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DNA-Based Markers in Plants pp 239–253Cite as

Molecular genetic map of cotton

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Part of the book series: Advances in Cellular and Molecular Biology of Plants ((CMBP,volume 6))

Abstract

World cotton commerce is largely derived from Gossypium hirsutum and G. barbadense, two tetraploid members of a diverse genus (Gossypium) comprised of about 50 diploid and tetraploid species distributed across America, Africa, Asia, and Australia. A central issue in cotton molecular genetics is the genetic control of the development of spinnable fibers, the economic organ of cotton. The observation that tetraploid cottons transgress the levels of fiber yield and quality of diploid cottons has suggested that polyploidy has created novel opportunities for evolution. Development and application of a comprehensive set of DNA markers, and other molecular tools has created new avenues for investigating the genetic control of fiber development, and other questions in cotton genetics and evolution.

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References

  • Anonymous, (1997) Zonal Coordinators Annual Report of All-India Coordinated Cotton Improvement Project.

    Google Scholar 

  • Balls, W.L. (1906) Studies in Egyptian cotton. Pp. 29-89 in Yearbook Khediv. Agric. Soc. For 1906. Cairo, Egypt.

    Google Scholar 

  • Bevan, M., Stiekema, W., Murphy, G., Wambutt, R., Pohl, T., Terryn, N., Kreis, M., Kavanagh, T., Entian, K.D., Rieger, M., James, R., Puigdomenech, P., Hatzopoulos, P., Obermaier, B., Duesterhoft, A., Jones, J., Palme, K., Ansorge, W., Delseny, M., Bancroft, I., Mewes, H.W., Schueller, C. and Chalwatzis, N. (1997) Arabidopsis thaliana DNA chromosome 4, ESSA I contig fragment No. 7.

    Google Scholar 

  • Beasley, J.O. (1942) Meiotic chromosome behavior in species hybrids, haploids and induced polyploids of Gossypium. Genetics 27: 25–54.

    PubMed  CAS  Google Scholar 

  • Biessmann, H., Valgeirsdottir, K., Lofsky, A., Chin, C. and Ginther, B. (1992) Het-A, a transposable element specifically involved in healing broken chromosome ends in Drosophila melanogaster. Mol. Cell. Biol. 12: 3910-3918.

    Google Scholar 

  • Bouchard, R.A. (1982) Moderately repetitive DNA in evolution. Int. Rev. Cytol. 76: 113-193.

    Google Scholar 

  • Brubaker, C.L., Paterson, A.H. and Wendel, J.F. (1998) Comparative genetic mapping of allotetraploid cotton and its diploid progenitors. Genome, accepted.

    Google Scholar 

  • Chomet, P. S. (1994) Transposon tagging with Mutator. In The Maize Handbook, eds. Freeling, M. and Walbot, pp. 243–249. Springer-Verlag, New York.

    Google Scholar 

  • Crane, C.F., Price, H.J., Stelly, D.M. and Czeshin, D.G. (1994) Identification of a homoeologous chromosome pair by in situ hybridization to ribosomal RNA loci in meiotic chromosomes of cotton (Gossypium hirsutum L.). Genome 35: 1015–1022.

    Google Scholar 

  • Elborough, K.M. and Storey, S.E.S. (1996) B. Napus DNA fragment with retrotransposon integrase motif. (Unpublished, genbank accession # x99804).

    Google Scholar 

  • Endrizzi, J. E., and Ramsay, G. (1979) Monosomes and telosomes for 18 of the 26 chromosomes of Gossypium hirsutum. Can. J. Genet. Cytol. 21: 531-536.

    Google Scholar 

  • Endrizzi, J.E., Turcotte, E.L. and Kohel, R.J. (1984) Qualitative genetics, cytology, and Publishers, Madison, WI.

    Google Scholar 

  • Ergle, D.R. and Katterman, F.R.H. (1961) DNA of cotton. Plant Physiol. 36: 811–815.

    Article  CAS  Google Scholar 

  • Flavell, R.B. (1982a) Repetitive sequences and genome architecture. In Structure and Function of Plant Genomes. Edited by O. Ciferri and L. Dure. New York, Plenum Press, pp. 1-14.

    Google Scholar 

  • Fryxell, P.A. (1979) The Natural History of the Cotton Tribe. Texas AM University Press, College Station, TX.

    Google Scholar 

  • Fryxell, P. A. (1992) A revised taxonomic interpretation of Gossypium L. ( Malvaceae ). Rheedea 2: 108-165.

    Google Scholar 

  • Galau, G.A., Bass, H.W. and Hughes, D.W. (1988) Restriction fragment length polymorphisms in diploid and allotetraploid Gossypium: Assigning the late-embryogenesis-abundant (Lea) alloalleles in G. hirsutum. Mol. Gen. Genet. 211: 305-314.

    Google Scholar 

  • Geever, R.F., Katterman, F. and J.E. Endrizzi, ( 1989 DNA hybridization analyses of a Gossypium allotetraploid and two closely related diploid species. Theor. Appl. Genet. 77: 553-559.

    Google Scholar 

  • Hanson, R.E., Zhao, X., Paterson, A.H., Islam-Faridi, M.N., Zwick, M.S., Crane, C.F.,

    Google Scholar 

  • McKnight, T.D., Stelly, D.M. and Price, H.J. (1998) Concerted evolution of 20 interspersed repetitive elements in a polyploid. Am. J. Bot, in press.

    Google Scholar 

  • Helentjaris, T., Weber, D.F. and Wright, S. (1988) Use of monosomics to map cloned DNA fragments in maize. Proc. Natl. Acad. Sci. USA 83: 6035-6039.

    Google Scholar 

  • Innes, N.L., (1983) Bacterial blight of cotton. Biol. Rev. 58: 157-176.

    Google Scholar 

  • Jiang, C., Wright, R., El-Zik, K. and Paterson, A.H. (1998) Polyploid formation created unique avenues for response to selection in Gossypium (cotton). Proc. Natl. Acad. Sci. USA, 95: 4419-4424.

    Google Scholar 

  • Kimber, G. (1961) Basis of the diploid-like meiotic behavior of polyploid cotton. Nature 191: 98–99.

    Article  Google Scholar 

  • Knight, R.L. (1944) The genetics of blackarm resistance. IV. Gossypium punctatum (SCH. THON.) crosses. J. Genet. 46: 1-27.

    Google Scholar 

  • Lapitan, N.L.V. (1992) Organization and evolution of higher plant nuclear genomes. Genome, 35: 171–181.

    Article  CAS  Google Scholar 

  • Lee, J.A. (1985) Revision of the genetics of the hairiness-smoothness system of Gossypium. J. Hered. 76: 123–126.

    Google Scholar 

  • Meredith, W.R. and Bridge, R.R. (1984) Genetic contributions to yield changes in upland cotton. pp. 75–86 in Genetic Contributions to Yield Gains of Five Major Crop Plants, edited by W.R. Fehr. Crop Science Society of America, Madison WI.

    Google Scholar 

  • Nelson, D.L., Ledbetter, S., Corbo, L., Victoria, D.H. and Caskey, C.T. (1989) Alu polymerase chain reaction: A method for rapid isolation of human-specific sequences from complex DNA sources. Proc. Natl. Acad. Sci. U.S.A. 86: 6686-6690.

    Google Scholar 

  • Niles, G.A. and Feaster, C.V. (1984) in Cotton, eds. Kohel, R. J. Lewis, C. F. ( ASA/CSSA/ SSSA Publishers, Madison, WI ), pp. 202–229.

    Google Scholar 

  • Reinisch, A., Dong, J.-M., Brubaker, C.L., Stelly, D.M., Wendel, J.F. and Paterson, A.H. (1994) A detailed RFLP map of cotton, Gossypium hirsutum x Gossypium barbadense: chromosome organization and evolution in a disomic polyploid genome. Genetics, 138: 829–847.

    PubMed  CAS  Google Scholar 

  • Reyes-Valdes, M. and Stelly, D.M. (1995) A maximum likelihood algorithm for genome mapping of cytogenetic loci from meiotic configuration data. Proc. Natl. Acad. Sci. USA; 9824–9828.

    Google Scholar 

  • Royo, J., Nass, N., Matton, D.P., Okamoto, S., Clarke, A.E. and Newbigin, E. (1996) A retrotransposon-like sequence linked to the S-locus of Nicotiana alata is expressed in styles in response to touch. Mol. Gen. Genet. 250, 180-188.

    Google Scholar 

  • Singer, M.F. (1982) Highly repetitive sequences in mammalian genomes. Int. Rev. Cytol., 76: 67-112.

    Google Scholar 

  • Smyth, D.R., Kalitsis, P., Joseph, J.L. and Sentry, J.W. (1989) Plant retrotransposon from Lilium henryi related to Ty3 of yeast and the gypsy group of Drosophila. Proc. Natl. Acad. Sci. U.S.A. 86, 5013-5019.

    Google Scholar 

  • Walbot, V. and Dure, L.S. (1976) Developmental biochemistry of cotton seed embryogenesis and germination. VII. Characterization of the cotton genome. J. Mol. Biol. 101: 503-536.

    Google Scholar 

  • Wendel, J.F. (1989) New World cottons contain Old World cytoplasm. Proc. Natl. Acad. Sci. USA 86: 4132-4136.

    Google Scholar 

  • Wendel, J.F. and V.A. Albert, (1992) Phylogenetics of the Cotton genus (Gossypium): Character-state weighted parsimony analysis of chloroplast-DNA restriction site data and its systematic and biogeographic implications. Syst. Bot. 17: 115-143.

    Google Scholar 

  • Wilson, J.T., Katterman, F.R.H. and Endrizzi, J.E. (1976) Analysis of repetitive DNA in three species of Gossvpium. Biochem. Genet. 14: 1071-1075.

    Google Scholar 

  • Wright, R., Thaxton, P., Paterson, A.H. and EI-Zik, K. (1998) Polyploid formation in Gossypium has created novel avenues for response to selection for disease resistance. Genetics 149: 1987–1996.

    PubMed  CAS  Google Scholar 

  • Wright, R., Thaxton, P., Paterson, A.H. and EI-Zik, K. (1999) Molecular mapping of genes affecting pubescence of cotton. J. Heredity, in press.

    Google Scholar 

  • Zhao, X., Zhang, H., Wing, R.A. and Paterson, A.H. (1994) An efficient and simple method for isolation of intact megabase-sized DNA from cotton. Plt. Mol. Biol. Rptr. 12: 126-131.

    Google Scholar 

  • Zhao, X., Si., Y., Hanson, R., Price, H.J., Stelly, D., Wendel, J. and Paterson, A.H. (1998) Dispersed repetitive DNA has spread to new genomes since polyploid formation in cotton. Genome Res. 8: 479–492.

    CAS  Google Scholar 

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Author information

Authors and Affiliations

  1. Department of Crop and Soil Science, University of Georgia, Athens, GA, 30602, USA

    Andrew H. Paterson

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  1. Andrew H. Paterson
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Editor information

Editors and Affiliations

  1. Department of Agronomy and Plant Genetics, University of Minnesota, St. Paul, Minnesota, 55108-6026, USA

    Ronald L. Phillips

  2. Laboratory of Plant Cell and Molecular Biology, University of Florida, Gainesville, Florida, 32611-0690, USA

    Indra K. Vasil

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© 2001 Springer Science+Business Media Dordrecht

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Paterson, A.H. (2001). Molecular genetic map of cotton. In: Phillips, R.L., Vasil, I.K. (eds) DNA-Based Markers in Plants. Advances in Cellular and Molecular Biology of Plants, vol 6. Springer, Dordrecht. https://doi.org/10.1007/978-94-015-9815-6_14

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  • DOI: https://doi.org/10.1007/978-94-015-9815-6_14

  • Publisher Name: Springer, Dordrecht

  • Print ISBN: 978-90-481-5672-6

  • Online ISBN: 978-94-015-9815-6

  • eBook Packages: Springer Book Archive

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