Summary
New interspecific hybrids between alfalfa (Medicago sativa L.) and several perennial Medicago species were obtained by embryo rescue techniques. The methodology, designated ovule-embryo culture, involved preculturing the fertilized ovule (10 to 20 days post-pollination) for a period of six to 12 days followed by excision and direct culture of the embryo. Placement of the hybrid embryo directly onto culture medium without the interim ovule culture was unsuccessful. Ovule culture to germination without removing the embryo also was unsuccessful. Ovule-embryo culture was essential for recovering interspecific hybrids between diploid alfalfa (2n=2x=16) and the following diploid (2n=2x=16) species: M. hybrida Traut., M. marina L., M. papillosa Boiss., M. rhodopea Velen. and M. rupestris M.B. In addition, trispecies hybrids between M. sativa x M. dzhawakhetica Bordz. F1 hybrids (2n=3x=24) and either M. cancellata M.B. (2n=6x=48) or M. saxatilis M.B. (2n=6x=48) were obtained from ovuleembryo culture. Media manipulations using M. sativa x M. rupestris F1 and first backcross generation embryos demonstrated the optimum concentration of 12.5 mM NH4 + for successful embryo rescue; ammonium salt formulation (whether chloride, nitrate or sulfate) was not critical. From a few thousand crosses, hybrids between M. sativa and either M. rhodopea or M. rupestris were recovered relatively efficiently with 157 and 66 hybrids, respectively. However, only 13 hybrids between M. sativa and M. papillosa were obtained from more than 2,000 crosses, and just two hybrids each have been recovered from the combinations M. sativa x M. hybrida and M. sativa x M. marina from 2,000 to 3,000 crosses. The predominant chromosome number between diploid alfalfa and the other diploid perennial species was 2n=2x=16. Morphology of the hybrids was generally intermediate. Electrophoretic analysis of the F1 hybrids and parental clones on uniform or gradient polyacrylamide gels demonstrated that peroxidase phenotypes could be used to confirm hybridity. For all interspecific combinations there was at least one peroxidase isozyme unique to the wild species that was present in the F1 interspecific hybrid.
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References
Bajaj YPS, Kumar P, Singh MM, Labana KS (1982) Interspecific hybridization in the genus Arachis through embryo culture. Euphytica 31:365–370
Barnes DK, Bingham ET, Murphy RP, Hunt OJ, Beard DF, Skrdla WH, Teuber LR (1977) Alfalfa germplasm in the United States: genetic vulnerability, use, improvement and maintenance. USDA Agric Res Serv Bull 1571
Barnes DK, Ratcliffe RH (1969) Evaluation of annual species of Medicago as sources of alfalfa weevil resistance. Crop Sci 9:640–642
Borges OL, Stanford EH, Webster RK (1976) Sources and inheritance of resistance to Stemphyllium leafspot of alfalfa. Crop Sci 16:458–461
Busch LV, Smith E (1981) Susceptibility of Ontario-grown alfalfa cultivars and certain Medicago species to Verticillium albo-atrum. Can J Plant Pathol 3:169–172
Clement WM Jr (1963) Chromosome relationships in a diploid hybrid between Medicago sativa L. and M. dzhawakhetica Bordz. Can J Genet Cytol 5:427–432
Collins GB, Taylor NL, DeVerna JW (1984) In vitro approaches to interspecific hybridization and chromosome manipulation in crop plants. In: Gustafson JP (ed) Gene manipulation in plant improvement. Plenum Press, New York London, pp 323–383
deLautour G, Jones WT, Ross MD (1978) Production of interspecific hybrids in Lotus aided by endosperm transplants. N Z J Bot 16:61–68
Elgin JH Jr, McMurtrey JE III, Schaeffer GW (1977) Attempted interspecific hybridization of Medicago scutellata and M. sativa. Agron Abstr 69:54
Elgin JH Jr, Ostazeski SA (1982) Evaluation of selected alfalfa cultivars and related Medicago species for resistance to Race 1 and Race 2 anthracnose. Crop Sci 22:39–42
Fridriksson S, Bolton JL (1963 a) Development of the embryo of Medicago sativa L. after normal fertilization and after pollination by other species of Medicago. Can J Bot 41:23–33
Fridriksson S, Bolton JL (1963 b) Preliminary report on the culture of alfalfa embryos. Can J Bot 41:439–440
Gillies CB (1972) Pachytene chromosomes of perennial Medicago species. 3. Unique karyotypes of M. hybrida Trautv. and M. suffruticosa Ramond. Hereditas 72:303–310
Ignasiak T, Lesins K (1975) Carotenoids in petals of perennial Medicago species. Biochem Syst Ecol 2:177–180
Lesins K (1961) Interspecific crosses involving alfalfa. 1. Medicago dzhawakhetica (Bordz) Vass. x M. sativa L. and its peculiarities. Can J Genet Cytol 3:135–152
Lesins K (1970) Interspecific crosses involving alfalfa. 5. Medicago saxalilis x M. sativa with reference to M. cancellata and M. rhodopea. Can J Genet Cytol 12:80–86
Lesins K (1972) interspecific crosses involving alfalfa. 7. Medicago sativa x M. rhodopea. Can J Genet Cytol 14:221 -226
Lesins K, Lesins I (1979) Genus Medicago (Leguminosae): a taxogenetic study. Dr W Junk, The Hague, The Netherlands
McCoy TJ (1982) The inheritance of 2n pollen formation in diploid alfalfa Medicago sativa. Can J Genet Cytol 24:315 to 323
McCoy TJ (1985) Interspecific hybridization of Medicago sativa L. and M. rupestris M.B. using ovule-embryo culture. Can J Genet Cytol 27:238–245
McCoy TJ, Smith LY (1983) Genetics, cytology and crossing behavior of an alfalfa (Medicago sativa) mutant resulting in failure of the post meiotic cytokinesis. Can J Genet Cytol 25:390–397
McCoy TJ, Smith LY (1984) Uneven ploidy levels and a reproductive mutant required for interspecific hybridization of Medicago sativa L. and Medicago dzhawakhetica Bordz. Can J Genet Cytol 26:511–518
Newell CA, Hymowitz T (1982) Successful wide hybridization between the soybean and a wild perennial relative, G. tomentella Hayata. Crop Sci 22:1062–1065
Oldemeyer RD (1956) Interspecific hybridization in Medicago. Agron J 48:584–585
Phillips GC, Collins GB (1979) In vitro tissue culture of selected legumes and plant regeneration from callus cultures of red clover. Crop Sci 19:59–64
Phillips GC, Collins GB, Taylor NL (1982) Interspecific hybridization of red clover (Trifolium pratense L.) with T. sarosiense Hazsl. using in vitro embryo rescue. Theor Appl Genet 62:17–24
Quiros CF (1981) Starch gel electrophoresis technique used with alfalfa and other Medicago species. Can J Plant Sci 61:745–749
Raghavan V (1977) Applied aspects of embryo culture. In: Reinert J, Bajaj YPS (eds) Plant cell, tissue and organ culture. Springer, Berlin, pp 375–397
Renfro G, Sprague EW (1959) Reaction of Medicago species to eight alfalfa pathogens. Agron J 51:481–483
Sangduen N, Kreitner GL, Sorensen EL (1983 a) Light and electron microscopy of embryo development in perennial and annual Medicago species. Can J Bot 61:837–849
Sangduen N, Kreitner GL, Sorensen EL (1983 b) Light and electron microscopy of embryo development in an annual x perennial Medicago species cross. Can J Bot 61:1241 to 1257
Sangduen N, Sorensen EL, Liang GH (1982) A perennial x annual Medicago cross. Can J Genet Cytol 24:361–365
Schenk RU, Hildebrandt AC (1972) Medium and techniques for induction and growth of monocotyledonous and dicotyledonous cell cultures. Can J Bot 50:199–204
Semeniuk G, Rumbaugh MD (1976) Reaction of some perennial and annual Medicago species and cultivars to the yellow leafblotch disease caused by Leptotrochila medicaginis. Plant Dis Rep 60:596–599
Shade RE, Thompson TE, Campbell WR (1975) An alfalfa weevil larval resistance mechanism detected in Medicago. J Econ Entomol 63:399–404
Somaroo BH, Grant WF (1971). Interspecific hybridization between diploid species of Lotus (Leguminosae). Genetica 42:353–367
Sorensen EL, Horber EK, Stuteville DL (1983) Development of glandular-haired alfalfas with multiple pest resistance. In: Stuteville DL (ed) Proc 18th Central Alfalfa Improv Conf. Manhattan Kan, p 28
Stewart JM, Hsu CL (1977) In-ovulo embryo culture and seedling development of cotton (Gossypium hirsutum L.). Planta 137:113–117
Stewart JM, Hsu CL (1978) Hybridization of diploid and tetraploid cottons through inzvulo embryo culture. J Hered 69:404–408
Stuart DA, Strickland SG (1984 a) Somatic embryogenesis from cell cultures of Medicago sativa L. 1. The role of amino acid additions to the regeneration medium. Plant Sci Lett 34:165–174
Stuart DA, Strickland SG (1984 b) Somatic embryogenesis from cell cultures of Medicago sativa L. 2. The interaction of amino acids with ammonium. Plant Sci Lett 34:175–181
Tanksley SD (1983) Introgression of genes from wild species. In: Tanksley SD, Orton TJ (eds) Isozymes in plant genetics and breeding, part A. Elsevier, Amsterdam, pp 331–337
Teoule E (1983) Somatic hybridization between Medicago sativa L. and Medicago falcata L. CR Acad Sci, Ser III 297:13–16
Walker KA, Sato SJ (1981) Morphogenesis in callus tissue of Medicago sativa: the role of ammonium ion in somatic embryogenesis. Plant Cell Tissue Organ Cult 1:109–121
Wang JW, Sorensen EL, Liang GH (1984) In vitro culture of pods from annual and perennial Medicago species. Plant Cell Rep 3:146–148
Williams EG, deLautour G (1980) The use of embryo culture with transplanted nurse endosperm for the production of interspecific hybrids in pasture legumes. Bot Gaz 141:252 to 257
Williams EG, deLautour G (1981) Production of tetraploid hybrids between Ornithopus pinnatus and O. sativus using embryo culture. N Z J Bot 19:23–30
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Communicated by R. L. Kahler
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McCoy, T.J., Smith, L.Y. Interspecific hybridization of perennial Medicago species using ovule-embryo culture. Theoret. Appl. Genetics 71, 772–783 (1986). https://doi.org/10.1007/BF00276417
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DOI: https://doi.org/10.1007/BF00276417