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2002 | 07 | 2B |

Tytuł artykułu

Identification of RAPD markers and their use for molecular mapping in pea [Pisum sativum L.]

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The RAPD method (Random Amplified Polymorphic DNA) was used for identifying and mapping new molecular markers in pea. RAPD analysis of various cultivars and lines of pea was carried out using 10-mer random primers. The presence of multiple polymorphism between cultivars and lines was revealed; at least one fragment for any given primer was present in the DNA of one form of pea and absent in the DNA of another line or cultivar. To detect molecular markers linked to the genes of chi-15, xa-18 and also to the 12 morphological markers of the L-1238 line, the F2 populations (Chi-15 x L-1238), (Vio x L-1238), (Xa-18 x L-1238), (L-111 x Chi-15) and (L-84 x Xa-18) were studied via bulked segregant analysis. DNA molecular analysis of F1 hybrids revealed the presence of parental polymorphic fragments in all of the populations. The study of the F2 plants showed that the obtained fragments are inherited as Mendelian factors. 13 RAPD-markers linked to genes of A/a (flower color), I/i (seed color), Gp/gp (pod color), R/r (seed form), S/s (seeds linkage), and also to genes of Chi-15/chi-15 (leaf color) and Xa-18/xa-18 (leaf color) were discovered. The study of individual plant DNA from the F2 populations allowed us to determine the genetic distances between genes and the RAPD markers linked to them.

Wydawca

-

Rocznik

Tom

07

Numer

2B

Opis fizyczny

p.649-655,fig.

Twórcy

  • Moscow State University, Vorobjevy Gory, Moscow, 119899, Russia
autor
autor
autor

Bibliografia

  • 1. Gilpin, B. J., McCallum, J. A., Frew T. J. and Timmerman-Vaughan, G. M. A linkage map of the pea genome containing cloned sequence of know function and expressed sequence tags (ESTs). Theor. Appl. Genet. 95 (1997) 1289-1299.
  • 2. Gostimsky, S. A., Kokaeva, Z. G. and Bobrova, V. K. Use of markers for the analysis of plant genome. Rus. J. Gen. 35 (1999) 1326-1335.
  • 3. Koveza, O. V., Kokaeva, Z. G., Gostimsky, S. A., Petrova, T. V. and Osipova, E. S. Creation of a SCAR marker in pea Pisum sativum L. using RAPD analysis. Rus. J. Gen. 37 (2001) 464-466.
  • 4. Malyshev, S. V. and Kartel, N. A. Molecular markers in mapping of plant genomes. J. Mol. Biol. 31 (1997) 163-171.
  • 5. Men, A. E., Borisov, A. Y., Rozov, S. M., Ushakov, K. V., Tsyganov, V. E., Tikhonovich, I. A. and Gresshoff, P. M. Identification of DNA amplification fingerprinting (DAF) markers close to the symbiosis-ineffective sym3l mutation of pea (Pisum sativum L.). Theor. Appl. Genet. 98 (1999) 929-936.
  • 6. Michelmore, R. W., Paran, I. and Kesseli, R. V. Identification of markers linked to disease-resistance genes by bulked segregant analysis: a rapid method to detect markers in specific genomic regions by using segregating populations. Proc. Natl. Acad. Sci. USA 88 (1991) 9828-9832.
  • 7. Moller, E. M., Bahnweg, G., Sandermann, H. and Geiger, H. H. A simple and efficient protocol for isolation of high molecular weight DNA from filamentos fungi, fruit bodies and infected tissues. Nucleic Acids Res. 20 (1992) 6115-6116.
  • 8. Raflaski, J. A., Tingey, S. V. and Williams, J. G. K. RAPD markers, a new technology for genetic mapping and plant breeding. Ag. Biotech. News Info. 3 (1991) 645-648.
  • 9. Rameau, C., Denoue, D., Fraval, F., Haurogne, K., Josserand, J., Laucou, V., Batge, S. and Murfet, I. C. Genetic mapping in pea. 2. Identification of RAPD and SCAR markers linked to genes affecting plant architecture. Theor. Appl. Genet. 97 (1998) 916-928.
  • 10. Ronald, P. S., Penner, G. A., Brown, P. A. and Brule-Babe A. Identification of RAPD markers for percent hull in oat. Genome 40 (1997) 873-878.
  • 11. Serebrovsky, A. S. Genetichesky analis. Nauka, Moscow (1970) 288-292.
  • 12. Tanksley, S. D., Ganal, M. W. and Martin G. B. Chromosome landing: a parading for map-based gene cloning in plants with large genomes. Trends Genet. 11 (1995) 63-68.
  • 13. Tanksley, S. D., Young, N. D., Paterson, A. H. and Bonirbale M. D. RFLP mapping in plant breeding: New tools for an old science. Biotechnology 7 (1989) 257-264.
  • 14. Thomas, C. M., Vos, P., Zabeau, M., Jones, D. A., Norcott, K. A., Chadwick, B. P. and Jones, D. G. Identification of amplified restriction fragment polymorphism (AFLP) markers tightly linked to the tomato Cf-9 gene for resistance to Cladosporium fulvum. Plant J. 8 (1995) 785-794.
  • 15. Weeden N. F., Ellis, T. H. N., Timmerman-Vaughan, G. M., Swiecicki W. K., Rozov, S. M. and Berdnikov, V. A. A consensus linkage map for Pisum sativum. Pisum Genetics 30 (1998) 1-4.
  • 16. Williams J. G. K., Kubelik, A. R., Livak, K. J., Rafalski, J. A. and Tingey, S. V. DNA polymorphisms amplified by arbitrary primers are useful as genetics markers. Nucleic Acids Res. 18 (1990) 6531-6535.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-article-f92540b0-dbb5-4aee-9ffe-73f9da404086
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