[1]Axford D W E, McDermou E E, Redman D G. 1979. Note on the sodium dodecyl sulfate test of bread-making quality: comparison with pelshenke and zeleny tests. Cereal Chemistry, 56, 582-584[2]Blanco A, Bellomo M, Lotti C, Maniglio T, Pasqualone A, Simeone R, Troccoli A, Fonzo N D. 1998. Genetic mapping of sedimentation volume across environments using recombinant inbred lines of durum wheat. Plant Breeding, 117, 413-417[3]Cui F, Li J, Ding A M, Zhao C H, Wang L, Wang X Q, Li S S, Bao Y G, Li X F, et al. 2011. Conditional QTL mapping for plant height with respect to the length of the spike and internode in two mapping populations of wheat. Theoretical and Applied Genetics, 122, 1517-1536[4]Dexter J E, Matsuo R R. 1980. Relationship between durum wheat protein properties and pasta dough rheology and spaghetti cooking quality. Journal of Agricultural and Food Chemistry, 26, 899-905[5]Dick J W, Quick J S. 1983. A modified screening test for rapid estimation of gluten strength in early-generation durum wheat breeding lines. Cereal Chemistry, 60, 315-318[6]He Z H, Yang J, Zhang Y, Quail K J, Peña R J. 2004. Pan bread and dry white Chinese noodle quality in Chinese winter wheats. Euphytica, 139, 257-267[7]Jiang H, Jiang L, Guo L, Gao Z, Zeng D, Zhu L, Liang G, Qian Q. 2008. Conditional and unconditional mapping of quantitative trait loci underlying plant height and tiller number in rice (Oryza sativa L.) grown at two nitrogen levels. Progress in Natural Science, 18, 1539-1547[8]Kovacs M I P, Noll J S, Dahlke G, Leisle D. 1995. Pasta viscoelasticity: its usefulness in the Canadian durum wheat breeding program. Journal of Cereal Science, 22, 115-121[9]Kunert A, Naz A A, Oliver D, Pillen K, Léon J. 2007. AB-QTL analysis in winter wheat: I. Synthetic hexaploid wheat (T. turgidum ssp. dicoccoides × T. tauschii) as a source of favourable alleles for milling and baking quality traits. Theoretical and Applied Genetics, 115, 683-695[10]Li Y, Song Y, Zhou R, Branlard G, Jia J. 2009. Detection of QTLs for bread-making quality in wheat using a recombinant inbred line population. Plant Breeding, 128, 235-243[11]Li Y, Zhou R, Wang J, Liao X, Branlard G, Jia J. 2012. Novel and favorable QTL allele clusters for end-use quality revealed by introgression lines derived from synthetic wheat. Molecular Breeding, 29, 627-643[12]Li W, Liu B, Peng T, Yuan Q, Han S, Tian J. 2012. Detection of QTL for kernel weight, grain size, and grain hardness in wheat using DH and immortalized F2 population. Scientia Agricultura Sinica, 45, 3453-3462[13](in Chinese) Liu B, Zhao L, Zhang K P, Zhu Z L, Tian B, Tian J C. 2010. Genetic dissection of plant height at different growth stages in common wheat. Scientia Agricultura Sinica, 43, 4562-4570. (in Chinese) [14]Liu G F, Yang J, Xu H M, Hayat Y, Zhu J. 2008. Genetic analysis of grain yield conditioned on its component traits in rice (Oryza sativa L.). Australian Journal of Agricultural Research, 59, 180-195[15]MacRitchie F, DuCros D L, Wrigley C W. 1990. Flour polypeptides related to wheat quality. In: Pomeranz Y, ed., Advances in Cereal Science and Technology. American Association Cereal Chemistry, St Paul, USA. pp. 79-146[16]McDermott E E, Redman D G. 1977. Small-scale tests of bread making quality. FMBRA Bulletin, 6, 200-213[17]McIntosh R A, Hart G E, Gale M D. 1994. Catalogue of gene symbols for wheat. Wheat Information Service, 79, 47-56[18]Mesdag J. 1964. Variations in the protein content of wheat and its influence on the sedimentation value and the baking quality. Euphytica, 13, 250-261[19]Özberk I, K?l?ç H, Atl? A, Özberk F, Karl? B. 2006. Selection of wheat based on economic returns per unit area. Euphytica, 152, 235-245[20]Ozturk S, Kahraman K, Tiftik B, Koksel H. 2008. Predicting the cookie quality of flours by using Mixolab. European Food Research and Technology, 227, 1549-1554[21]Patil R M, Oak M D, Tamhankar S A, Rao V S. 2009. Molecular mapping of QTLs for gluten strength as measured by sedimentation volume and mxiograph in durum wheat (Triticum turgidum L. ssp. durum). Journal of Cereal Science, 49, 378-386[22]Payne P I. 1987. Genetics of wheat storage proteins and the effect of allelic variation on bread-making quality. Annual Review of Plant Physiology, 38, 141-153[23]Peterson C J, Graybosch R A, Shelton D R, Baezinger P S. 1998. Baking quality of hard winter wheat: response of cultivars to environment in the Great Plains. Euphytica, 100, 157-162[24]Silvela L, Ayuso M G, Gil-Delgado L G, Solaices L. 1993. Genetic and environmental contributions to bread-wheat flour quality using the SDS sedimentation test as an index. Theoretical and Applied Genetics, 86, 889-894[25]Sun H Y, Lu J H, Fan Y D, Zhao Y, Kong F, Li R J, Wang H G, Li S S. 2008. Quantitative trait loci (QTLs) for quality traits related to protein and starch in wheat. Progress in Natural Science, 18, 825-831[26]Wang Z, Wu X, Ren Q, Chang X, Li R, Jiang R. 2010. QTL mapping for developmental behavior of plant height in wheat (Triticum aestivum L.). Euphytica, 174, 447-458[27]Yang J, Zhu J. 2005. Methods for predicting superior genotypes under multiple environments based on QTL effects. Theoretical and Applied Genetics, 110, 1268-1274[28]Ye Z, Wang J, Liu Q, Zhang M, Zou K, Fu X. 2009. Genetic relationships among panicle characteristics of rice (Oryza sativa L.) using unconditional and conditional QTL analyses. Journal of Plant Biology, 52, 259-267[29]Zhao J Y, Becker H C, Zhang D Q, Zhang Y F, Ecke W. 2006. Conditional QTL mapping of oil content in rapeseed with respect to protein content and traits related to plant development and grain yield. Theoretical and Applied Genetics, 113, 33-38[30]Zhao L, Liu B, Zhang K P, Tian J C, Deng Z Y. 2009. Detection of QTLs with additive effects, epistatic effects, and QTL × environment interactions for zeleny sedimentation value using a doubled haploid population in cultivated wheat. Agricultural Sciences in China, 8, 1039-1045[31]Zhao L, Zhang K P, Liu B, Deng Z Y, Qu H L, Tian J C. 2010. A comparison of grain protein content QTLs and flour protein content QTLs across environments in cultivated wheat. Euphytica, 174, 325-335[32]Zhu J. 1995. Analysis of conditional genetic effects and variance components in developmental genetics. Genetics, 141, 1633-1639. |