Characteristics of winter oilseed rape (Brassica napus L.) volunteers with the use of RAPD markers

Jan Bocianowski

jan.bocianowski@up.poznan.pl
Katedra Metod Matematycznych i Statystycznych, Uniwersytet Przyrodniczy w Poznaniu (Poland)

Alina Lieesch


Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu (Poland)

Iwona Bartkowiak-Broda


Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu (Poland)

Wiesława Popławska


Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu (Poland)

Abstract

This study aimed to estimate genetic similarity (GS) and relationships between molecular markers and phenotypic traits and between molecular markers and genotype. The investigations included progenies of 31 volunteers collected from winter oilseed rape fields in the growing season 2005/2006. The plantations were selected in three Voivodships in northern Poland. Winter oilseed rape cultivars Californium, Castille, Lisek, Rasmus, cultivated in the fields of origin of volunteers, and winter turnip rape (B. campestris) Ludowy were chosen as standards. The volunteers of winter oilseed rape have been investigated through 431 RAPD markers. Dendrogram based on Nei and Li (1979) coefficient grouped genotypes in two clusters. The first one was represented by oilseed rape-like plants and standard oilseed rape cultivars; the second group consisted of turnip rape-like plants and turnip rape cultivar Ludowy. Significant associations between molecular markers, phenotypic traits and genotypes were found. Twenty-one of the molecular markers were specific for the turnip rape-like plants with high erucic acid content, and 59 markers were specific for oilseed rape-like plants with low erucic acid content.

Supporting Agencies

The research was carried out as part of the research project under the 6th EU Framework Program

Keywords:

molecular marker RAPD, polymorphism DNA, winter oilseed rape (Brassica napus L.), volunteers

Aleksandrzak Ł., Broda Z. 2004. Badanie polimorfizmu „rzepakochwastów” za pomocą markerów RAPD. Rośliny Oleiste – Oilseed Crops XXV (1): 61 — 66.
Google Scholar

Babula D., Kaczmarek M., Barakat A., Delseny M., Quiros C.F., Sadowski J. 2003. Chromosomal mapping of Brassica oleracea based on ESTs from Arabidopsis thaliana: complexity of the comparative map. Mol. Genet. Genomics 268: 656 — 665.
Google Scholar

Barret P., Delourme R., Foisset N., Renard M. 1998. Development of a SCAR (sequence characterised amplified region) marker for molecular tagging of the dwarf BREIZH (Bzh) gene in Brassica napus L. Theor. Appl. Genet. 97: 828 — 833.
Google Scholar

Becker J., Engqvist G.M., Karlsson B. 1995. Comparison of rapeseed cultivars and resynthesized line based on allozyme and RFLP markers. Theor. Appl. Genet. 91: 62 — 67.
Google Scholar

Delourme R., Foisset N., Horvais R., Barret P., Champagne G., Cheung W.Y., Landry B.S., Renard M. 1998. Characterisation of the radish introgression carrying the Rfo restorer gene for the Ogu-INRA cytoplasmic male sterility in rapeseed (Brassica napus L.). Theor. Appl. Genet. 97: 129 — 134.
Google Scholar

Delourme R., Pilet-Nayel M.L., Archipiano M., Horvais R., Tanguy X., Rouxel T., Brun H., Renard M., Balesdent M.H. 2004. A cluster of major specific resistance genes to Leptosphaeria maculans in Brassica napus. Phytophatology 94: 578 — 583.
Google Scholar

Doyle J. J., Doyle J. L. 1990. Isolation of plant DNA from fresh tissue. Focus 12: 13 — 15.
Google Scholar

Ecke W., Uzunova M., Weißleder K. 1995. Mapping the genome of rapeseed (Brassica napus L.). II. Localization of genes controlling erucic acid synthesis and seed oil content. Theor. Appl. Genet. 91: 972 — 977.
Google Scholar

Foisset N., Delourme R., Barret P., Renard M. 1995. Molecular tagging of the dwarf BREIZH (Bzh) gene in Brassica napus. Theor. Appl. Genet. 91: 756 — 761.
Google Scholar

Foisset N., Delourme R., Barret P., Hubert N., Landry B.S., Renard M. 1996. Molecular-mapping analysis in Brassica napus using isozyme, RAPD and RFLP markers on a doubled-haploid progeny. Theor. Appl. Genet. 93: 1017 — 1025.
Google Scholar

Friedt W., Stoll C., Raclau M., Zarhloul M.K., Lühs W. 2007. Molecular breeding of oilseed rape (Brassica napus) with modified oil quality for nutritional and non-food purposes. Proceedings 12th International Rapeseed Congress, 26-30 March 2007, Wuhan, China, vol. II: 237 — 240.
Google Scholar

Genstat 5 Committee 1993. Genstat 5 Release 3 Reference Manual. Clarendon Press, Oxford.
Google Scholar

Hasan M., Seyis F., Badani A.G., Pons-Kühnemann J. 2006. Analysis of genetic diversity in the Brassica napus L. gene pool using SSR markers. Genetic Resourses and Crop Evolution 53 (4): 793 — 802.
Google Scholar

Hastie T. J., Tibshirani R. J. 1990. Generalized additive models. Chapman and Hall, London.
Google Scholar

Jain A., Bhatia S., Banga S.S., Prakash S., Lakshmikumaran M. 1994. Potential use of random amplified polymorphic DNA (RAPD) technique to study the genetic diversity in Indian mustard (Brassica juncea) and its relationship to heterosis. Theor. Appl. Genet. 88: 116 — 122.
Google Scholar

Javidfar F., Ripley V.L., Roslinsky V., Zeinali H., Abdmishani C. 2006. Identification of molecular markers associated with oleic and linolenic acid in spring oilseed rape (Brassica napus). Plant Breeding 125: 65 — 71.
Google Scholar

Kole C., Thormann C.E., Karlsson B. H., Palta J. P., Gaffney P., Yandell B., Osborn T. C. 2002. Comparative mapping of loci controlling winter survival and related traits in oilseed Brassica rapa and B. napus. Mol. Breeding 9: 201 — 210.
Google Scholar

Liersch A., Popławska W., Ogrodowczyk M., Bartkowiak-Broda I., Bocianowski J. 2008. Charakterystyka fenotypowa samosiewów rzepaku ozimego (Brassica napus L.) występujących w północnych regionach Polski. Biuletyn IHAR, w druku.
Google Scholar

Liu R., Qian W., Meng J. 2002. Association of RFLP markers and biomass heterosis in trigenomic hybrids of oilseed rape (Brassica napus × B. campestris). Theor. Appl. Genet. 105: 1050 — 1057.
Google Scholar

Lombard V., Delourme R. 2001. A consensus linkage map for rapeseed (Brassica napus L.): construction and integration of three individual maps from DH populations. Theor. Appl. Genet. 103: 491 — 507.
Google Scholar

Lu G., Cao J., Yu X., Xiang X., Chen H. 2008. Mapping QTLs for root morphological traits in Brassica rapa L. based on AFLP and RAPD markers. J. Appl. Genet. 49(1): 23 — 31.
Google Scholar

Mailer R. J., Scarth R., Fristensky B. 1994. Discrimination among cultivars of rapeseed (Brassica napus L.) using DNA polymorphisms amplified from arbitrary primers. Theor. Appl. Genet. 87: 697 — 704.
Google Scholar

Mikolajczyk K., Dabert M., Karlowski W., Spasibionek S., Cegielska-Taras K., Bartkowiak-Broda I. 2007. Development of allele-specific SNP markers for the new low-linolenic mutant of winter oilseed rape. Proceedings 12th International Rapeseed Congress, 26–30 March 2007, Wuhan, China, vol. II: 282 — 284.
Google Scholar

Nei M., Li W. 1979. Mathematical model for studying genetic variation in terms of restriction endonucleases. Proc. Natl. Acad. Sci. USA 76: 5269 — 5273.
Google Scholar

Pilet M., Duplan L.G., Archipiano H., Barret P., Baron C., Horvais R., Tanguy X., Lucas M.O., Renard M., Delourme R. 2001. Stability of QTL for field resistance to blackleg across two genetic backgrounds in oilseed rape. Crop. Sci. 41: 197 — 205.
Google Scholar

Rahman M., McVetty P. B. E., Li G. 2007. Inheritance of seed coat color genes of Brassica napus (L.) and tagging the genes using SRAP molecular markers. Proceedings 12th International Rapeseed Congress, 26-30 March 2007, Wuhan, China, vol. II: 310 — 313.
Google Scholar

Santos dos J.B., Nienhuis J., Skroch P., Tivang J., Slocum M. K. 1994. Comparison of RAPD and RFLP genetic markers in determining genetic similarity among Brassica oleracea L. genotypes. Theor. Appl. Genet. 87: 909 — 915.
Google Scholar

Snowdon R. J., Friedt W. 2004. Molecular markers in Brassica oilseed breeding: current status and future possibilities. Plant Breeding 123: 1 — 8.
Google Scholar

Sommers D. J., Rakow G., Prabhu V. K., Friesen K. R .D. 2001. Identification of a major gene and RAPD markers for yellow seed coat colour in Brassica napus. Genome 44: 1077 — 1082.
Google Scholar

Song K.M., Suzuki J.Y., Slocum M.K., Williams P.H., Osborn T.C. 1991. A linkage map of Brassica rapa (syn. campestris) based on restriction fragment length polymorphisms. Theor. Appl. Genet. 82: 296 — 304.
Google Scholar

Uzunova M., Ecke W., Wießleder K. and Röbbelen G. 1995. Mapping the genome of rapeseed (Brassica napus L.). I. Construction of an RFLP linkage map and localization of QTLs for seed glucosinolate content. Theor. Appl. Genet. 90: 194 — 204.
Google Scholar

Williams J. G. K., Kubelik A. R., Livak K. J., Rafalski J. A., Tingey S. V. 1990. DNA polymorphisms amplified by arbitrary primers are useful as genetic markers. Nucl. Acids Res. 18: 6531 — 6535.
Google Scholar

Wu X., Zhang D., Chen B., Lu G., Liu F. 2007. SSR and AFLP fingerprinting of 89 newly bred winter rapeseed cultivars in China. Proceedings 12th International Rapeseed Congress, 26–30 March 2007, Wuhan, China, vol. II: 330 — 332.
Google Scholar

Yu C. Y., Hu S. W., Zhao H. X., Guo A. G., Sun G. L. 2005. Genetic distance revealed by morphological characters, isozymes, proteins and RAPD markers and their relationships with hybrid performance in oilseed rape (Brassica napus L.). Theor. Appl. Genet. 110: 511 — 518.
Google Scholar

Yu F., Lydiate D. J., Hahn K., Kuzmicz S., Hammond Ch., Rimmer S. R. 2007. Identification and mapping of a novel blackleg resistance locus LepR4 in the progenies from Brassica napus × Brassica rapa subsp. sylvestris. Proceedings 12th International Rapeseed Congress, 26-30 March 2007, Wuhan, China, vol. II: 317 — 32.
Google Scholar


Published
2008-09-30

Cited by

Bocianowski, J. (2008) “Characteristics of winter oilseed rape (Brassica napus L.) volunteers with the use of RAPD markers”, Bulletin of Plant Breeding and Acclimatization Institute, (249), pp. 183–192. doi: 10.37317/biul-2008-0045.

Authors

Jan Bocianowski 
jan.bocianowski@up.poznan.pl
Katedra Metod Matematycznych i Statystycznych, Uniwersytet Przyrodniczy w Poznaniu Poland

Authors

Alina Lieesch 

Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu Poland

Authors

Iwona Bartkowiak-Broda 

Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu Poland

Authors

Wiesława Popławska 

Zakład Genetyki i Hodowli Roślin Oleistych IHAR w Poznaniu Poland

Statistics

Abstract views: 234
PDF downloads: 19


License

Copyright (c) 2008 Jan Bocianowski, Alina Lieesch, Iwona Bartkowiak-Broda, Wiesława Popławska

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Upon submitting the article, the Authors grant the Publisher a non-exclusive and free license to use the article for an indefinite period of time throughout the world in the following fields of use:

  1. Production and reproduction of copies of the article using a specific technique, including printing and digital technology.
  2. Placing on the market, lending or renting the original or copies of the article.
  3. Public performance, exhibition, display, reproduction, broadcasting and re-broadcasting, as well as making the article publicly available in such a way that everyone can access it at a place and time of their choice.
  4. Including the article in a collective work.
  5. Uploading an article in electronic form to electronic platforms or otherwise introducing an article in electronic form to the Internet or other network.
  6. Dissemination of the article in electronic form on the Internet or other network, in collective work as well as independently.
  7. Making the article available in an electronic version in such a way that everyone can access it at a place and time of their choice, in particular via the Internet.

Authors by sending a request for publication:

  1. They consent to the publication of the article in the journal,
  2. They agree to give the publication a DOI (Digital Object Identifier),
  3. They undertake to comply with the publishing house's code of ethics in accordance with the guidelines of the Committee on Publication Ethics (COPE), (http://ihar.edu.pl/biblioteka_i_wydawnictwa.php),
  4. They consent to the articles being made available in electronic form under the CC BY-SA 4.0 license, in open access,
  5. They agree to send article metadata to commercial and non-commercial journal indexing databases.

Most read articles by the same author(s)

<< < 1 2 3 4 > >>