Location of genes involved in ear compactness in wheat (Triticum aestivum) by means of molecular markers (original) (raw)
References
Ausemus ER, McNeal FH, Schmidt JW: Genetics and inheritance. In: Quisenberry KS, Reitz LP (Eds.) Wheat and Wheat Improvement, pp. 225-267. American Society for Agriculture Publishers, Madison, WI (1967). Google Scholar
Börner A, Worland AJ, Plaschke J, Schumann E, Law CN: Pleiotropic effects of genes for reduced height (Rht) and day-length insensitivity (Ppd) on yield and its components for wheat grown in middle Europe. Plant Breed 111: 204-216 (1993). Google Scholar
Bryan GJ, Collins AJ, Stephenson P, Orry A, Smith JB, Gale MD: Isolation and characterisation of microsatellites from hexaploid bread wheat. Theor Appl Genet 94: 557-563 (1997). Google Scholar
Cadalen T, Boeuf C, Bernard S, Bernard M: An intervarietal molecular marker map in Triticum aestivum L. em. Thell. and comparison with a map from a wide cross. Theor Appl Genet 94: 367-377 (1997). Google Scholar
Chao S, Sharp PJ, Worland AJ, Warham EJ, Koebner RMD, Gale MD: RFLP-based genetic maps of wheat homoeologous group 7 chromosomes. Theor Appl Genet 78: 495-504 (1989). Google Scholar
Devey ME, Hart GE: Chromosomal localization of intergenomic RFLP loci in hexaploid wheat. Genome 36: 913-918 (1993). Google Scholar
Devos KM, Bryan GJ, Collins AJ, Stephenson P, Gale MD: Application of two microsatellite sequences in wheat storage proteins as molecular markers. Theor Appl Genet 90: 247-252 (1995). Google Scholar
Efron B, Tibshirani RJ: An introduction to the bootstrap. Chapman & Hall, New York (1993). Google Scholar
Félix I, Martinant JP, Bernard M, Bernard S, Branlard G: Genetic characterization of storage proteins in a set of F1-derived haploid lines in bread wheat. Theor Appl Genet 92: 340-346 (1996). Google Scholar
Gale MD, Atkinson MD, Chinoy CN, Harcourt RL, Jiu J, Li QY, Devos KM: Genetic maps of hexaploid wheat. In: Li ZS, Xin ZY (Eds.) Proceedings 8th International Wheat Genetics Symposium, pp. 29-40. China Agricultural Scientech Press, Beijing (1995). Google Scholar
Galiba G, Quarrie SA, Sutka J, Morgounov A, Snape JW: RFLP mapping of the vernalization (Vrn1 ) and frost resistance (Fr1) genes on chromosome 5A of wheat. Theor Appl Genet 90:1174-1179 (1995). Google Scholar
Gill KS, Lubbers EL, Gill BS, Raupp WJ, Cox TS: A genetic linkage map of Triticum tauschii (DD) and its relationship to the D genome of bread wheat (AABBDD). Genome 34: 362-374 (1991). Google Scholar
Heun M, Kennedy AE, Anderson JA, Lapitan NLV, Sorrels ME, Tanksley SD: Construction of a restriction fragment length polymorphism map for barley (Hordeum vulgare). Genome 34: 437-447 (1991). Google Scholar
Jansen RC, Stam P: High resolution of quantitative traits into multiple loci via interval mapping. Genetics 136: 1447-1455 (1994). Google Scholar
Kearsey MJ, Hyne V: QTL analysis: a simple 'marker-regression approach'. Theor Appl Genet 89: 698-702 (1994). Google Scholar
Kleinhofs A, Kilian A, Saghai-Maroof MA, Biyashev RM, Hayes P, Chen FQ, Lapitan N, Fenwick A, Blake TK, Kanazin V, Ananiev E, Dahleen L, Kudrna D, Bollinger J, Knapp SJ, Liu B, Sorrells M, Heun M, Franckowiak JD, Hoffman D, Skadsen R, Steffenson BJ: A molecular, isozyme and morphological map of the barley (Hordeum vulgare) genome. Theor Appl Genet 86: 705-712 (1993). Google Scholar
Korzun V, Röder MS, Ganal MW, Worland AJ, Law CN: Genetic analysis of the dwarfing gene (Rht8) in wheat. Part I. Molecular mapping of Rht8 on the short arm of chromosome 2D of bread wheat (Triticum aestivum L.) Theor Appl Genet 96: 1104-1109 (1998). Google Scholar
Kuspira J, Unrau J: Genetic analysis of certain characters in common wheat using whole chromosome substitution lines. Can J Plant Sci 37: 300-326 (1957). Google Scholar
Lander ES, Green P, Abrahamson J, Barlow A, Daly MJ, Lincoln SE, Newburg L: MAPMAKER: An interactive computer package for constructing primary genetic linkage maps of experimental and natural populations. Genomics 1: 174-181 (1987). Google Scholar
Law CN, Sutka J, Worland AJ: A genetic study of day-length response in wheat. Heredity 41: 185-191 (1978). Google Scholar
Liu Y, Tsunewaki K: Restriction fragment length polymorphism (RFLP analysis in wheat. II Linkage maps of the RFLP sites in common wheat. Jpn J Genet 66: 617-633 (1991). Google Scholar
Lu YH, Merlino M, Isaac PG, Staccy J, Bernard M, Leroy P: A comparative analysis between [32P] and digoxigenin-labelled single-copy probes for RFLP detection in wheat. Agronomie 14: 33-39 (1994). Google Scholar
MacKey J: Neutron and X-ray experiments in wheat and a revision of the speltoid problem. Hereditas 40: 65-180 (1954). Google Scholar
McIntosh RA, Hart GE, Gale MD: Catalogue of gene symbols for wheat. In: Li ZS, Xin ZY (Eds.) Proceedings 8th International Wheat Genetics: Symposium, pp. 1333-1500. China Agricultural Scientech Press, Beijing (1993). Google Scholar
Miller TE: Systematics and evolution. In: Lupton FGH (Ed.) Wheat Breeding: Its Scientific Basis, pp. 1-30. Chapman and Hall, London/New York (1987). Google Scholar
Nelson JC, Sorrell ME, Van Deynze AE, Lu YH, Atkinson M, Bernard M, Leroy P, Faris JD, Anderson JA: Molecular mapping of wheat: Major genes and rearrangements in homoeologous groups 4, 5 and 7. Genetics 141: 721-731 (1995). Google Scholar
Pugsley AT: The photoperiodic sensitivity of some spring wheats with special reference to the variety Thatcher. Aust J Agric Res 17: 591-599 (1966). Google Scholar
Rao MVP: Mapping of the Sphaerococcum gene ‘_S_’ on chromosome 3D of wheat. Cereal Res Comm 5: 15-l7 (1977). Google Scholar
Röder MS, Korzun V, Wendehake K, Plaschke J, Tixier MH, Leroy P, Ganal MW: A microsatellite map of wheat. Genetics 149: 2007-2023 (1998). Google Scholar
Sears ER: The aneuploids of common wheat. Univ Miss Res Bull 572: 1-58 (1954). Google Scholar
Snape JW, Law CN, Parker BB, Worland AJ: Genetical analysis of chromosome 5A of wheat and its influence on important agronomic characters. Theor Appl Genet 71: 518-526 (1985). Google Scholar
Sourdille P, Perretant MR, Charmet G, Leroy P, Gautier MF, Joudrier P, Nelson JC, Sorrells ME, Bernard M: Linkage between RFLP markers and genes affecting kernel hardness in wheat. Theor Appl Genet 93: 580-586 (1996). Google Scholar
Tixier MH, Sourdille P, Röder M, Leroy P, Bernard M: Detection of wheat microsatellites using a non radioactive silver-nitrate staining method. J Genet Breed 51: 175-177 (1997). Google Scholar
Tixier MH, Sourdille P, Charmet G, Gay G, Jaby C, Cadalen T, Bernard S, Nicolas P, Bernard M: Detection of QTL for cross-ability in wheat using a doubled-haploid population. Theor Appl Genet 97: 1076-1082 (1998). Google Scholar
Unrau J: The use of monosomes and nullisomes in cytogenetic studies of common wheat. Sci Agric 30: 66-89 (1950). Google Scholar
Vissher PM, Thompson R, Haley CS: Confidence intervals in QTL mapping by bootstraping. Genetics 143: 1013-1020 (1996). Google Scholar
Welsh JR, Keim DL, Pirasteh B, Richards RD: Genetic control of photoperiod response in wheat. In: Sears ER, Sears LMS (Eds.) Proceedings 4th International Wheat Genetics Symposium, pp. 879-884, Columbia USA (1973).
Worland AJ: The influence of flowering time genes on environmental adaptability in European wheats. Euphytica 89: 49-57 (1996). Google Scholar
Worland AJ, Law CN: Genetic analysis of chromosome 2D of wheat. I The location of genes affecting height, day-length insensitivity, hybrid dwarfism, and yellow rust resistance. Z Pflanzenzücht. 96: 331-345 (1986). Google Scholar
Worland AJ, Korzun V, Röder MS, Ganal MW, Law CN: Genetic analysis of the dwarfing gene Rht8 in wheat. Part II. The distribution and adaptive significance of allelic variants at the Rht8 locus of wheat as revealed by microsatellite screening. Theor Appl Genet 96: 1110-1120 (1998). Google Scholar