters. Principal-component analysis showed that the predominant effect on durum-wheat rheological properties was from chromosome 1D, whereas chromosome 5D had a major effect on grain hardness (50%) and increased the whiteness of the flour.     

Quality of Ethiopian Durum Wheat Lines in Two Diverse Environments

In Ethiopia, durum wheat is largely used for production of local fermented and flat bread. Two diverse environments (Motta and Adet) were used to evaluate 15 durum wheat genotypes for grain yield and quality traits. The mean flour protein content of genotypes ranged from 10.1 % to 12.5 % and 6.7 % to 8.1 % at Motta and Adet respectively. The mean mixograph development time was 4 min at Motta and 2.8 min at Adet and SDS (Sodium dodecyl sulphate) sedimentation ranged between 10.7 and 32.3 ml across locations. Flour protein content was correlated negatively with mixograph development time and positively with vitreous kernels and single‐kernel hardness at both environments. Mixograph development time was selected to predict the gluten strength. Flour protein content, SDS sedimentation and seed weight were included in a stepwise regression. A prediction model was compiled that explained 69 % of the variation for mixograph development time.     

Relationship between electrophoretic pattern of storage proteins and gluten strength in durum wheat landraces from Turkey

A collection of 180 Triticum durum lines from Turkey and 22 Italian cultivars were investigated by electrophoretic techniques and evaluated for grain parameters such as protein content and sodium dodecyl sulphate (SDS)-sedimentation test. A total of 14 different patterns were observed for high-molecular-weight (HMW) glutenin subunits resulting from the combination of three alleles from the A genome and seven from the B genome. Three new allelic variants, one at Glu-A1 and two at Glu-B1, were found. Five different alleles were detected at the Glu-B1 locus. Genotypes with the same allelic variant at Gli-B1 showed inconsistency of composition in B group of low-molecular-weight (LMW) glutenin subunits. A total of 11 different B-subunit patterns were identified in the material analysed. A substantial proportion (78%) of the variation in gluten properties could be explained in terms of protein composition, with the LMW glutenin subunits making the largest contribution (54%). Results indicate that, in addition to Glu-B3 encoded proteins, variation at other loci coding for some intermediate and fastest B subunits might also influence rheological properties.     

Relationships between different prolamin proteins and some quality properties in durum wheat

The objective of this paper was to study the differences between some prolamin variants coded at the loci Glu-3/Gli-1, Glu-1 and Gli-A2 and their relative roles in durum-wheat quality. F₃ lines from four durum wheat crosses (‘Abadia’בMexicali’. ‘Oscar’בArdente’, ‘Oscar × Mexicali’ and ‘Alaga’בC. of Balazote’) were analysed for gliadin and glutenin composition by electrophoresis. Whole-grain-derived samples were analysed for SDS sedimentation (SDSS) value, mixing properties, and contents of protein and vitreousness. The glutenin patterns LMW-2. LMW-2^? and LMW-2 (CB) at Glu-B3/Gli-B1 were associated with better gluten quality than were LMW-1 and LMW-2*. The glutenin subunits LMW4 and LMW3 + 15 at Glu-A3/Gli-A1 and HMW-1 showed better mixing properties than LMW7 + 12, LMW5 and the null phenotype. respectively. The HMW glutenin subunits 20 + 8 at Glu-B1 showed a negative association with gluten quality, but the rest of the HMW glutenin subunits and α-gliadins did not show any influence on gluten quality. Correlations between the results of the SDSS test and the mixograph were highly significant, but no correlation was found between these results and protein and vitreousness contents. The results are discussed in relation to the development of durum wheat varieties with improved qualities.     

硫对不同类型春小麦湿面筋和沉降值及氨基酸的效应

以6个不同品质类型春小麦为材料,在不同氮水平下,研究施硫对湿面筋、沉降值及氨基酸的调节效应。结果表明,高氮条件下（施尿素128 kg/hm2）,施硫可提高湿面筋含量和沉降值,对高蛋白品种作用更明显。低氮（施尿素60 kg/hm2）条件下施硫,除辽10的湿面筋和沉降值均降低外,其它品种表现湿面筋含量降低而沉降值提高。高蛋白     

Recombination within the Gli-B1 Locus in Durum Wheat

Recombination within the closely linked genes encoding for omega and gamma gliadins at the complex Gli-B1 locus present on the short arm of chromosome 1B was detected in a durum-wheat line (Triticum durum) from Iran. This recombinant differs from a previous one the authors detected in the durum-wheat cultivar ‘Berillo’ since it shows the gamma gliadin component 45 associated with a triplet of omega components usually found linked with the allelic gamma gliadin 42. Analysis of low-molecular-weight glutenin subunits, encoded by genes at the complex Glu-B3 locus associated with the Gli-B1 locus, showed the presence of the protein type designated LMW-1 which is peculiar to durum-wheat cultivars possessing the gamma gliadin 42.     

Comparative Analysis of High-Molecular-Weight Glutenin Subunit Composition in Various Triticum Species

Variation in high-molecular-weight glutenin subunit composition amongst Triticum durum cvs. of different origins was investigated by SDS-PAGE and compared with that reported for T. dicoccum and T. aestivum. Tetraploid wheat collections (408 cvs.) were found to carry nearly twice as many Glu-A1 and Glu-B1 alleles as a hexaploid wheat sample of comparable size. In each of the taxa considered, allelic variation at the Glu-B1 locus was markedly greater than that observed for Glu-A1. However, because all the Glu-B1 subunits so far discovered exhibit a restricted and distinctive mobility range during. SDS-PAGE, it is suggested that they are derived from a single source, possibly from Aegilops searsii. Most durum cvs. carried a ‘null’Glu-A1 allele and therefore fewer subunits than dicoccums and common wheats. It is argued that differences in the frequency of occurrence of ‘null’Glu-1 alleles between taxa probably resulted from random samplings made by early agriculturalists and breeders, rather than from an inherent tendency of polyploid wheats to suppress the activity of “redundant” genes.     

Inheritance of Isoproturon Tolerance in Durum Wheat Transferred from Triticum monococcum

The inheritance of isoproturon tolerance exhibited by the selected progenies of durum wheat was investigated. This tolerance to the herbicide isoproturon had been transferred from Triticum monococcum to durum wheat cultivars. It was shown to be conditioned by a single dominant gene     

Association between Yield and Carbon Isotope Discrimination Value in Different Organs of Durum Wheat Under Drought

Carbon isotope discrimination (Δ) has been proposed as a selection criterion for transpiration efficiency and grain yield in drought‐prone environments for several C³ species, including cereals. Δ analysis, however, has mainly been concerned with grain or culm tissues and little work has been devoted to other organs. The objective of this study was to describe Δ variation in different organs and to examine the relationships between Δ and grain yield across environments. Six durum wheat genotypes with contrasted grain Δ were cultivated under rainfed conditions during three successive years at Montpellier (South of France). Δ was measured on flag leaf, stalk, awns, chaff and rachis sampled at anthesis and maturity, and on mature grain. Higher genotypic variation and closer correlation with yield were noted for grain Δ compared to other plant parts. The genotype ranking across years was more consistent for grain Δ than for other organs. Consequently, the grain seems the most effective plant part for Δ analysis in durum wheat under Mediterranean conditions. The study of Δ variation in other organs may be useful, however, to evaluate the contribution of those organs to grain filling and final yield according to environmental conditions.     

Phaseolus coccineus Storage Proteins II. Electrophoretic Analysis and Erythroagglutinating Activity in Various Cultivars

Biochemical analyses of seed storage proteins of Phaseolus coccineus have been carried out to identify seventeen different cultivars. The electrophoretic patterns in native polyacrylamide gel electrophoresis (PAGE) and denaturing conditions (SDS-PAGE); evidenced qualitative and quantitative differences for the three major protein components: legumin, vicilin and phytohaemagglutinin (PHA). The results were confirmed by isoelectrofocusing (IEF) analyses. Erythroagglutination tests showed the presence of high agglutinating activity particularly in cultivars with low vicilin content. The experimental results allow one to distinguish all the cultivars by their electrophoretic spectra and agglutinating activities.     

硬粒小麦与偏凸山羊草部分双二倍体的核型研究

通过硬粒小麦（AABB,2n＝28）与偏凸山羊草（DDMvMv,Zn＝28）杂交,今成选育出遗传上相对稳定的部分双二倍体。利用核型分析,初步鉴定出该部分双二倍体具有编凸山羊草的染色体组,从而证实了杂种的真实性。该部分双二倍体的获得为将硬粒小麦,特别是偏凸山羊草的优异基因向小麦转移奠定了基础。     

Estimating Genetic Diversity in Durum and Bread Wheat Cultivars from Turkey using AFLP and SAMPL Markers

Since 1925, more than 100 wheat varieties were developed and released in Turkey, and many more were introduced from abroad, but no systematic analysis of their genetic diversity has been performed yet. In this research, a total of 34 domestic and foreign cultivars (12 durum and 22 bread wheats), released in Turkey between 1936 and 2000, were fingerprinted by means of five amplified fragment length polymorphism and three selective amplification of microsatellite polymorphic loci (SAMPL) primer combinations, to evaluate their genetic variation and to determine the existence of cultivar-specific bands. Among the 344 amplicons scored, 214 were polymorphic. The primer combination E_ACG/M_AGG yielded the highest number and the primer combination SAMPL–6/M _AGA produced the lowest number of polymorphic bands. Most cultivars were molecularly very similar, although a few distinct ones (the durum wheat 'Kunduru–1149' and the bread wheat 'İkizce–96') were also identified. Seven cultivar-specific markers for different bread wheat cultivars ('Golia', 'Seri–82', 'Adana–99', 'Pandas' and 'Sertak–52') and six cultivar-specific markers for durum wheat cv 'Kunduru' were observed. Our results show that genetic diversity among old and present–day wheat cultivar commonly grown in Turkey is limited.     

不同强筋小麦品种产量、品质和氮素利用的差异

在高土壤肥力条件下,设置不施氮肥和施氮240 kg/hm22个处理,研究了6个强筋冬小麦品种的产量、品质和氮素利用的差异。结果表明,在施氮与不施氮的条件下,8901和济麦20两个品种均表现为高产、优质和高的氮素利用效率;施氮有利于进一步改善8901小麦的品质,提高济麦20的子粒蛋白质含量。两种处理下,淄麦12亦表现为产量较高,品质较优,但该品种氮素利用效率低,施氮后氮素利用效率进一步下降。烟农15的氮素利用效率亦较低,但施氮后氮素收获指数和氮素利用效率降低较少,子粒品质得到明显改善。与上述4个品种比较,济南17和烟农19的产量、品质和氮素利用效率居中;施氮后济南17的子粒产量显著提高,但两品种的品质均未得到显著改善。     

Evaluation of Grain Filling Rate and Duration in Bread and Durum Wheat, under Heat Stress after Anthesis

Bread and durum wheat genotypes were submitted to heat stress during the grain filling period, and relationships between grain weight and accumulated time from anthesis until maturity, using days after anthesis and growing degree days, were described by cubic polynomials. Maximum grain weight and the duration and rate of grain filling were estimated from the fitted curves. It was found that bread and durum wheat exposure to high temperatures significantly decreased grain weight and hastens physiological maturity (shortening the grain filling period). High temperatures significantly affected the rate (on a growing degree day basis) and duration (on Julian day units) of grain filling. The grain filling rate, on a thermal time basis, was positively associated with the final grain weight and the estimated maximum grain weight. The duration of grain filling does not appear to be a limiting factor for genotype grain weight stability, being mainly fixed by temperature. Grain weight of the controlled plants was positively correlated with the final and maximum grain weight of heat stressed plants. It was concluded that a high grain filling rate and a high potential grain weight are major traits that can be useful to improve heat tolerance of Triticum under Mediterranean environments.     

Performance of Selected Strains of 'Farro' (Triticum monococcum L., Triticum dicoccum Schübler, Triticum Spelta L.) and Durum Wheat (Triticum Durum Desf. cv. Trinakria) in the Difficult Flat Environment of Southern Italy

The aim of this study was to evaluate the performance of three species of unhulled-wheat (Triticum monococcum L., Triticum dicoccum Schubler and Triticum spelta L.) with respect to durum wheat (Triticum durum Desf. cv. Trinakria) in southern Italy's flat environment.
As far as yield is concerned, the mean yield was significantly different among species. Durum wheat yielded 16.1 %, 37.6% and 69.5 % more than dicoccum, spelta and monococcum species, respectively.
Among unhulled-wheat species, only Triticum dicoccum showed some similarity with durum wheat, such as one-thousand kernels weight, plant height and number of spikes per m².
Among the factors studied, the days to reach heading represented the factor that mostly influenced yield     

不同品质类型小麦籽粒麦谷蛋白亚基及谷蛋白聚合体形成和累积动态

选用高分子量麦谷蛋白亚基(HMW-GS)组成不同的3个强筋和4个弱筋小麦品种,研究了其籽粒发育过程中麦谷蛋白亚基、谷蛋白聚合体的形成和累积动态。结果表明,强筋小麦籽粒HMW-GS和B区低分子量麦谷蛋白亚基(LMW-GS)从花后9～12d开始表达;而弱筋小麦从花后12～15d开始表达,即强筋小麦麦谷蛋白亚基开始形成时间早于弱筋小麦。各品种的HMW-GS一旦形成,其累积速度较快,花后27d基本达到稳定值,之后维持稳定量;而LMW-GS形成后,累积较慢,直到花后30d左右达到稳定量。3个强筋小麦品种籽粒灌浆期谷蛋白总聚合体百分含量(TGP%)和谷蛋白大聚合体百分含量(GMP%)累积动态趋势基本一致,即在花后12～30d一直持续增加,花后30d至成熟达到最大值并保持稳定水平。4个弱筋小麦TGP%和GMP%累积动态均表现为在花后12～24d(灌浆早中期)形成和持续累积,花后24d至成熟逐渐降低。麦谷蛋白亚基表达模式以及谷蛋白聚合体累积动态的差异可能是导致小麦强筋或弱筋品质形成的关键。     

Effects of Zinc Deficiency and Drought on Grain Yield of Field-grown Wheat Cultivars in Central Anatolia

Drought stress and zinc (Zn) deficiency are serious abiotic stress factors limiting crop production in Turkey, especially in Central Anatolia. In this study, the effects of Zn deficiency and drought stress on grain yield of 20 wheat cultivars (16 bread wheat, Triticum aestivum; four durum wheat, Triticum durum cultivars) were investigated over 2 years under rainfed and irrigated conditions in Central Anatolia where drought and Zn deficiency cause substantial yield reductions. Plants were treated with (+Zn: 23 kg Zn ha⁻¹, as ZnSO₄·7H₂O) and without (−Zn) Zn under rainfed and irrigated conditions. Both Zn deficiency and rainfed treatments resulted in substantial decreases in grain yield. Significant differences were determined between both bread wheat and durum wheat cultivars in terms of drought stress tolerance. Considering drought sensitivity indices over 2 years, the bread wheat cultivars Yayla‐305, Gerek‐79, Dagdas‐94 and Bolal‐2973 were found to be more drought‐tolerant than the other cultivars under both −Zn and +Zn treatments. Especially the durum wheat cultivars Cakmak 79 and Selcuklu 97 showed much greater drought susceptibility under Zn deficiency, and irrigation alone was not sufficient to obtain satisfying grain yield without Zn application. The results indicate that sensitivity to Zn deficiency stress became more pronounced when plants were drought‐stressed. The effect of irrigation on grain yield was maximized when Zn was adequately supplied, leading to the suggestion that efficient water use in Central Anatolia seems to be highly dependent on the Zn nutritional status of plants.