Characterization of self-incompatible Brassica napus lines lacking SP11 expression
Author:
Affiliation:
1. Graduate School of Life Sciences, Tohoku University
2. Division of Natural Science, Osaka Kyouiku University
3. Graduate School of Agricultural and Life Sciences, The University of Tokyo
Publisher
Genetics Society of Japan
Subject
Genetics,Molecular Biology,General Medicine
Link
https://www.jstage.jst.go.jp/article/ggs/95/3/95_19-00050/_pdf
Reference41 articles.
1. Bateman, A. J. (1955) Self-incompatibility systems in angiosperms: III. Cruciferae. Heredity 9, 53–68.
2. Beschorner, M., Plümper, B., and Odenbach, W. (1995) Analysis of self-incompatibility interactions in 30 resynthesized Brassica napus lines. I. Fluorescence microscopic studies. Theor. Appl. Genet. 90, 665–670.
3. Brace, J., Ockendon, D. J., and King, G. J. (1993) Development of a method for the identification of S alleles in Brassica oleracea based on digestion of PCR-amplified DNA with restriction endonucleases. Sex. Plant Reprod. 6, 133–138.
4. Cabrillac, D., Cock, J. M., Dumas, C., and Gaude, T. (2001) The S-locus receptor kinase is inhibited by thioredoxins and activated by pollen coat protein. Nature 410, 220–223.
5. Haffani, Y. Z., Gaude, T., Cock, J. M., and Goring, D. R. (2004) Antisense suppression of thioredoxin h mRNA in Brassica napus cv. Westar pistils causes a low level constitutive pollen rejection response. Plant Mol. Biol. 55, 619–630.
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1. The self‐compatibility is acquired after polyploidization: a case study of Brassica napus self‐incompatible trilinear hybrid breeding system;New Phytologist;2023-11-30
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3. Polyploidy before and after domestication of crop species;Current Opinion in Plant Biology;2022-10
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