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Quantitative variation in the kernel proteins among 841 accessions of Triticum dicoccoides estimated by SDS-PAGE (1986)

Mansur-Vergara, L. ; Konzak, C. F. ; Gerechter-Amitai, Z. K. ; [et al.]

Springer

Theoretical and applied genetics 72 (1986), S. 296-301

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ISSN: 1432-2242

Keywords: Electrophoresis ; Endosperm ; Proteins ; Wild emmer ; Wheat

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The relative proportion and amount of proteins in five defined molecular weight (MW) regions (A1=above 71,000=71K, A2=71K−49K, A3=49K−31K, A4=31K−20K, A5=20K and less) were estimated by densitometric analyses of the amount of dye bound by kernel proteins (Fullington et al. 1980) of Triticum dicoccoides SDS-PAGE gels. These MW regions roughly correspond to the wheat protein solubility classes (Cole et al. 1981; Fullington et al. 1983). One purpose of the study was to select accessions whose seed proteins bind relatively high amounts of dye in the glutenin and albumin globulin regions. These accessions will be used for further in-depth studies as possible candidate donors of genes to improve the baking and nutritional quality of wheat. Marked differences in the quantitative relationships were found among the proteins in the five MW regions. Coefficients of variation (CV's) for the highest peak (i.e., most abundant protein) MW in different protein MW regions were similar for A1, A2 and A3, at 11.4, 11.7, and 11.1%, respectively, but only 4.1 for A4, and 10.6% for region A5. The CV for the highest peak MW overall was 29.8. Accession BP0649, for example, had over 44% of its protein in region A5, whereas BP0566 (lowest among the top 10%) had only 21.4% of its protein in that region. Over 37% of the proteins of accessions BP0649 and 0001 to 0005 was in region A5. At least 84 accessions with the highest amount of protein in region A5, and 13 accessions with more protein in region A1 than Chinese Spring may merit further evaluation as possible protein gene donors. High amounts of protein in A1 may be of importance in bread-baking quality, and in A4 and A5 for high lysine wheat. Accessions in both extremes were selected to test these hypotheses. All accessions are now or will be available in the USDA Wheat Collection.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00288564

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The drought response of landraces of wheat from the northern Negev Desert in Israel (1989)

Blum, A. ; Golan, G. ; Mayer, J. ; [et al.]

Springer

Euphytica 43 (1989), S. 87-96

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ISSN: 1573-5060

Keywords: Triticum durum ; durum wheat ; Triticum aestivum ; wheat germplasm ; collection ; yield components ; drought response ; canopy temperature ; osmotic adjustment ; phenology ; Israel

Source: Springer Online Journal Archives 1860-2000

Topics: Agriculture, Forestry, Horticulture, Fishery, Domestic Science, Nutrition

Notes: Summary Diverse landraces of wheat, collected from the semi-arid (150 to 250 mm of total annual rainfall) Northern Negev desert in Israel were considered as a potential genetic resource of drought resistance for wheat breeding. These materials were therefore evaluated for their reponses to drought stress in agronomical and physiological terms. Up to 68 landraces, comprising of Triticum durum, T. aestivum, and T. compactum were tested in two field drought environments, in one favourable field environment, under post-anthesis chemical plant desiccation which revealed the capacity for grain filling from mobilized stem reserves, under a controlled drought stress in a rainout shelter and in the growth chamber under polyethylene glycol (PEG)-induced water stress. Biomass, grain yield and its components, harvest index, plant phenology, canopy temperatures, kernel weight loss by chemical plant desiccation, growth reduction by PEG-induced drought stress and osmotic adjustment were evaluated in the various experiments. Landraces varied significantly for all parameters of drought response as measured in the different experiments, which was in accordance to their documented large morphological diversity. Variation in grain yield among landraces under an increasing drought stress after tillering was largely affected by spike number per unit area. Kernel weight contributed very little to yield variation among landraces under stress, probably because these tall (average of 131 cm) landraces generally excelled in their capacity to support kernel growth by stem reserve mobilization under stress. Yield under stress was reduced with a longer growth duration of landraces only under early planting but not under late planting. Landraces were generally late flowering but they were still considered well adapted phenologically to their native region where they were always planted late. Landraces differed significantly in canopy temperature under drought stress. Canopy temperature under stress in the rainout shelter was negatively correlated across landraces with grain yield (r=0.67**) and biomass (r=0.64**) under stress. Canopy temperature under stress in the rainout shelter was also positively correlated across landraces (r=0.50**) with canopy temperature in one stress field environment. Osmotic adjustment in PEG-stressed plants was negatively correlated (r=−0.60**) with percent growth reduction by PEG-induced water stress. It was not correlated with yield under stress in any of the experiments. In terms of yield under stress, canopy temperatures and stem reserve utilization for grain filling, the most drought resistant landrace was the ‘Juljuli’ population of T.durum.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00037900

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