Implication of Triticum searsii as the B-genome donor to wheat using DNA hybridizations

J. Nath; James W. McNay; Charles M. Paroda; S. C. Gulati

doi:10.1007/bf00498921

journal article Aug 01, 1983

Implication of Triticum searsii as the B-genome donor to wheat using DNA hybridizations

J. Nath James W. McNay Charles M. Paroda S. C. Gulati

Biochemical Genetics Vol. 21 No. 7-8 pp. 745-760 · Springer Science and Business Media LLC

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References

54

[1]

Appels, R., Driscoll, C., and Peacock, W. J. (1978). Heterochromatin and highly repeated DNA sequences in Rye (Secale cereale). Chromosoma 7067. 10.1007/bf00292217

[2]

Bendich, A. J., and Bolton, T. E. (1967). Relatedness among plants as measured by the DNA agar techniques. Plant Physiol. 42959. 10.1104/pp.42.7.959

[3]

Bendich, A. J., and McCarthy, J. B. (1970a). DNA comparisons among barley, oats, rye and wheat. Genetics 65545. 10.1093/genetics/65.4.545

[4]

Bendich, A. J., and McCarthy, J. B. (1970b). DNA comparisons among some biotypes of wheat. Genetics 65567. 10.1093/genetics/65.4.567

[5]

Bernardi, G. (1965). Chromatography of nucleic acids on hydroxapatite. Nature 206779. 10.1038/206779a0

[6]

Britten, R. J., and Kohne, D. E. (1968). Repeated sequences in DNA. Science 161529. 10.1126/science.161.3841.529

[7]

Britten, R. J., and Smith, J. (1970). A bovine genome. Carnegie Inst. Wash. Yearbook 68378.

[8]

Chapman, V., Miller, B., and Riley, R. (1976). Equivalence of A genome of bread wheat to that of Triticum urartu. Genet. Res. Cambr. 2769. 10.1017/s0016672300016244

[9]

Dennis, E. S., Gerlach, W. L., and Peacock, W. J. (1980). Identical polypyrimidine-polypurine satellite DNAs in wheat and barley. Heredity 44349. 10.1038/hdy.1980.33

[10]

Dhaliwal, H. S., and Johnson, B. L. (1976a). SDS electrophoretic patterns and the origin of the tetraploid wheats. Genetics (Suppl. 8320.

[11]

Dhaliwal, H. S., and Johnson, B. L. (1976b). Anther morphology and the origin of the tetraploid wheats. Am. J. Bot. 63363. 10.1002/j.1537-2197.1976.tb11823.x

[12]

Dhaliwal, H. S., and Johnson, B. L. (1982). Diploidization and chromosomal pairing affinities in the tetraploid wheats and their putative amphiploid progenitor. Theoret. Appl. Genet. (in press). 10.1007/bf00273878

[13]

Dvorák, J. (1976). The relationship between the genome of Triticum urartu and the A and B genomes of Triticum aestivum. Can. J. Genet. Cytol. 18371. 10.1139/g76-045

[14]

Feldman, M. (1968). Regulation of somatic association and meiotic pairing in common wheat. Proc. Third Int. Wheat Symp. (Canberra), Australia, pp. 169?178.

[15]

Feldman, M. (1977). Historical aspects and significance of the discovery of wild wheats. Stadler Symp. Univ. Mo. 9121.

[16]

Feldman, M. (1978). New evidence on the origin of B genome of wheat. Proc. Fifth Int. Wheat Genet. Symp. (New Delhi).

[17]

Feldman, M., and Kislev, M. (1977). Aegilops searsii: A new species of Sitopsis. 1sr. J. Bot. 26190.

[18]

Feldman, M., and Sears, E. R. (1981). The wild gene resources of wheat. Sci. Am. 244(1):102. 10.1038/scientificamerican0181-102

[19]

Flavell, R. B., Bennett, M. D., Smith, J. D., and Smith, D. B. (1974). Genome size and proportion of repeated nucleotide sequence DNA in plants. Biochem. Genet. 12(4):257. 10.1007/bf00485947

[20]

Flavell, R. B., O'Dell, M., and Smith, D. B. (1979). Repeated sequence DNA comparison between Triticum and Aegilops species. Heredity 42309. 10.1038/hdy.1979.34

[21]

Helbeck, H. (1959). Domestication of food plants in the old world. Science 130365. 10.1126/science.130.3372.365

[22]

Johnson, B. L. (1972). Protein electrophoretic profiles and the origin of the B genome of wheat. Proc. Natl. Acad. Sci. 691398. 10.1073/pnas.69.6.1398

[23]

Johnson, B. L. (1975). Identification of the apparent B-genome donor of wheat. Can. J. Genet. Cytol. 1721. 10.1139/g75-004

[24]

REPRODUCTIVE ISOLATION OF TRITICUM BOEOTICUM AND TRITICUM URARTU AND THE ORIGIN OF THE TETRAPLOID WHEATS

B. L. Johnson, H. S. Dhaliwal

American Journal of Botany 1976 10.1002/j.1537-2197.1976.tb13193.x

[25]

Johnson, B. L., and Dhaliwal, H. S. (1978). Triticum urartu and genome evolution in the tetraploid wheats. Am. J. Bot. 65907. 10.1002/j.1537-2197.1978.tb06154.x

[26]

Kihara, H. (1924). Cytologische und genetische Studien bei wichtigen Getreidearten mit besonderer Rücksicht und das Verhalten der Chromosomen und die Sterilitat in den Bastarden. Kyoto Univ. Coll. Sci. Mem. Ser. B 11.

[27]

Kihara, H. (1944). Die Entdeckung des DD-Analysators beim Weizen. Agr. and Hort. Japan 19889.

[28]

Kimber, G., and Athwal, R. S. (1972). A reassessment of the course of evolution of wheat. Proc. Natl. Acad. Sci. 69(4):912. 10.1073/pnas.69.4.912

[29]

Kohne, D. E. (1969). Isolation and characterization of bacterial ribosomal RNA cistrons. Carnegie Inst. Wash. Yearbook 67310.

[30]

Kohne, D. E., and Britten, R. J. (1971). Hydroxyapatite techniques for nucleic acid reassociation. In Cantoni, G. L., and Davies, D. R. (eds.), Procedures in Nucleic Acid Research Harper and Row, New York.

[31]

Kushnir, U., and Halloran, G. M. (1981). Evidence for Aegilops sharonensis Eig as the donor of the B genome of wheat. Genetics 99495. 10.1093/genetics/99.3-4.495

[32]

Laird, C. D., and McCarthy, B. J. (1968). Magnitude of interspecific nucleotide sequence variability in Drosophila. Genetics 60303. 10.1093/genetics/60.2.303

[33]

Laird, C. D., McConaughy, B. L., and McCarthy, B. J. (1969). On the rate of fixation of nucleotide substitutions in evolution. Nature 224149. 10.1038/224149a0

[34]

Lewin, B. (1974). Gene Expression?2 John Wiley, New York.

[35]

Marmur, J. (1961). A procedure for the isolation of DNA from microorganisms. J. Mol. Biol. 3208. 10.1016/s0022-2836(61)80047-8

[36]

Martin, M. A., and Hoyer, B. H. (1966). Thermal stabilities and species specificities of reannealed animal DNAs. Biochemistry 52706. 10.1021/bi00872a030

[37]

Maxson, L. R., and Wilson, A. C. (1975). Albumin evolution and organismal evolution in tree frogs (Hylidae). Syst. Zool. 241. 10.2307/2412693

[38]

Maxson, L. R., and Wilson, A. C. (1979). Rates of molecular and chromosomal evolution in salamanders. Evolution 33734. 10.1111/j.1558-5646.1979.tb04725.x

[39]

McFadden, E. S., and Sears, E. R. (1946). The origin of Triticum spelta and its free-threshing hexaploid relatives. J. Hered. 3781. 10.1093/oxfordjournals.jhered.a105590

[40]

Miller, T. E., Gerlach, W. L., and Flavell, R. B. (1980). Nucleolus organizer variation in wheat and rye revealed by in situ hybridization. Heredity 45(3):377. 10.1038/hdy.1980.79

[41]

Mitra, R., and Bhatia, C. R. (1973). Repeated and nonrepeated nucleotide sequences in diploid and polyploid wheat species. Heredity 31251. 10.1038/hdy.1973.80

[42]

Morris, R., and Sears, E. R. (1967). The cytogenetics of wheat and its relatives. In Quisenberry, K. S., and Reitz, L. P. (eds.), Wheat and Wheat Improvement Am. Soc. Agron., Madison, Wis., pp. 19?87.

[43]

Paroda, C. M. (1976). Studies on B Genome in Polyploid Wheat by Nucleic Acid Hybridization Ph.D. thesis, West Virginia University, Morgantown.

[44]

Riley, R., Unrau, J., and Chapman, V. (1958). Evidence on the origin of the B genome of wheat. J. Hered. 49(3):91. 10.1093/oxfordjournals.jhered.a106784

[45]

Schildkraut, C. L., Wierzchowski, K. L., Marmur, J., Green, D. M., and Doty, P. (1962). A study of the base sequence homology among the T-series of bacteriophages. Virology 1843. 10.1016/0042-6822(62)90175-7

[46]

Sears, E. R. (1949). Cytology and genetics of the wheats and their relatives. Adv. Genet. 2239. 10.1016/s0065-2660(08)60470-8

[47]

Sears, E. R. (1968). Relationships in Triticineae. Proc. Third Int. Wheat Genet. Symp. (Canberra), Australia.

[48]

Sears, E. R. (1974). The wheats and their relatives. Handbook Genet. 2290.

[49]

Sears, E. R. (1976). Genetic control of chromosome pairing in wheat. Annu. Rev. Genet. 1031. 10.1146/annurev.ge.10.120176.000335

[50]

Turner, J. G., Johnson, M. S., and Ednes, W. F. (1979). Contrasted modes of evolution in the same genome: Allozyme and adaptive changes in Heliconius. Proc. Natl. Acad. Sci. 761924. 10.1073/pnas.76.4.1924

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Published: Aug 01, 1983
Vol/Issue: 21(7-8)
Pages: 745-760
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J. Nath, James W. McNay, Charles M. Paroda, et al. (1983). Implication of Triticum searsii as the B-genome donor to wheat using DNA hybridizations. Biochemical Genetics, 21(7-8), 745-760. https://doi.org/10.1007/bf00498921

Implication of Triticum searsii as the B-genome donor to wheat using DNA hybridizations

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