HMW-GS 5 + 10 was introduced to four major wheat cultivars Kehan9, Kefeng3, Longmai20 and Kenda4 through 5 or 6 consecutive backcrosses. No significant difference in protein content and dry gluten content was observed...HMW-GS 5 + 10 was introduced to four major wheat cultivars Kehan9, Kefeng3, Longmai20 and Kenda4 through 5 or 6 consecutive backcrosses. No significant difference in protein content and dry gluten content was observed between cultivars containing 5 + 10 and 2 + 12 or 3 + 12 (P>0.1). In cultivars containing HMW-GS 5 + 10, the ratio of wet gluten content to dry gluten content was 2. 9 - 5.0% (P<0. 01) lower than the ratio from the cultivars containing 2 + 12 or 3 + 12, the ratio of Zeleny sedimentation volume to dry gluten content was 4. 5 - 13. 4% (P<0.05) higher. The degree of softening in cultivars having 5 + 10 was 15 -25 FU (P<0. 01) lower, while the maximum resistance was 82 - 193 EU (P<0. 05) higher. Backcrosses with biochemical marker assisted selection in the improvement of quality in wheat cultivars was discussed.展开更多
Wheat processing quality is greatly influenced by the seed proteins especially the high molecular weight glutenin subunit (HMW-GS) components, the low molecular weight glutenin subunit (LMW-GS) components and gliadin ...Wheat processing quality is greatly influenced by the seed proteins especially the high molecular weight glutenin subunit (HMW-GS) components, the low molecular weight glutenin subunit (LMW-GS) components and gliadin components. Genes encoding the HMW-GS and LMW-GS components were located on the long arms and the short arms of homoeologous group 1 chromosomes, respectively. HMW-GS components in 5 129 accessions of wheat germplasms were analyzed systematically, including 3 459 landraces and 1 670 modern varieties. These accessions were chosen as candidate core collections to represent the genetic diversity of Chinese common wheat ( Triticum aestivum) germplasms documented and conserved in the National Gene Bank. These candidate core collections covered the 10 wheat production regions in China. In the whole country, the dominating alleles at the three loci are Glu-A1b (null), Glu-B1b (7 + 8), and Glu-D1a (2 + 12), respectively. The obvious difference between the land race and the modern variety is the dramatic frequency increase of alleles Glu-A1a (1), Glu-B1c (7 + 9), Glu-B1h (14 + 15), Glu-D1d (5 + 10) and allele cording 5 + 12 subunits in the later ones. In the whole view, there is minor difference on the genetic(allelic)richness between the landrace and the modern variety at Glu-1, which is 28 and 30 respectively. However, the genetic dispersion index (Simpson index) based on allelic variation and frequencies at Glu-A1, Glu-B1 and Glu-D1 suggested that the modern varieties had much higher genetic diversity than the landraces. This revealed that various isolating mechanisms (such as auto-gamous nature, low migration because of undeveloped transposition system) limited the gene flow and exchange between populations of the landraces, which led up to some genotypes localized in very small areas. Modern breeding has strongly promoted gene exchanges and introgression between populations and previous isolated populations. In the three loci, Glu-Bl has the highest genetic diversity , then Glu-D1, while Glu-A1 always keeps the lowest genetic diversity. In the landrace, the three regions with the highest allelic richness are Huanghuai Winter Wheat Region, Northwest Spring Wheat Region and Southwestern Winter Wheat Region. For the bred varieties, the highest allelic richness existed in Southwest Winter Wheat Region, Huanghuai Winter Wheat Region, Low & Middle Branch Winter Wheat Region of Yangtze River. Introduction and utilization of foreign varieties in cross breeding has had great effects on the allelic components and frequency of the three loci, which greatly affected the genetic dispersion index. This has made 'population' of the modern variety quite different from that of the landrace.展开更多
Emmer wheat cultivated by organic farmers is used as a component of some bio (organic) food products. Its positive influence on consumer health is caused by grain composition. With the aim of selecting varieties or ...Emmer wheat cultivated by organic farmers is used as a component of some bio (organic) food products. Its positive influence on consumer health is caused by grain composition. With the aim of selecting varieties or landraces for their possible further use we tested selected emmer wheat accessions maintained in the Czech Gene Bank. In the set of 8 emmer wheat accessions, the main grain components, bread making characteristics and contents of health supporting chemical substances such as total dietary fibre content and its components, content of total polyphenols plus catechin and ferulic acid contents, vitamins of the B group and E plus total content of carotenoids were evaluated by standard methods. Tests of bread making quality confirmed a very well known fact that emmer wheat grain is much more suitable for other purposes as whole grain mixtures, cereal pure, etc. than for bread preparation. The results indicate the possibilities to select emmer wheat genotypes differing in grain composition and containing compounds with positive effects on human health. Among the tested emmer wheat accessions the Rudico variety had a complex of positive characteristics such as content of total dietary fibre, total polyphenol content with prevailing catechin and the highest amount of B group vitamins such as B 1, B2, niacin, pantothenic acid and B6.展开更多
基金supported by the National Natural Science Foundation of China(39770461)Science and Technology Department of Heilongjiang Province.
文摘HMW-GS 5 + 10 was introduced to four major wheat cultivars Kehan9, Kefeng3, Longmai20 and Kenda4 through 5 or 6 consecutive backcrosses. No significant difference in protein content and dry gluten content was observed between cultivars containing 5 + 10 and 2 + 12 or 3 + 12 (P>0.1). In cultivars containing HMW-GS 5 + 10, the ratio of wet gluten content to dry gluten content was 2. 9 - 5.0% (P<0. 01) lower than the ratio from the cultivars containing 2 + 12 or 3 + 12, the ratio of Zeleny sedimentation volume to dry gluten content was 4. 5 - 13. 4% (P<0.05) higher. The degree of softening in cultivars having 5 + 10 was 15 -25 FU (P<0. 01) lower, while the maximum resistance was 82 - 193 EU (P<0. 05) higher. Backcrosses with biochemical marker assisted selection in the improvement of quality in wheat cultivars was discussed.
文摘Wheat processing quality is greatly influenced by the seed proteins especially the high molecular weight glutenin subunit (HMW-GS) components, the low molecular weight glutenin subunit (LMW-GS) components and gliadin components. Genes encoding the HMW-GS and LMW-GS components were located on the long arms and the short arms of homoeologous group 1 chromosomes, respectively. HMW-GS components in 5 129 accessions of wheat germplasms were analyzed systematically, including 3 459 landraces and 1 670 modern varieties. These accessions were chosen as candidate core collections to represent the genetic diversity of Chinese common wheat ( Triticum aestivum) germplasms documented and conserved in the National Gene Bank. These candidate core collections covered the 10 wheat production regions in China. In the whole country, the dominating alleles at the three loci are Glu-A1b (null), Glu-B1b (7 + 8), and Glu-D1a (2 + 12), respectively. The obvious difference between the land race and the modern variety is the dramatic frequency increase of alleles Glu-A1a (1), Glu-B1c (7 + 9), Glu-B1h (14 + 15), Glu-D1d (5 + 10) and allele cording 5 + 12 subunits in the later ones. In the whole view, there is minor difference on the genetic(allelic)richness between the landrace and the modern variety at Glu-1, which is 28 and 30 respectively. However, the genetic dispersion index (Simpson index) based on allelic variation and frequencies at Glu-A1, Glu-B1 and Glu-D1 suggested that the modern varieties had much higher genetic diversity than the landraces. This revealed that various isolating mechanisms (such as auto-gamous nature, low migration because of undeveloped transposition system) limited the gene flow and exchange between populations of the landraces, which led up to some genotypes localized in very small areas. Modern breeding has strongly promoted gene exchanges and introgression between populations and previous isolated populations. In the three loci, Glu-Bl has the highest genetic diversity , then Glu-D1, while Glu-A1 always keeps the lowest genetic diversity. In the landrace, the three regions with the highest allelic richness are Huanghuai Winter Wheat Region, Northwest Spring Wheat Region and Southwestern Winter Wheat Region. For the bred varieties, the highest allelic richness existed in Southwest Winter Wheat Region, Huanghuai Winter Wheat Region, Low & Middle Branch Winter Wheat Region of Yangtze River. Introduction and utilization of foreign varieties in cross breeding has had great effects on the allelic components and frequency of the three loci, which greatly affected the genetic dispersion index. This has made 'population' of the modern variety quite different from that of the landrace.
文摘Emmer wheat cultivated by organic farmers is used as a component of some bio (organic) food products. Its positive influence on consumer health is caused by grain composition. With the aim of selecting varieties or landraces for their possible further use we tested selected emmer wheat accessions maintained in the Czech Gene Bank. In the set of 8 emmer wheat accessions, the main grain components, bread making characteristics and contents of health supporting chemical substances such as total dietary fibre content and its components, content of total polyphenols plus catechin and ferulic acid contents, vitamins of the B group and E plus total content of carotenoids were evaluated by standard methods. Tests of bread making quality confirmed a very well known fact that emmer wheat grain is much more suitable for other purposes as whole grain mixtures, cereal pure, etc. than for bread preparation. The results indicate the possibilities to select emmer wheat genotypes differing in grain composition and containing compounds with positive effects on human health. Among the tested emmer wheat accessions the Rudico variety had a complex of positive characteristics such as content of total dietary fibre, total polyphenol content with prevailing catechin and the highest amount of B group vitamins such as B 1, B2, niacin, pantothenic acid and B6.
