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Reviews

Breeding Cauliflower: A Review

B. K. SinghIndian Council of Agricultural Research–Indian Institute of Vegetable Research, Shahanshahpur, Varanasi, Uttar Pradesh, IndiaCorrespondence[email protected]
,
Bijendra SinghIndian Council of Agricultural Research–Indian Institute of Vegetable Research, Shahanshahpur, Varanasi, Uttar Pradesh, India
&
P. M. SinghIndian Council of Agricultural Research–Indian Institute of Vegetable Research, Shahanshahpur, Varanasi, Uttar Pradesh, India
Pages 58-84 | Published online: 24 Aug 2017

References

  • Anonymous. 2010. The second report on the state of the world’s plant genetic resources for food and agriculture. Food and Agriculture Organization, Rome.
  • Anonymous. 2014. Indian horticulture database—2014. National Horticulture Board, Ministry of Agriculture, Government of India, Gurgaon.
  • Anonymous. 2015. Germplasm Resources Information Network. Agricultural Research Service, National Genetic Resources Program, National Germplasm Resources Laboratory, U.S. Department of Agriculture, Beltsville, Md. (http://www.ars-grin.gov.4/cgi-bin/npgs/html/index.pl).
  • Anonymous. 2016. Varieties released and identified during 2015. 54th Convocation, Indian Agricultural Research Institute, 5 Feb. 2016, Pusa, New Delhi, India. (http://www.icar.org.in/en/node/10174).
  • Arias, T., M.A. Beilstein, M. Tang, M.R. McKain, and C. Pires. 2014. Diversification times among Brassica (Brassicaceae) crops suggest hybrid formation after 20 million years of divergence. American Journal of Botany 101(1):86–91.
  • Bannerot, H.L., L. Boulidard, Y. Cauderon, and J. Tempe. 1974. Transfer of cytoplasmic male sterility from Raphanus sativus to Brassica oleracea. Proceeding of Eucarpia Meeting- Cruciferae. Scottish Horticulture Research Institute, Invergowrie, UK.
  • Bhattacharya, R.C., M. Maheshwari, V. Dineshkumar, P.B. Kirti, S.R. Bhat, and V.L. Chopra. 2004. Transformation of Brassica oleracea var. capitata with bacterial BetA gene enhances tolerance to salt stress. Scientia Horticulturae 100:215–227.
  • Boswell, V.R. 1949. Your vegetable travellers. Natural Geography 96:145–217.
  • Bradfield, C.A. and L. Bjeldanes. 1987. Dietary modification of xenobiotic metabolism—contribution of indolylic compounds present in Brassica oleracea. Journal of Agricultural and Food Chemistry 35:896–900.
  • Branca, F. and E. Cartea. 2011. Brassica, p. 17–36. In: C. Koley (ed.). Wild crop relatives: genomic and breeding resources. Springer-Verlag, Berlin.
  • Chatterjee, S.S. and J. Kabir. 2002. Cole crops, p. 345–492. In: T.K. Bose, J. Kabir, T.K. Maity, V.A. Parthasarathy, and M.G. Som (eds.). Vegetable crops. Vol. `. Naya Prokash, Kolkata, India.
  • Chatterjee, S.S. and V. Swarup. 1983. Cauliflower varieties: when to grow them. Seeds and Farms 9:15–16.
  • Chatterjee, S.S. and V. Swarup. 1984. Self-incompatibility in Indian cauliflower. Cruciferae Newsletter 9:25–27.
  • Chiang, M.S. and R. Crete. 1987. Cytoplasmic male sterility in Brassica oleracea induced by B. napus cytoplasm, female fertility and restoration of male fertility. Canadian Journal of Plant Science 67:891–897.
  • Chikkala, V.R.N., G.D. Nugent, D.M. Stalker, and T.W. Stevenson. 2013. Production and characterisation of transgenic cauliflower plants containing abnormal chloroplasts. Scientia Horticulturae 164:409–413.
  • Chiu, L.W., X. Zhou, S. Burke, X. Wu, R.L. Prior, and L. Li. 2010. The purple cauliflower arises from activation of a MYB transcription factor. Plant Physiology 154:1470–1480.
  • Cole, K. 1959. Inheritance of male sterility in green sprouting broccoli. Canadian Journal of Genetics and Cytology 1:203–207.
  • Crisp, P. 1982. The use of an evolutionary scheme for cauliflowers in the screening of genetic resources. Euphytica 31:725–734.
  • Crisp, P., D.G.A. Walkey, E. Bellman, and E. Roberts. 1975. A mutation affecting curd colour in cauliflower. Euphytica 24:173–176.
  • Delourme, R. and F. Budar. 1999. Male sterility, p. 185–216. In: C. Gomez-Campo (ed.). Biology of Brassica coenospecies. Elsevier Science, Amsterdam.
  • Delourme, R., F. Eber, and M. Renard. 1995. Breeding double low restorer lines in radish cytoplasmic male sterility of rapeseed (Brassica napus L.). Proceedings 9th International Rapeseed Congress Vol. 1, 4–7 July 1995, Cambridge, U.K.
  • Dey, S.S., S.R. Sharma, R. Bhatia, P.R. Kumar, and C. Parkash. 2011a. Development and characterization of Ogura based improved CMS lines of cauliflower. Indian Journal of Genetics and Plant Breeding 71(1):37–42.
  • Dey, S.S., S.R. Sharma, R. Bhatia, C. Parkash, and R.N. Barwal. 2011b. Superior Ogura based CMS lines with better combining ability improve yield and earliness in cauliflower. Euphytica 182:187–197.
  • Dey, S.S., N. Singh, R. Bhatia, C. Parkash, and C. Chandel. 2014. Genetic combining ability and heterosis for important vitamins and antioxidant pigments in cauliflower. Euphytica 195:169–181.
  • Dias, J.S. and R. Ortiz. 2012. Transgenic vegetable crops: progress, potentials, and prospects. Plant Breeding Reviews 35:151–246.
  • Dias, J.S. and R. Ortiz. 2014. Advances in transgenic vegetable and fruit breeding. Agricultural Sciences 5:1448–1467.
  • Dickinson, H.G. 2000. Pollen–stigma interactions: so near yet so far. Trends in Genetics 16:373–376.
  • Dickson, M.H. 1985. Male sterility persistent white curd cauliflower NY7642A and its maintainer NY7642B. HortScience 20(5):957.
  • Dickson, M.H., C.Y. Lee, and A.E. Bramble. 1988. Orange-curd high carotene cauliflower inbreds, NY156, NY163, and NY165. HortScience 23(4):778–779.
  • Dodens, R. 1578. A Nievve Herball, or Historie of Plantes (translated by Henry Lyte). Andersen Horticultural Library and Wagensteen Historical Library of Biology and Medicine, London.
  • Fang, S., Q. Meng, J. Xu, Y. Jiao, L. Zhao, X. Zhang, F.H. Sarkar, M.L. Brown, A. Dritschilo, and E.M. Rosen. 2013. DIM (3,3′-diindolylmethane) confers protection against ionizing radiation by a unique mechanism. Proceedings of the National Academy of Sciences USA 110(46):18650–18655.
  • Forster, B.P., E. Heberle-Bors, K.J. Kasha, and A. Touraev. 2007. The resurgence of haploids in higher plants. Trends Plant Science 12:368–375.
  • Fujimoto, R., T. Sugimura, and T. Nishio. 2006. Gene conversion from SLG to SRK resulting in self-compatibility in Brassica rapa. Federation of European Biochemical Societies Letters 580:425–430.
  • Gill, H.S. 1993. Improvement of cole crops, p. 287–303. In: K.L. Chadha and G. Kalloo (eds.). Advances in horticulture Vol. 5—Vegetable crops: part I. Malhotra Publishing House, Delhi.
  • Gu, H.H., Z.Q. Zhao, X.G. Sheng, H.F. Yu, and J.S. Wang. 2014. Efficient doubled haploid production in microspore culture of loose-curd cauliflower. Euphytica 195:467–475.
  • Helm, J. 1963. Morphologisch-taxonomische Gliederung der Kultursippen von Brassica oleracea L. Kulturpflanze 11:92–210.
  • Heyn, F.W. 1976. Transfer of restorer genes from Raphanus to cytoplasmic male-sterile Brassica napus. Cruciferae Newsletter 1:15–16.
  • Home, F.R. 1954. Winter cauliflower: history and breeding in the south-west. Scientia Horticulturae 11:128–139.
  • Hoser-Krauze, J. 1987. Influence of cytoplasmic male sterility source on some characters of cauliflower. Genetica Polonica 28:101–108.
  • Hoser-Krauze, J. 1989. Comparison of suitability of sources of cytoplasmic male sterility and self-incompatibility for breeding F1 hybrids of cauliflower. Biuletyn Warzywniczy, Instytut Warzywnictwa, Skierniewice, Poland.
  • Hoser-Krauze, J., J. Gabryl, and J. Antosik. 1982. Influence of the cytoplasm of Indian self-incompatible lines on the earliness and quality of F1 cauliflower curds. Cruciferae Newsletter 7:12–15.
  • Howitt, C.A. and B.J. Pogson. 2006. Carotenoid accumulation and function in seeds and non-green tissues. Plant Cell and Environment 29:435–445.
  • Hyams, E. 1971. Plants in the service of man—10,000 years of domestication. Dent & Sons, London.
  • Iwano, M., H. Shiba, M. Funato, H. Shimosato, S. Takayama, and A. Isogai. 2003. Immuno-histochemical studies on translocation of pollen S-haplotype determinant in self-incompatibility of Brassica rapa. Plant and Cell Physiology 44:428–436.
  • Janssens, J., A. Reynaerts, C. Dickburt, and H. van Mellaert. 1992. Nuclear male sterility in vegetables: transformation and production of hybrid seed. Mededelingen van de Faculteit Landbouwwetenschappen Rijksuniversiteit Gent 57:1517–1519.
  • Jiafu, Y., R. Libing, and G. Honghui. 2012. Analysis of heterosis for agronomic traits in cauliflower at different environments. Acta Agriculturae Zhejiangensis 24(3):415–420.
  • Johnstone, K. 1963. Cornish cauliflower. Agriculture 70:216–219.
  • Jones, H.A. 1932. Vegetable breeding at the University of California. Proceedings of the American Society for Horticultural Science 29:572–581.
  • Jourdan, P.S., E.D. Earle, and M.A. Mutschler. 1989. Synthesis of male sterile, triazine resistant Brassica napus by somatic hybridization between cytoplasmic male sterile B. oleracea and atrazine resistant B. campestris. Theoretical and Applied Genetics 78:445–455.
  • Kaminski, M., H. Berniak, and P. Kaminski. 2012. Detection and identification of ‘Candidatus Phytoplasma Asteris’ in Brassica rapa subsp. pekinensis in Poland. Journal of Phytopathology 160(11–12):723–727.
  • Karpechenko, G.D. 1924. Hybrids of Raphanus sativus L. × Brassica oleracea L. Journal of Genetics 14:375–396.
  • Keller, W.A. and K.C. Armstrong. 1983. Production of haploids via anther culture in Brassica oleracea var. italica. Euphytica 32:151–159.
  • Kucera, V., V. Chytilova, M. Vyvadilova, and M. Klima. 2006. Hybrid breeding of cauliflower using self-incompatibility and CMS. Horticultural Science (Prague) 33(4):148–152.
  • Li, L., D.J. Paolillo, M.V. Parthasarathy, E.M. DiMuzio, and D.F. Garvin. 2001. A novel gene mutation that confers abnormal patterns of beta-carotene accumulation in cauliflower. Plant Journal 26:59–67.
  • Lichter, R. 1982. Induction of haploid plants from isolated pollen of Brassica napus L. Zeitschriff Pflanzenphysiology 105:427–434.
  • Lopez, A.B., J. van Eck, B. Conlin, D.J. Paolillo, J. O’Neill, and L. Li. 2008. Effect of the cauliflower Or transgene on carotenoid accumulation and chromoplast formation in transgenic potato tubers. Journal of Experimental Botany 59:213–223.
  • Lu, S., J. van Eck, X. Zhou, A.B. Lopez, D.M. O’Halloran, K.M. Cosman, B.J. Conlin, D.J. Paolillo, D.F. Garvin, J. Vrebalov, L.V. Kochian, H. Kupper, E.D. Earle, J. Cao, and L. Li. 2006. The cauliflower Or gene encodes a DnaJ cysteine-rich domain-containing protein that mediates high levels of beta-carotene accumulation. Plant Cell 18:3594–3605.
  • Maggioni, L. 2015. Domestication of Brassica oleracea L. PhD Diss., Faculty of Landscape Architecture, Horticulture and Crop Production Science, Department of Plant Breeding, Alnarp, Sweden.
  • Maggioni, L., R. von Bothmer, G. Poulsen, and F. Branca. 2010. Origin and domestication of cole crops (B. oleracea): linguistic and literary considerations. Economic Botany 64:109–123.
  • Mariani, C., M. DeBeuckeleer, J. Truettner, J. Leemans, and R.B. Goldberg. 1990. Induction of male sterility in plants by a chimaeric ribonuclease gene. Nature 347:737–741.
  • Mariani, C., V. Gossele, M. DeBeuckeleer, M. de Block., R.B. Goldberg, W. de Greef, and J. Leemans. 1992. A chimaeric ribonuclease-inhibitor gene restores fertility to male sterile plants. Nature 357:384–387.
  • McCollum, G.D. 1981. Induction of an alloplasmic male sterile Brassica oleracea by substituting cytoplasm from ‘Early Scarlet Globe’ Radish (R. sativus). Euphytica 30(3):855–859.
  • Metwali, E.M.R., M.P. Fuller, and A.J. Jellings. 2012. Agrobacterium mediated transformation of anti-stress genes into cauliflower—transformation and confirmation of stress tolerance. Australian Journal of Basic and Applied Science 6(5):31–39.
  • Nasrallah, J.B. 2000. Cell–cell signalling in the self-incompatibility response. Current Opinion in Plant Biology 3:368–373.
  • Nieuwhof, M. 1961. Male sterility in some cole crops. Euphytica 10:351–356.
  • Nieuwhof, M. 1969. Cole crops: botany, cultivation and utilization. Leonard Hill Ltd., London.
  • Nieuwhof, M. and F. Garretsen. 1961. The solidity of the cauliflower curd. Euphytica 10:301–306.
  • Nugent, G.D., S. Coyne, T.T. Nguyen, T.A. Kavanagh, and P.J. Dix. 2006. Nuclear and plastid transformation of Brassica oleracea var. botrytis (Cauliflower) using PEG mediated uptake of DNA into protoplasts. Plant Science 170:135–142.
  • Ogura, H. 1968. Studies on the new male-sterility in Japanese radish, with special reference to the utilization of this sterility towards the practical raising of hybrid seeds. Memories of the Faculty of Agriculture, Kagoshima University 6:36–78.
  • Oikawa, E., S. Takuno, A. Izumita, K. Sakamoto, H. Hanzawa, H. Kitashiba, and T. Nishio. 2011. Simple and efficient methods for S genotyping and S screening in genus Brassica by dot-blot analysis. Molecular Breeding 28:1–12.
  • Palaniswamy, P. and R.P. Bodnaryk. 1994. A wild Brassica from Sicily provides trichome-based resistance against flea beetles, Phyllotreta cruciferae (Goeze) (Coleoptera: Chrysomelidae). The Canadian Entomologist 126:1119–1130.
  • Park, B.J., Z.C. Liu, A. Kanno, and T. Kameya. 2005. Genetic improvement of Chinese cabbage for salt and drought tolerance by constitutive expression of a B. napus LEA gene. Plant Science 169:553–558.
  • Parkin, I.A.P., C. Koh, H. Tang, S.J. Robinson, S. Kagale, W.E. Clarke, C.D. Town, J. Nixon, V. Krishnakumar, S.L. Bidwell, F. Denoeud, H. Belcram, M.G. Links, J. Just, C. Clarke, T. Bender, T. Huebert, A.S. Mason, J.C. Pires, G. Barker, J. Moore, P.G. Walley, S. Manoli, J. Batley, D. Edwards, M.N. Nelson, X. Wang, A.H. Paterson, G. King, I. Bancroft, B. Chalhoub and A.G. Sharpe. 2014. Transcriptome and methylome profiling reveals relics of genome dominance in the mesopolyploid Brassica oleracea. Genome Biology 15(6):R77. doi: 10.1186/gb-2014-15-6-r77.
  • Pearson, O.H. 1972. Cytoplasmically inherited male sterility characters and flavor components from the species cross Brassica nigra (L) Koch × B. oleracea L. Journal of the American Society for Horticultural Science 97(3):397–402.
  • Pelgrom, K.T.B., C. Broekgaarden, R.E. Voorrips, N. Bas, R.G.F. Visser, and B. Vosman. 2015. Host plant resistance towards the cabbage whitefly in Brassica oleracea and its wild relatives. Euphytica 202:297–306.
  • Pelletier, G., C. Primard, F. Vedel, P. Chetrit, R. Remy, P. Rousselle, and M. Renard. 1983. Intergeneric cytoplasmic hybridization in Cruciferae by protoplast fusion. Molecular and General Genetics 191:244–250.
  • Pink, D.A.C., N.B. Kift, P.R. Ellis, S.J. McClement, J. Lynn, and G.M. Tatchell. 2003. Genetic control of resistance to the aphid Brevicoryne brassicae in the wild species Brassica fruticulosa. Plant Breeding 122:24–29.
  • Prakash, S., S.R. Bhat, C.F. Quiros, P.B. Kirti, and V.L. Chopra. 2009. Brassica and its close allies: cytogenetics and evolution. Plant Breeding Reviews 31:21–187.
  • Prakash, S., X.M. Wu, and S.R. Bhat. 2011. History, evolution, and domestication of Brassica crops. Plant Breeding Reviews 35:19–84.
  • Quiros, C.F. and M.W. Farnham. 2011. The genetics of Brassica oleracea, p. 261–289. In: R. Schmidt and I. Bancroft (eds.). Genetics and genomics of the Brassicaceae. Springer Science and Business Media, Berlin.
  • Ruffio-Chable, V., H. Bellis, and Y. Herve. 1993. A dominant gene for male sterility in cauliflower—phenotype expression, inheritance and use in F1 hybrid production. Euphytica 67:9–17.
  • Saha, P., P. Kalia, S. Humira, and T.R. Sharma. 2014. Molecular mapping of black rot resistance locus Xca1bo on chromosome 3 in Indian cauliflower. Plant Breeding 133(2):268–274.
  • Sakamoto, K., M. Kusaba, and T. Nishio. 1998. Polymorphism of the S-locus glycoprotein gene (SLG) and the S-locus related gene (SLR1) in Raphanus sativus L. and self-incompatible ornamental plants in the Brassicaceae. Molecular and General Genetics 258:397–403.Schopfer, C.R. and J.B. Nasrallah. 2000. Self-incompatibility—prospects for a novel putative peptide-signaling molecule. Plant Physiology 124:935–940.
  • Schopfer, C.R., M.E. Nasrallah, and J.B. Nasrallah. 1999. The male determinant of self-incompatibility in Brassica. Science 286:1697–1700.
  • Schulz, O.E. 1919. Cruciferae–Brassicaceae part I: Brassicinae and Raphaninae, p. 1–290. In: A. Engler (ed.). Das pflanzenreich. Wilhelm Engelmann, Leipzig, Germany.
  • Sharma, B.R., V. Swarup, and S.S. Chatterjee. 1972. Inheritance of resistance to black rot in cauliflower. Canadian Journal of Genetics and Cytology 14:363–370.
  • Sharma, R.P. 1998. Role of biotechnological options for vegetable breeding, p. 48–51. In: A.K. Chakraborty and N. Singh (eds.). Advanced technologies in improvement of vegetable crops including cole crops. Division of Vegetable Crops, Indian Council of Agricultural Research–Indian Agricultural Research Institute, Pusa, New Delhi.
  • Sharma, S.R., P.K. Singh, V. Chable, and S.K. Tripathi. 2004. A review in hybrid cauliflower development, p. 217–221. In: P.K. Singh, S.K. Dasgupta, and S.K. Tripathi (eds.). Hybrid vegetable development. The Haworth Press, New York.
  • Sharma, S.R., R. Singh, and H.S. Gill. 1999. Cauliflower—Pusa Sharad. Indian Horticulture 44:7–8.
  • Sidki S. 1962. Morphology of curd of cauliflower. American Journal of Botany 49: 290–297.
  • Singh, B., A. Singh, A.K. Pal, and M.K. Banerjee. 2002. Evaluation of self-incompatibility in Indian cauliflower. Vegetable Science 29(2):142–145.
  • Singh, B.K. 2007. Studies on variability and heterosis of important economic and nutritive traits in cabbage. Ph.D. Diss., Department of Vegetable Science, Indian Council of Agricultural Research–Indian Agricultural Research Institute, New Delhi.
  • Singh, B.K. 2015. Advances in genetic improvement of cauliflower, p. 101–115. In: S. Pandey, B. Singh, G.P. Mishra, and S.G. Karkute (eds.). Novel genomic tools and modern genetics and breeding approaches for vegetable crops improvement. TM No. 66, Indian Council of Agricultural Research–Indian Institute of Vegetable Research, Varanasi, Uttar Pradesh.
  • Singh, B.K. and J. Devi. 2015. Improved production technology for cole crops (Brassica oleracea), p. 102–119. In: N. Singh, S. Roy, P. Karmakar, S.N.S. Chaurasia, S. Gupta, and B. Singh (eds.). Improved production technologies in vegetable crops. TM No. 59, Indian Council of Agricultural Research–Indian Institute of Vegetable Research, Varanasi, Uttar Pradesh.
  • Singh, B.K., S.R. Sharma, and B. Singh. 2009. Combining ability for superoxide dismutase, peroxidase and catalase enzymes in cabbage head. Scientia Horticulturae 122(2):195–199.
  • Singh, B.K., S.R. Sharma, and B. Singh. 2010a. Antioxidant enzymes in cabbage: variability and inheritance of superoxide dismutase, peroxidase and catalase. Scientia Horticulturae 124(1):9–13.
  • Singh, B.K., S.R. Sharma, and B. Singh. 2010b. Heterosis for superoxide dismutase, peroxidase and catalase enzymes in the heads of cabbage. Journal of Genetics 89(2):217–221.
  • Singh, B.K. and B. Singh. 2016. Development of hybrids and hybrid seed production of cole crops, p. 112–125. In: B. Singh, S. Pandey, N. Singh, C. Manimurugan, J. Devi, and P.M. Singh (eds.). Principles and production techniques of hybrid seeds in vegetables. TM No. 67, Indian Council of Agricultural Research–Indian Institute of Vegetable Research, Varanasi, Uttar Pradesh.
  • Singh, D.P., V. Swarup, and S.S. Chatterjee. 1975. Genetical studies in Indian cauliflowers—heterosis and combining ability in maturity group I. Vegetable Science 2:1–7.
  • Singh, R., S.S. Chatterjee, V. Swarup, B.M. Trivedi, and B. Sen. 1993. Evolution of Pusa Shubhra—a resistant cauliflower to black rot and curd blight diseases. Indian Journal of Horticulture 50:370–372.
  • Singh, R., H.S. Gill, and S.S. Chatterjee. 1997. Breeding Pusa early synthetic cauliflower. Vegetable Science 24:23–25.
  • Smith, L.B. and G.J. King. 2000. The distribution of BoCAL-a alleles in Brassica oleracea is consistent with a genetic model for curd development and domestication of the cauliflower. Molecular Breeding 6:603–613.
  • Snogerup, S. 1980. The wild forms of the Brassica oleracea group (2n=18) and their possible relations to the cultivated ones, p. 121–132. In: S. Tsunoda, K. Hinata, and C. Gomez-Campo (eds.). Brassica crops and wild allies. Japan Scientific Societies Press, Tokyo.
  • Song, K.M., T.C. Osborn, and P.H. William. 1988. Brassica taxonomy based on nuclear restriction fragment length polymorphism—genome evolution of diploid and amphiploid species. Theoretical and Applied Genetics 75:784–794.
  • Song, K.M., T.C. Osborn, and P.H. William. 1990. Brassica taxonomy based on nuclear restriction fragment length polymorphisms—genome relationship in Brassica and related genera and the origin of B. oleracea and B. rapa. Theoretical and Applied Genetics 79:497–506.
  • Stein, J.C., B. Howlett, D.C. Boyes, M.E. Nasrallah, and J.B. Nasrallah. 1991. Molecular cloning of a putative receptor protein kinase gene encoded at the self-incompatibility locus of Brassica oleracea. Proceedings of the National Academy of Sciences USA 88:8816–8820.
  • Suzuki, T., M. Kusaba, M. Matsushita, K. Okazaki, and T. Nishio. 2000. Characterization of Brassica S-haplotypes lacking S-locus glycoprotein. Federation of European Biochemical Societies Letters 482:102–108.
  • Swarup, V. and S.S. Chatterjee. 1972. Origin and genetic improvement of Indian cauliflower. Economic Botany 26:381–393.
  • Swarup, V. and A.B. Pal. 1966. Gene effects and heterosis in cauliflower—I. Indian Journal of Genetics and Plant Breeding 26:269–281.
  • Takasaki, T., K. Hatakeyama, G. Suzuki, M. Watanabe, A. Isogai, and K. Hinata. 2000. The S receptor kinase determines self-incompatibility in Brassica stigma. Nature 403:913–916.
  • Takayama, S., H. Shimosato, H. Shiba, M. Funato, F.S. Che, M. Watanabe, M. Iwano, and A. Isogai. 2001. Direct ligand–receptor complex interaction controls Brassica self-incompatibility. Nature 413:534–538.
  • Tapsell, C.R. 1989. Breeding winter maturing cauliflower in southwest England. Journal of Horticultural Science 64:27–34.
  • Toriyama, K., J.C. Stein, M.E. Nasrallah, and J.B. Nasrallah. 1991. Transformation of Brassica oleracea with an S-locus gene from B. campestris changes the self-incompatibility phenotype. Theoretical and Applied Genetics 81:769–776.
  • U, N. 1935. Genome analysis in Brassica with special reference to the experimental formation of B. napus and peculiar mode of fertilization. Japanese Journal of Botany 7:389–452.
  • Van der Meer, Q.P. 1985. Male sterility in cole crop—a serial story. Cruciferae Newsletter 10:58–59.
  • Verma, V.K., A.K. Jha, and B.K. Singh. 2014. Meghalaya Local: a natural CMS based hybrid of cauliflower grown in Meghalaya. Vegetable Newsletter 1(1):6.
  • Vosman, B., K. Pelgrom, G. Sharma, R. Voorrips, C. Broekgaarden, J. Pritchard, S. May, S. Adobor, M. van Kaauwen, B. Janssen, W. van Workum, and B. Ford-Lloyd. 2015. Phenomics and genomics tools for facilitating Brassica crop improvement. Crop Wild Relative 10:12–14.
  • Wang, Q.B., W. Xu, Q.Z. Xue, and W.A. Su. 2010. Transgenic Brassica chinensis plants expressing a bacterial codA gene exhibit enhanced tolerance to extreme temperature and high salinity. Journal of Zhejiang University Science B 11(11):851–861.
  • Wang, Y., X. Li, J. Xu, Y. Xu, and L. Liu. 2011. Cultivar identification and genetic diversity analysis of cauliflower with molecular markers. Acta Horticulturae 918:315–322.
  • Watts, L.E. 1963. Investigations breeding I—studies on SI. Euphytica 12:330–340.
  • Watts, L.E. 1965. The inheritance of curding periods in early summer and autumn cauliflower. Euphytica 14:83–90.
  • Yamamoto, M. and T. Nishio. 2014. Commonalities and differences between Brassica and Arabidopsis self-incompatibility. Horticulture Research 1:1–5.
  • Zhao, J.L., H.L. Xu, Z. Zhu, and A.H. Liang. 2006. Transformation of modified cowpea trypsin inhibitor gene and antibacterial peptide gene in Brassica pekinensis protoplasts mediated by Agrobacterium tumefaciens. Euphytica 149:317–326.
  • Zhou, X., J.V. Eck, and L. Li. 2008. Use of the cauliflower Or gene for improving crop nutritional quality. Biotechnology Annual Review 14:171–190.

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