| References for malt quality QTL | |||||||||||
| GG Link | Author | Year | Title | Journal | |||||||
| TAG-90-294 | Backes G., et al. | 1995 | Localization of quantitative trait loci (QTL) for agronomic important characters by the use of a RFLP map in barley (Hordeum vulgare L.) | Theoretical and Applied Genetics, Vol 90, pp 294-302 | |||||||
| AAR-54-1125 | Barr A., et al. | 2003 | Mapping and QTL analysis of the barley population Chebec x Harrington | Australian Journal of Agricultural Research, Vol. 54, pp 1125-1130 | |||||||
| MBR-3-29 | Bezant J., et al. | 1997a | Mapping QTL controlling yield and yield components in a spring barley (Hordeum vulgare L.) cross using marker regression. | Molecular Breeding, Vol 3, pp 39-38 | |||||||
| PBR-116-141 | Bezant J., et al. | 1997b | Mapping of QTL controlling NIR predicted hot water extract and grain nitrogen content in a spring barley cross using marker-regression | Plant Breeding, Vol 116, pp 141-145 | |||||||
| AAR-54-1241 | Coventry SJ., et al. | 2003 | Use of putative QTLs and structural genes in marker assisted selection for diastatic power in malting barley (Hordeum vulgare L.) | Australian Journal of Agricultural Research, Vol. 54, pp 1141-1250 | |||||||
| TAG-91-921 | Han F., et al. | 1995 | Mapping of beta-glucan content and beta-glucanase activity loci in barley grain and malt | Theoretical and Applied Genetics, Vol 91, pp 921-927 | |||||||
| TAG-87-392 | Hayes P., et al. | 2003 | Quantitative trait locus effects and environmental interaction in a sample of North American barley germ plasm | Theoretical and Applied Genetics, Vol 87, pp 392-401 | |||||||
| ABC-55-52 | Larson S., et al. | 1997 | Backcross gains for six-rowed grain and malt qualities with introgression of a feed barley yield QTL. | Journal of the American Society of Brewing Chemists, Vol 55, pp 52-57 | |||||||
| TAG-101-173 | Marquez-Cedillo L., et al. | 2000 | QTL analysis of malting quality on barley based on the doubled-haploid progeny of two elite North American varieties representing different germplasm groups. | Theoretical and Applied Genetics, Vol 101, pp 173-184 | |||||||
| TAG-103-625 | Marquez-Cedillo L., et al. | 2001 | QTL analysis of agronomic traits in barley based on the doubled haploid progeny of two elite North American varieties representing different germplasm groups | Theoretical and Applied Genetics, Vol 103, pp 625-637 | |||||||
| CRS-37-544 | Mather D., et al. | 1997 | Regions of the genome that affect grain and malt quality in a North American two-row barley cross. | Crop Science, Vol 37, pp 544-554 | |||||||
| PBR-115-43 | Oziel A., et al. | 1996 | Application of quantitative trait locus mapping to the development of winter habit malting barley. | Plant Breeding, Vol 115, pp 43-51 | |||||||
| CRS-36-265 | Thomas W., et al. | 1995 | Quantitative trait loci for germination and malting quality characters in a spring barley cross | Crop Science, Vol 36, pp 265-273 | |||||||
| CRS-36-1053 | Tinker N., et al. | 1995 | Regions of the Genome that Affect Agronomic Performance in Two-Row Barley. | Crop Science, Vol 36, pp 1053-1-62 | |||||||
| JCS-24-44 | Zwickert-Mentaur S., et al. | 1996 | Amy2 polymorphism as a possible marker of B-Glucanase activity in barley (Hordeum vulgare L.). | Journal of Cereal Science, Vol 24, pp 44-53 | |||||||