The generative propagation and quality of new male-sterile cauliflowers with the Ogu-INRA and Brassica nigra cytoplasm

Bannerot M.L., Bouidard Y., Cauderon, Tempe J., 1974. Transfer of cytoplasmic male sterility from Raphanus sativus to Brassica oleracea. Proc. Eucarpia Meeting Cruciferae, Dundee: 52-54.Search in Google Scholar

Brown J., Caligari P., 2008. An Introduction to Plant Breeding. Blackwell Publishing Ltd.10.1002/9781118685228Search in Google Scholar

Budar F., Pascal T., Pell etier G., 2006. Cytoplasmic male sterility. In: Flowering and its manipulation. Ainsworth Ch. (ed.), Ann. Plant Rev. vol. 20, Blackwell Publishing Ltd.: 147-180.10.1002/9780470988602.ch7Search in Google Scholar

Delourme R., Budar F., 1999. Male sterility. In: Biology of Brassica Coenospecies. Gomez-Campo C. (ed.), Elsevier, Amsterdam: 185-216.10.1016/S0168-7972(99)80007-3Search in Google Scholar

Dickson G.R., 2007. Vegetable Brassicas and Related Crucifers. CAB International, Wallingford.Search in Google Scholar

Dickson M.H., Kyl e M., 1987. Seed production on cytosterile B. oleracea plants with B. nigra cytoplasm. Cruciferae Newsletter 12: 45.Search in Google Scholar

Hoser-Krauze J., 1987. Influence of cytoplasmic malesterility source on some characters of cauliflower (Brassica oleracea var. botrytis). Genetica Polonica 28: 101-108.Search in Google Scholar

Kalia P., 2009. Genetic Improvement in Vegetable Crucifers. In: Biology and Breeding of Crucifers. Gupta S.K. (ed.), CRC Press: 310-330.10.1201/9781420086096.ch16Search in Google Scholar

Kamiński P., Dyki B., 2007. Seed productivity and seed stalk morphology of male-sterile cauliflower lines with Brassica nigra cytoplasm. In: Spontaneous and Induced Variation for the Genetic Improvement of Horticultural Crops. Nowaczyk P. (ed.), University of Technology and Life Sciences Press, Bydgoszcz: 213-218.Search in Google Scholar

Kamiński P., Dyki B., Stępowska A.A., 2012. Improvement of cauliflower male sterile lines with Brassica nigra cytoplasm, phenotypic expression and possibility of practical application. J. Agric. Sci. 4: 187-198.10.5539/jas.v4n4p190Search in Google Scholar

Kaul M.H., 1988. Male Sterility in Higher Plants.Springer-Verlag, Berlin, Heilderberg.10.1007/978-3-642-83139-3Search in Google Scholar

Ogura H., 1968. Studies on a new male-sterility in Japanese radish with special reference to utilisation of this sterility towards the practical raising of hybrid seeds. Mem. Fac. Agr. Kogoshima Univ. 6: 39-78.Search in Google Scholar

Pearson O.H., 1972. Cytoplasmically inherited male sterility characters and flavor components from the species cross Brassica nigra (L) Koch × B. oleracea L. J. Amer. Soc. Hort. Sci. 97(3): 397-402.Search in Google Scholar

Pelletier G., Primard C., Vedel F., Chetrit P., Remy R., Roussell e P., Renard M., 1983. Intergeneric cytoplasmic hybridization in Cruciferae by protoplast fusion. Mol. Gen. Genet. 191: 244-250.10.1007/BF00334821Search in Google Scholar

Prakash S., Bhat S.R., Ting-Dong Fu., 2009. Wild germplasm and male sterility. In: Biology and Breeding of Crucifers. Gupta S.K. (ed.), CRC Press: 113-127.10.1201/9781420086096.ch7Search in Google Scholar

Ramchiary N., Suhy oung P., Yong P.L., 2011. Classical breeding and genetic analysis of vegetable brassicas. In: Genetics, Genomics and Breeding of Vegetable Brassicas. Sadowski J., Kole Ch. (eds), CRC Press: 34-80.Search in Google Scholar

Qiong H., Yunch ang L., Desheng M., 2009. Introgression of genes from wild crucifers. In: Biology and Breeding of Crucifers. Gupta S.K. (ed.), CRC Press: 261-284.10.1201/9781420086096.ch13Search in Google Scholar