Abstract
Protoplast fusion technology has been utilized in many crops to generate allotetraploid somatic hybrids, and sometimes autotetraploids as a byproduct of the process. A brief history of this technology development is provided, along with a simple protocol developed for citrus, which can be easily adapted to other plants. Protoplast fusion has become a significant tool in ploidy manipulation that can be applied in various cultivar improvement schemes. In rare cases, a new somatic hybrid may have direct utility as an improved cultivar; however, the most important application of somatic hybridization is the building of novel germplasm as a source of elite breeding parents for various types of conventional crosses for both scion and rootstock improvement. Somatic hybridization is generating superior allotetraploid breeding parents for use in interploid crosses to generate seedless triploids. Seedlessness is a primary breeding objective for new fresh fruit citrus varieties, and several thousand triploid hybrids have been produced using somatic hybrids as the tetraploid parent. Protoplast fusion is also being utilized to produce somatic hybrids that combine complementary diploid rootstocks, which have shown good potential for tree size control. Tree size control has gained importance as a means of reducing harvesting costs, maximizing the efficiency of modern cold protection methodology, and facilitating the adaptation of new fruit production systems. Successful somatic hybridization in citrus rootstock improvement has enabled rootstock breeding at the tetraploid level via sexual hybridization, which can yield maximum genetic diversity in zygotic progeny upon which to impose selection for the many traits required in improved rootstock cultivars, including disease and insect resistance, broad adaptation, tree size control, and the ability to consistently produce high yields of quality fruit. Recent progress and successful examples of these applications are discussed. Finally, a discussion of the genetic potential of somatic hybrids as breeding parents, including meiotic behavior and inheritance is provided.
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References
Ananthakrishnan G, Calovic M, Serrano P, Grosser JW (2006) Production of additional allotetraploid somatic hybrids combining mandarins and sweet orange with pre-selected pummelos as potential candidates to replace sour orange rootstock. In Vitro Cell Dev Biol Plant 42:367–371
Bassene JB, Berti L, Costantino G, Carcouet E, Kamiri M, Tomi F, Dambier D, Ollitrault P, Froelicher Y (2009a) Inheritance of characters involved in fruit quality in a citrus interspecific allotetraploid somatic hybrid. J Agric Food Chem 57:5065–5070
Bassene JB, Froelicher Y, Dhuique-Mayer C, Mouhaya W, Ferrer RM, Ancillo G, Morillon R, Navarro L, Ollitrault P (2009b) Non-additive phenotypic and transcriptomic inheritance in a citrus allotetraploid somatic hybrid between C. reticulata and C. limon: the case of pulp carotenoid biosynthesis pathway. Plant Cell Rep 28:1689–1697
Bastia T, Scotti N, Cardi T (2001) Organelle DNA analysis of Solanum and Brassica somatic hybrids by PCR with universal primers. Theor Appl Genet 102:1265–1272
Bravo JE, Evans DA (1985) Protoplast fusion for crop improvement. Plant Breed Rev 3:193–218
Carlson PS, Smith H, Dearing RD (1972) Parasexual interspecific plant hybridization. Proc Natl Acad Sci USA 69:2292–2294
Chen CX, Grosser JW, Ćalović M, Serrano P, Pasquali G, Gmitter J, Gmitter FG Jr (2008) Verification of mandarin + pummelo somatic hybrids by EST-SSR marker analysis. J Am Soc Hortic Sci 133:1–7
Cocking EC (1960) Enzymatic degradation of cell wall for protoplast formation. Nature 187:927–929
Collonnier C, Fock I, Daunay MC, Servaes A, Vedel F, Siljak-Yakovlev S, Souvannavong V, Sihachakr D (2003) Somatic hybrids between Solanum melongena and S. sisymbrifolium as a useful source of resistance against bacterial and fungal wilts. Plant Sci 164:849–861
Dudits D, Fejér O, Hadlaczky G, Koncz C, Lázár G, Horváth G (1980) Intergeneric gene transfer mediated by protoplast fusion. Mol Gen Genet 179:283–288 (TC:83)
Escalante A, Imanishi S, Hossain M, Ohmido N, Fukui K (1998) RFLP analysis and genomic in situ hybridization (GISH) in somatic hybrids and their progeny between Lycopersicon esculentum and Solanum lycopersicoides. Theor Appl Genet 96:719–726
Fatta Del Bosco S, Tusa N, Conicella C (1999) Microsporogenesis in a Citrus interspecific tetraploid somatic hybrid and its fusion parents. Heredity 83:373–377
Fock I, Collonnier C, Purwito A, Luisetti J, Souvannavong V, Vedel F, Servaes A, Ambroise A, Kodja H, Ducreux G, Sihachakr D (2000) Resistance to bacterial wilt in somatic hybrids between Solanum tuberosum and Solanum phureja. Plant Sci 160:165–176
Frearson EM, Power JB, Cocking EC (1973) The isolation, culture and regeneration of Petunia leaf protoplasts. Dev Biol 33:1130–1137
Gleba YY, Sytnik KM (1984) Protoplast fusion: genetic engineering in higher plants. Springer, Berlin
Gmitter FG Jr, Grosser JW (1993) Ploidy level manipulation for scion cultivar development. Proceedings international mandarin festival, October 29–31, 1993, Azuma-cho, Kagoshima-ken, Japan
Gmitter FG Jr, Grosser JW, Castle WS, Moore GA (2007) A comprehensive citrus genetic improvement program. In: Kahn IH (ed) Citrus genetics, breeding and biotechnology, vol 2. CAB International, Wallingford, pp 9–18
Grosser JW (1994) Observations and suggestions for improving somatic hybridization by plant protoplast isolation, fusion, and culture. Hortscience 29:1241–1243
Grosser JW, Chandler JL (2003) New Citrus rootstocks via protoplast fusion. Acta Hort 622:491–497
Grosser JW, Gmitter FG Jr (2009) In vitro breeding provides new and unique opportunities for conventional breeding. Acta Hortic 829:65–72
Grosser JW, Gmitter FG Jr (1990) Protoplast fusion and citrus improvement, Chapter 10. In Plant Breeding Reviews 8. Timber Press Inc, Portland, pp 339–374
Grosser JW, Gmitter FG Jr (2005) 2004 SIVB Congress symposium proceedings thinking outside the cell—applications of somatic hybridization and cybridization in crop improvement, with citrus as a model. In Vitro Cell Dev Plant 41:220–225
Grosser JW, Gmitter FG Jr, Castle WS, Chandler JL (1995) Production and evaluation of citrus somatic hybrid rootstocks: progress report. Proc Fla State Hortic Soc 108:140–143
Grosser JW, Mourao FAA, Gmitter FG Jr, Louzada ES, Jiang J, Baergen K, Quiros A, Cabasson C, Schell JL, Chandler JL (1996) Allotetraploid hybrids between Citrus and seven related genera produced by somatic hybridization. Theor Appl Genet 92:577–582
Grosser JW, Ollitrault P, Olivares-Fuster O (2000) Invited review—somatic hybridization in citrus: an effective tool to facilitate variety improvement. In Vitro Cell Dev Biol Plant 36:434–449
Grosser JW, Graham JH, McCoy CW, Hoyte A, Rubio HM, Bright DB, Chandler JL (2003) Development of “tetrazyg” rootstocks tolerant of the diaprepes/phytophthora complex under greenhouse conditions. Proc Fla State Hortic Soc 116:262–267
Grosser JW, Ananthakrishnan G, Ćalović M, Serrano P, Chandler JL, Gmitter FG Jr, Guo WW (2006) Applications of somatic hybridization and cybridization in scion and rootstock improvement with focus on citrus. Proc IS Biotechnol Temp, Fruit Crops and Tree Species. Acta Hortic 738:73–82
Grosser JW, Graham JH, Hoyte A, Rubio HM, Bright DB, Gmitter J, Chen CX, Gmitter FG Jr (2007) Continued development of rootstocks tolerant of the phytophthora-diaprepes complex via greenhouse screening. Proc Fla State Hortic Soc 120:103–109
Grosser JW, An HJ, Calovic M, Lee D, Chen C, Vasconcellos M, Gmitter FG Jr (2010) Production of new allotetraploid and autotetraploid citrus breeding parents: focus on zipperskin mandarins. HortScience 45:1–4
Guo WW, Deng XX (1998) Somatic hybrid plantlets regeneration between Citrus and its wild relative, Murraya paniculata via protoplast electrofusion. Plant Cell Rep 18:287–300
Guo WW, Grosser JW (2005) Somatic hybrid vigor in citrus: direct evidence from protoplast fusion of an embryogenic callus line with a transgenic mesophyll parent expressing the GFP gene. Plant Sci 168:1541–1545
Guo WW, Cai XD, Grosser JW (2004a) Somatic cell cybrids and hybrids in plant improvement. In: Daniell H, Chase CD (eds) Molecular biology and biotechnology of plant organelles, vol 24. Kluwer, Dordrecht, pp 635–659
Guo WW, Prasad D, Serrano P, Gmitter FG Jr, Grosser JW (2004b) Citrus somatic hybridization with potential for direct tetraploid scion cultivar development. J Hortic Sci Biotech 79:400–405
Johnson AAT, Veilleux RE (2001) Somatic hybridization and application in plant breeding. Plant Breed Rev 20:167–225
Kao KN, Michayluk MR (1975) Nutritional requirements for growth of Vicia hajastana cells and protoplasts at a very low population density in liquid media. Planta 126:105–110
Khan IA, Grosser JW (2004) Regeneration and characterization of somatic hybrid plants of Citrus sinensis (sweet orange) and Citrus micrantha, a progenitor species of lime. Euphytica 137:271–278
Kobayashi S, Ohgawara T, Fujiwara K, Oiyama I (1991) Analysis of cytoplasmic genomes in somatic hybrids between navel orange (Citrus sinensis Osb.) and “Murcott tangor”. Theor Appl Genet 82:6–10
Moreira CD, Chase CD, Gmitter FG, Grosser JW (2000) Inheritance of organelle genomes in citrus somatic cybrids. Mol Breed 6:401–405
Murashige T, Tucker DPH (1969) Growth factor requirements for citrus tissue culture. In: Proceedings of first international citrus symposium, vol 3, pp 1155–1161
Orczyk W, Przetakiewicz J, Nadolska-Orczyk A (2003) Somatic hybrids of Solanum tuberosum: application to genetics and breeding. Plant Cell Tissue Org Cult 73:245–256
Reforgiato Recupero G, Russo G, Recupero S (2005) New promising Citrus triploid hybrids selected from crosses between monoembryonic diploid female and tetraploid male parents. HortScience 40:516–520
Skarzhinskaya M, Landgren M, Glimelius K (1996) Production of intertribal somatic hybrids between Brassica napus L. and Lesquerella fendleri (Gray) Wats. Theor Appl Genet 93:1242–1250
Stift M, Berenos C, Kuperus P, van Tienderen PH (2008) Segregation models for disomic, tetrasomic and intermediate inheritance in tetraploids: a general procedure applied to Rorippa (yellow cress) microsatellite data. Genetics 179:2113–2123
Szcerbakowa A, Bottowicz D, Wilgat B (2003) Interspecific somatic hybrfids of Solanum bulbocastanum (+) and S. tuberosum H-8105. Physiol Plant 25:365–373
Viloria Z, Grosser JW (2004) Acid citrus fruit improvement via interploid hybridization using allotetraploid somatic hybrid and autotetraploid breeding parents. J Am Soc Hortic Sci 130:392–402
Viloria Z, Droulliard DL, Graham JH, Grosser JW (2004) A stomatal inoculation method for screening triploid hybrids of ‘Lakeland’ limequat for resistance to Asiatic Citrus Canker (Xanthomonas axonopodis pv.citri). Plant Dis 88:1056–1060
Viloria Z, Grosser JW, Bracho B (2005) Immature embryo culture and seedling development of acid citrus fruit dereived from interploid hybridization. Plant Cell Tissue Organ Cult 82:159–167
Waara S, Glimelius K (1995) The potential of somatic hybridization in crop breeding. Euphytica 85:217–233
Wang YP, Sonntag K, Rudloff E (2003) Development of rapeseed with high erucic acid content by asymmetric somatic hybridization between Brassica napus and Crambe abyssinica. Theor Appl Genet 106:1147–1155
Witjaksono, Litz RE, Grosser JW (1998) Isolation, culture and regeneration of avocado (Persea americana Mill.) protoplasts. Plant Cell Rep 18:235–242
Xu CH, Xia GM, Zhi DY, Xiang FN, Chen HM (2003) Integration of maize nuclear and mitochondrial DNA into the wheat genome through somatic hybridization. Plant Sci 165:1001–1008
Xu X, Lu J, Dalling D, Jittayasothorn Y, Grosser JW (2007) Isolation and culture of grape protoplasts from embryogenic suspension cultures and leaves of Vitis vinifera and Vitis rotundifolia. Acta Hortic 738:787–790
Acknowledgments
Much of the research reported herein was supported by grants from the Florida Citrus Production Research Advisory Council, NVDMC (The New Varieties Development and Management Corporation through the Florida Dept. of Citrus) USDA/CSREES, and by the Florida Agricultural Experiment Station.
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Grosser, J.W., Gmitter, F.G. Protoplast fusion for production of tetraploids and triploids: applications for scion and rootstock breeding in citrus. Plant Cell Tiss Organ Cult 104, 343–357 (2011). https://doi.org/10.1007/s11240-010-9823-4
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DOI: https://doi.org/10.1007/s11240-010-9823-4