Abstract
Use of male sterile plants has become an important technique in heterosis breeding,which simplify and reduce the cost of hybrid seed production. Cruciferous vegetables are very important crops in the world, and two types of male sterility have been mainly explored in cruciferous vegetables (1) nuclear male sterility, this kind of male sterility is controlled by the dominant or recessive nuclear genes, and its sterility is easy to be restored, but difficult to maintained; (2) cytoplasmic male sterility, in which male sterility is controlled by a particular cytoplasmic male sterile gene (S). Cytoplasmic male sterility is easy to be maintained but complicated to be recovered. Male sterility can be produced by different ways; natural mutation, wide hybridization, and protoplast fusion. Ogu CMS and Polma CMS were found in radish and B. napus respectively by natural mutations. Among the male sterile materials, most of them were obtained by the wide hybridization among varieties, species and genera. CMS cabbage was produced by the fusion of leaf protoplasts from fertile cabbage and CMS Ogura broccoli lines. The Pol CMS had been transferred from CMS B. napus to Chinese cabbage. Chinese breeders produced many cabbage varieties after introduced male sterility from other materials. A new cabbage hybrid varieties Zhonggan no.16, 17 and 18 were produced by hybridization of dominant genic male sterility line and inbred line in China. A stable CMS line of tuber mustard was developed by distant crosses and subsequent backcrosses and induced 100 % male sterility. To date, extensive efforts have been made on identification of male sterility systems and the possibilities of development of hybrids in application.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Anand IJ, Rawat DS (1978) Male sterility in India mustard. Indian J Genet Plant Breed 39(3):412–418
Arumugam N, Mukhopadhyay A, Gupta V, Pental D, Pradhan AK (1996) Synthesis of hexaploid (AABBCC) somatic hybrids:a bridging material for transfer of ‘tour’ cytoplasmic male sterility to diVerent Brassica species. Theor Appl Genet 92:762–768
Bajaj YPS (1994) Somatic hybridization a rich source of genetic variability. Biotechnol Agric For 27:3–32
Banga S (1986) Foreign agricultural. Oil Crop 2:14–16
Bannerot H, Boulidard L, Cauderon Y, Tempe J (1974) Transfer of cytoplasmic male sterility from Raphanus sativus to Brassica oleracea. In: Proceedings of Eucarpia Meeting Cruciferae, Dundee, pp 52–54
Bannerot H, Boulidard L, Chupeau Y (1977) Unexpected difficulties met with the radish cytoplasm in Brassica oleracea. Eucarpia Cruciferae Newsl 2:16
Bhat SR, Kumar P, Prakash S (2008) An improved cytoplasmic male sterile (Diplotaxis berthautii) Brassica juncea: identification of restorer and molecular characterization. Euphytica 159:145–152
Bhat SR, Vijayan P, Ashutosh DKK, Prakash S (2006) Diplotaxis erucoides-induced cytoplasmic male sterility in Brassica juncea is rescued by the Moricandia arvensis restorer: genetic and molecular analyses. Plant Breed 125:150–155
Cao SC, Li SJ (1980) Breeding and utilization of the Chinese cabbage ‘Aijiaohuang’ genic male-Âsterile AB line. J Nanjing Agric Univ 1:59–67 (in Chinese)
Chen FX, Hu BC, Li C, Li QS, Chen WS, Zhang ML (1998) Genetic studies on GMS in Brassica napus L: I. Inheritance of recessive GMS line 9012A. Acta Agron Sin 24:431–438
Chen FX, Hu BC, Li QS (1993) Discovery and study of genic male sterility (GMS) material 9012A in Brassica napus L. Acta Agric Univ Pekin 19:57–61 (in Chinese)
Chen WH, Fang SG, Zeng XL (2000) Breeding of Chinese cabbage male sterile line 98-2 with nucleo-cytoplasmic interactive type. Fujian J Agric Sci 15(4):22–25 (in Chinese)
Chen ZJ, Zhang MF, Wang BL, Dong W, Huang S (1995) A study on fertility and agronomic characters of CMS lines for tuber mustard. Acta Hortic Sin 1:40–46 (in Chinese)
Chiang MS, Crete R (1987) Cytoplasmic male sterility in Brassrca oleracea induced by B. napus cytoplasm-female fertility and restoration of male fertility. Can J Plant Sci 672:891–897
Correns C (1906) Die Verenbung der Geschlectsformen bei den gynodiocischen Pflanzer. Ber Dtsch Bot Ges 24:459–474
Duvick DN (1959) The Use of Cytoplasmic male-sterility in hybrid seed production. Econ Bot 13(3):167–195
Edwardson JR (1970) Cytoplasmic male sterility. Bot Rev 36:341–420
Evans DA, Bravo JE (1983) Protoplast fusion. In: Evans DA, Sharp WR, Ammirato PV, Yamada Y (eds) Handbook of plant cell culture, vol 1. Macmillan, New York, pp 291–321
Fan Z, Stefansson BR, Sernyk JL (1986) Maintainers and restorers for three male-sterility – Âinducing cytoplasms in rape (Brassica napus L.). Can J Plant Sci 66:229–234
Fang ZY, Sun PT, Liu YM (1997) A male sterile line with dominant gene (Ms) in cabbage (Brassica oleracea var. capitata) and its utilization for hybrid seed production. Euphytica 97:265–268
Fang ZY, Sun PT, Liu YM (2001) Investigation of different types of male sterility and application of dominant male sterility in cabbage. China Veg 1:6–10 (in Chinese)
Feher A, Dudits D (1994) Plant protoplasts and cell fusion and direct DNA uptake: culture and regeneration systems. In: Vasil KI, Thorpe TA (eds.), PlantCell and tissue culture, Dordrecht, The Netherlands, Kluwer pp 71–118
Feng H, Wei Y, Ji S, Jin G, Jin J, Dong W (1996) Multiple allele model for genic male sterility in Chinese cabbage. Acta Hortic 467:133–142 (in Chinese)
Feng H, Wei YT, Zhang SN (1995) Inheritance of and utilization model for genic male sterility in Chinese cabbage (Brassica pekinensis Rupr.). Acta Hortic 402:133–140
Fu TD (1981) Production and research of rapeseed in the People’s Republic of China. Eucarpia Cruciferae Newsl 6:6–7
Fu YD, Yang GS (1990) Study on Polima cytoplasmic male sterility of Brassica napus L. and its utilization. Crop Res 4(3):9–12 (in Chinese)
Gamborg OL, Shylak JP, Shahin EA (1981) Isolation, fusion, and culture of plant protoplasts. In: Thorpe TA (ed.), Plant tissue culture: methods and applications in agriculture. Academic, New York, pp 115–153
Gerstel DU (1980) Cytoplasmic male sterility in Nicotiana (a review). NC Agric Exp Sm Tech Bull 263:1–31
Gleba YY, Shlumukov LR (1990) Somatic hybridization and cybridization. In: Bhojwani SS (ed) Plant tissue culture: applications and limitations, vol 19, Development of crop science. Elsevier, Amsterdam, pp 316–344
Grun P (1976) Cytoplasmic genetics and evolution. Columbia University Press, New York
Hayes HK, Jones DF (1916) First generation crosses in cucumber. Repub Conf Agric Exp Stat 5:319–322
He QW, Shi HL (1987) Studies on the breeding and inheritance of male sterile line of Chinese radish. Sci Agric Sin 20(2):26–33
Hinata K, Konno N (1979) Studies on a male-sterile strain having the Brassica campestris nucleus and the Diplotaxismuralis cytoplasm I. On the breeding procedures and some characteristics of the male sterile strain. Jpn J Breed 29:305–311
Hou GZ, Wang H, Zhang RM (1990) Genetic study on genic male sterility (GMS) 117A in Brassica napus. Chin J Oil Crop Sci 2:7–10 (in Chinese)
http://ingenira.hubpages.com/hub/Cruciferous-Vegetables-Cancer-Prevention-and-Cancer-Fight-Veggies
Huang L, Cao JS, Ye WZ, Liu TT, Jiang L, Ye YQ (2008) Transcriptional differences between the male-Âsterile mutant bcms and wild-type Brassica campestrisssp. chinensis reveal genes related to pollen development. Plant Biol 10:342–355
Huang L, Ye WZ, Liu TT, Cao JS (2009) Characterization of the male-sterile line Bcajh97-01A/B and identification of candidate genes for genic male sterility in Chinese cabbage-pak-choi. J Amer Soc Hortic Sci 134(6):632–640
Ilcheva V, San LH (1997) Hybridationz somatiques chez le gendreNicottana: revue bibligraphique. Annals du Tabac 2(9):19–37 (in French)
James AB, Hong Y, Sivanandan C, Daniel V, Reiner AV (2010) Heterosis. Plant Cell 22:2105–2112
Jourdan PS, Earle ED, Mutscher MA (1989a) Atrazine-resisrant cauliflower obtained by somatic hybridization between Brassica oleracea and ATR-B. napus. Theor Appl Genet 78:271–279
Jourdan PS, Earle ED, Mutscher MA (1989b) Synthesis of male-sterile, triazine resistant Brassieanapus by somatic hybridization between cytoplasmic male-sterile B. oleracea and atrazine-resistant B. eampestris. Theor Appl Genet 78:445–455
Jourdan PS, Earle ED, Mutschler MA (1990) Improved protoplast culture and stability of cytoplasmic traits in plants regenerated from leaf protoplasts of cauliflower (Brassica oleracea ssp. botrytis). Plant Cell Tiss Org Cult 21:227–236
Ke GL, Zhao ZY, Song YZ (1992) The development of allo-cytoplasmic male sterility in Chinese cabbage and its utilization. Acta Hortic Sin 19(4):333–340 (in Chinese)
Kumashiro T, Asahi T, Komari T (1988) A new source of cytoplasmic male sterile tobacco obtained by fusion between N. tabacum and Xirradiated N. afrncana protoplasts. Plant Sci 55:247–254
Lal R, Lal S (1990) Crop improvement using biotechnology. CRC Press, Boca Raton
Laser KD, Lersten NR (1972) Anatomy and cytology of microsporogenesis in cytoplasmic male sterile angiosperms. Bot Rev 38:425–454
Le-Clercq P (1983) Etude de diverscasdesterilite male cytoplasmique chez Ietoumesol (Helianthus spp.). Agron Sci Prod Veg Environ 3:185–187
Li DR (1986) The successful development and largely spreading of the male sterile lines, maintenance lines and restored lines of Brassica napus. Sci Agric Sin 19(4):94 (in Chinese)
Li SL, Zhou XR, Zhou ZJ (1990) Inheritance of genetic male sterility (GMS) and its utilization in rape (Brassica napus L.). Crop Breed Cultivation Res Inst; Shanghai Acad Agric Sci 4(3):321–322 (in Chinese)
Li XO, Sun RF, Wu FY, Si JG, Niu XK (1995) In vitro propagation of Chinese cabbage for seed production. Acta Hortic 402:306–312 (in Chinese)
Liu YM, Fang ZY, Sun PT (2002) The main way to obtain the male sterility in Cruciferous crop and its utilization. China Veg 2:52–55 (in Chinese)
Liu Z, Guan C, Zhao F, Chen S (2005) Inheritance and mapping of a restorer gene for the rapeseed cytoplasmic male sterile line 681A. Plant Breed 124:5–8
Mathias R (1985) Transfer of cytoplasmic male sterility from brown mustard (Brassica juncea (L.) Coss.) into rapeseed (Brassica napus L.). Z PXanzenzüchtg 95:371–374
Menczel L, Morgan A, Brown S, Maliga P (1987) Fusion-mediated combination of Ogura-type cytoplasmic male sterility with Brassica napus plastids using X-irradiated CMS protoplasts. Plant Cell Rep 6:98–101
Menczel L, Nagy F, Lazar G, Maliga P (1983) Transfer of cytoplasmic male sterility by selection of streptomycin resistance after protoplast fusion in Nicotiana. Mol Gen Genet 189:365–369
Nikova V, Zagorska N, Pundeva R (1991) Development of four tobacco cytoplasmic male sterile sources using in vitro techniques. Plant Cell Tiss Organ Cult 27:289–295
Niu XK, Wu FY, Zhong HH, Li XS (1980) The selection and utilization of Chinese cabbage (B. pekineensis) of male sterile AB line. Acta Hortic Sin 2:25–32
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. Mem Fac Agric Kagoshima Univ 6:39–78
Pelletier G (1993) Somatic hybridization. Plant Breed 93–106
Pelletier G, Primard C, Vedel F, Chetrit P, Remy R, Rousselle RM (1983) Intergeneric cytoplasmic hybridization in Cruciferae by protoplast fusion. Mol Gen Genet 191:244–250
Pradhan AK, Mukhopadhyay A, Pental D (1991) IdentiWcation of the putative cytoplasmic donor of a CMS system in Brassica juncea. Plant Breed 106:204–208
Prakash S, Ahuja I, Upreti HC, Dinesh Kumar V, Bhat SR, Kirti PB, Chopra VL (2001) Expression of male sterility in alloplasmic Brassica juncea with Erucastrum canariense cytoplasm and the development of a fertility restoration system. Plant Breed 120:479–482
Prakash S, Bhat SR, Quiros CF, Kirti PB, Chopra VL (2009) Brassica and its close allies: cytogenetics and evolution. Plant Breed Rev 31:21–187
Prakash S, Chopra VL (1990) Male sterility caused by cytoplasm of Brassica oxyrrhina in B. campestris and B. juncea. Theor Appl Genet 79:285–287
Prakash S, Kirti PB, Bhat SR, Gaikwad K, Dinesh Kumar V, Chopra VL (1998) A Moricandia arvensis-based cytoplasmic male sterility and fertility restoration system in Brassica juncea. Theor Appl Genet 97:488–492
Rao GV, Batra-Sarup V, Prakash S, Shivanna KR (1994) Development of a new cytoplasmic male-Âsterile system in Brassica juncea through wide hybridization. Plant Breed 112:171–174
Röbbelen G (1991) Citation at the occasion of presenting the GCIRC Superior Scientist Award to FU Tingdong. In: Proceedings of eighth international rapeseed congress, vol 1. Sasktoon, pp 2–5
Ruffio-Chable V, Bellis H, Herve Y (1993) A dominant gene for male sterility in cauliflower (Brassica oleracea var. botrytis): phenotype expression, inheritance, and use in F1 hybrid production. Euphytica 67:9–17
Sakai T, Imamura J (1990) Intergeneric transfer of cytoplasmic male sterility between Raphanussativus (cms line) and Brassica napus through cytoplast-protoplast fusion. Theor Appl Genet 80:421–427
Shi HQ, Gong RF, Zhuang LL (1991) Studies on the utilization of heterosis in mustard (Brassica Junces). Acta Agron Sin 1:32–41 (in Chinese)
Shiga T, Baba S (1971) Cytoplasmic male sterility in rape plants (Brassica napus L.). Jpn J Breed 21:16–17
Shiga T, Baba S (1973) Cytoplasmic male sterility in oilseed rape, Brassica napus L., and its utilization to breeding. Jpn J Breed 23:187–197
Shull GH (1908) The Composition of Field Maize. Rep Am Breed Assoc 4:296–301
Sigareva MA, Earle ED (1997) Direct transfer of a cold-tolerant Ogura male-sterile cytoplasm into cabbage (Brassica oleracea ssp. capitata) via protoplast fusion. Theor Appl Genet 94:213–220
Sodhi YS, Chandra A, Verma JK, Arumugam N, Mukhopadhyay A, Gupta V, Pental D, Pradhan AK (2006) A new cytoplasmic male sterility system for hybrid seed production in Indian oilseed mustard Brassica juncea. Theor Appl Genet 114:93–99
Stiewe G, Röbbelen G (1994) Establishing cytoplasmic male sterility in Brassica napus by Âmitochondrial recombination with B. tournefortii. Plant Breed 113:294–304
Thompson KF (1972) Cytoplasmic male sterility in oil-seed rape plants. Heredity 29:253–257
Van Der Meer QP (1987) Chromosomal monogenic dominant male sterility in Chinese Cabbage (Brassica rapa subsp. Pekinensis (Lour.) Hanelt). Euphytica 36:927–931
Waiters TW, Mutschler MA, Earle ED (1992) Protoplast fusion-derived Ogura male sterile cauliflower with cold tolerance. Plant Cell Rep 10:624–628
Wan Z, Jing B, Tu J, Ma C, Shen J, Yi B, Wen J, Hang T, Wang X, Fu T (2008) Genetic characterization of a new cytoplasmic male sterility system (hau) in Brassica juncea and its transfer to B. napus. Theor Appl Genet 116:355–362
Wang XJ (2000) Vegetable breeding (each discussion). Chinese Agriculture, Beijing
Wei YT, Feng H, Zhang SN (1992) The inheritance of gene male sterility in Chinese cabbage (Brassica pekinensis). J Shenyang Agric Univ 23:260–266
Wen FY, Zhang B, Liu XH, Wang YL, Song LJ, Zhao B (2003) The research on genetic model of nuclear male sterile character in Qingmaye type of Chinese cabbage. Hua Bei J Agric Sci 18(4):42–45 (in Chinese)
Yang GS, Fu TD, Brown GG (1998) The genetic classiWcation of cytoplasmic male sterility systems in Brassica napus L. Sci Agric Sin 31:27–31
Yang LM, Fang ZY, Liu YM, Wang XW, Zhuang M, Zhang YY, Sun PT (2004) Zhonggan 18 a new cabbage hybrid variety with the hybridization of dominant male sterile line and inbred line. Acta Hortic Sin 34(6):837–837 (in Chinese)
Yu X, Xiao Q, Cao J, Chen Z, Hirata Y (2009) Development of two new molecular markers specific to cytoplasmic male sterility in tuber mustard (Brassica juncea var. tumidaTsen et Lee). Euphytica 166:367–378
Zhang SF, Song ZZ, Zhao XY (1990) Breeding of interactive genic male sterile line in Chinese cabbage and utilization model. Acta Hortic Sin 17(2):117–125 (in Chinese)
Zhu P, Wei Y (2006) Studies on interspecific cross compatipility between Ogura Brassica campestrisssp. Pekinensis and B. oleracea var. acephala. Acta Hortic Sin 33:1090–1092
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2013 Springer Science+Business Media, LLC
About this chapter
Cite this chapter
Ghani, M.A., Zhang, L., Li, J., Liu, B., Chen, L. (2013). Hybrid Technology in Cruciferous Vegetables. In: Gupta, S. (eds) Biotechnology of Crucifers. Springer, New York, NY. https://doi.org/10.1007/978-1-4614-7795-2_11
Download citation
DOI: https://doi.org/10.1007/978-1-4614-7795-2_11
Published:
Publisher Name: Springer, New York, NY
Print ISBN: 978-1-4614-7794-5
Online ISBN: 978-1-4614-7795-2
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)