1 |
Preston, K. R., O. M. Lukow, and B. Morgan. 1992. Analysis of relationships between flour quality properties and protein fractions in a world wheat collection. Cereal Chem. 69 : 560-567
|
2 |
Bason, M. L., W. Sing, and R. I. Booth. 1995. Comparison of stirring number and falling number tests for detecting sprout dam-age in wheat during harvest. Pages 357-361. Proc. 44"' Cereal Chem. Conf. RACI, Melboume, Australia
|
3 |
Dong, H. S., T. S. Cox, R. G. Sears, and G. L. Lookhart. 1991. Effects of high molecular weight glutenin genes on quality in wheat. Crop Sci. 31 : 974-979
DOI
|
4 |
He, H. and R. C. Hoseney. 1991. Difference in gas retention, Protein solubility, and rheological properties between different baking quality flours. Cereal Chem. 68 : 526-530
|
5 |
Heubner, F. R., T. C. Nelsen, 0. K. Chung, and J. A. Bietz. 1997. Protein distribution among hard red winter wheat varieties as related to environment and baking quality. Cereal Chem. 74 : 123-128
DOI
ScienceOn
|
6 |
Lawrence, G. J., F. Macritchie, and C. W. Wigley. 1988. Dough and baking quality of wheat lines deficient in glutenin subunits controlled by Glu-Al, Glu-Bl and Glu-Dl loci. J. Cereal Sci. 7: 109-112
DOI
|
7 |
Pomeranz, Y, and P. J. Mattern. 1988. Genotype and genotype environmental interaction effects on hardness estimates in winter wheats. Cereal Foods World 33 : 371-374
|
8 |
Finney, K. F. 1984. An optimized, straight-dough, bread-making method after 44 years. Cereal Chem. 25 : 20-27
|
9 |
Baker, A. E., C. E. Walker, and K. Kemp. 1988. An optimum compression depth for measuring bread crumb firmness.Cereal Chem. 65 : 302-307
|
10 |
Inagaki, T. and P. A. Sieb. 1992. Firming of bread crumb with cross-linked waxy barley starch substituted for wheat starch. Cereal Chem. 69 : 321-325
|
11 |
Maleki, M., R. C. Hoseney, and P. J. Mattern. 1980. Effects of loaf volume, moisture content, and protein quality on the softness and staling rate of bread. Cereal Chem. 57 : 138-140
|
12 |
Graybosch, R. A., C. J. Peterson, G. A. Hareland, D. R. Shelton, M. C. Olewnik, H. He, and M. M. Steam. 1999. Relationships between small-scale wheat quality assays and commercial test bakes. Cereal Chem. 76 : 428-433
DOI
ScienceOn
|
13 |
Johnson, J. A., M. N. A. Khan, and C. R. S. Sanchez. 1972. Wheatcultivars, environment and bread-making quality. Cereal Science Today 17: 323-326
|
14 |
Slaughter, D. C., K. H., Norris, and W. R. Hruschka. 1992. Quality and classification ofhard red wheat. Cereal Chem. 69: 428-432
|
15 |
Dong, H., R. G. Sears, T. S. Cox, R. C. Hoseney, G. L. Lookhart, and M. D. Shorgren. 1992. Relationships between protein composition and mixograph and loaf characteristics in wheat. Cereal Chem. 69 : 132-136
|
16 |
Park, C. S., B.-K. Baik, and B. H. Hong. 2001b. Characteristics of flour related to end-use quality of Korean winter wheat over years and locations. Korean J. Crop Sci. Accepted
|
17 |
Peterson, C. J., R. A. Graybosch, P. S. Baenzinger, and A. W. Grombacher. 1992. Genotype and environment effects on quality characterisdcs of hard red winter wheat. Crop Sci. 32 : 98-103
DOI
|
18 |
Graybosch, R. A., C. J. Peterson, K. J. Moore, M. M. Steam, and D. L. Grant. 1993. Comparative effects of wheat flour protein, lipid, and pentosan composition in relati on to baking and milling quality. Cereal Chem. 10: 95-101
|
19 |
Payne, P. L, L. M. Holt, R. D. Tompson, D. Bartels, N. P. Harbed, P. A. Haris, and C. N. Law. 1983. The high-molecular-weight subunits of glutenin: Classical genetics, molecular genetics and the relationship to bread-making quality. In: Proceedings of the 6th International Wheat Genetics Symposium. pp. 827-834
|
20 |
Peterson, C. J., R. A. Graybosch, D. R. Shelton, and P. S. Baenzinger. 1998. Baking quality of hard winter wheat: Response of cultivars to environment in the Great Plains. Euphytica. 100 :157-162
DOI
|
21 |
SAS. 1995. SAS Users Guide. The Institute: Cary, NC
|
22 |
Park, C. S., B.-K. Baik, and B. H. Hong. 2001a. Evaluation of quality properties of Korean wheats with biochemical markers and quality parameters with small samples. Korean J. Crop Sci. Accepted
|
23 |
Finney, K. F, W. T. Yamazaki, V. L. Moore, and G. L. Rubenthaler. 1987. Quality of hard, soft, and durum wheats. Pages 677-748: in E. G. Heyne ed. Wheat and wheat improvement. ASA, Inc., CSSA, Inc., SSSA, Inc.: Madison, WI
|
24 |
Graybosch, R. A., C. J. Peterson, D. R. Shelton, and P. S. Baenzinger. 1996. Genotypic and environmental modification of wheat flour protein composition in relation to end-use quality. Crop Sci. 36: 296-300
DOI
ScienceOn
|
25 |
Ng, P. K., and W. Bushuk. 1988. Stadstical relationships between high molecular weight subunits of glutenin and breadmaking quality of Canadian-grown wheats. Cereal Chem. 65 : 408-413
|
26 |
AACC (American Association of Cereal Chemists). 1983. Method 10-10A, approved January 1983. The Association. : St. Paul MN
|
27 |
Axford, D. W. E., E. E., McDermott, and D. G. Redman. 1979.Note on the sodium dodecyl sulfate test of breadmaking quality: Comparison with Pelshenke and Zeleny tests. Cereal Chem. 56: 582-584
|
28 |
Miezan, K., E. G. Heyne, and K. F. Finney. 1977. Genetic and environmental effects on grain protein content in wheat. Crop Sci. 17: 591-593
DOI
|
29 |
Martin, M. L., K. J. Zelenak, and R. C. Hoseney. 1991. A mechanism of bread firming. I. Role of starch swelling. Cereal Chem. 68: 498-503
|
30 |
Basset, L. M., R. E. Allan, G. L. Rubenthaler. 1989. Genotypeenvironment interaction on soft wheat quality. Agronomy J. 81: 955-960
|
31 |
Finney, K. F. and M. A. Barmore. 1948. Loaf volume and protein content of hard winter and spring wheats. Cereat Chem. 25 : 291-312
|
32 |
Baenzinger, P. S., R. L. Clements, M. S. Mclntosh, W. T. Yamazaki, T. M. Starling, D. J. Sammons, and J. W. Johnson.1985. Effect ofcultivar, environment, and their interaction and stability analyses on milling and baking quality of soft red winter wheat. Crop Sci. 25 : 5-8
DOI
|
33 |
Bushuk, W. 1998. Wheat breeding for end-product use. Euphytica.100:137-145
DOI
|