Abstract
The genus Oryza includes 20 wild species and 2 cultigens, O. sativa and O. glaberrima. Most Oryza species, including the cultigens, are diploid (2n=24); eight are tetraploid (2n=48). Six genomes have been identified, found either as diploids or allotetraploids; AA, BB, BBCC, CC, CCDD, EE, and FF. O. meridionalis is assumed to have the AA genome. Five additional species, whose genomic composition is unknown, have been identified (Table 1).
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References
Bannikova, V. P., and Khvedynich, O. A., 1974, Features of fertilization in the course of remote hybridization in plants, in: “Fertilization in Higher Plants”, H. F. Linskens, ed., North-Holland Publishing Company, Amsterdam (1974), pp 301–307.
Brar, D. S., and Khush, G. S., 1986, Wide hybridization and chromosome manipulation in cereals, in: “Handbook of Plant Cell Culture, Volume 4, Techniques and Applications,” D. A. Evans, W. R. Sharp and P. V. Ammirato, ed., Macmillan Publishing Company, New York and Collier Macmillan Publishers, London (1986), pp 221–263.
Bouharmont, J., 1962, Recherches cytogénétiques chez quelques hybrides interspecifiques d’ Oryza, La Cellule, 63: 53–132 (English summary).
Bouharmont, J., Olivier, M., and Dumont du Chassart, M., 1985, Cytological observations in some hybrids between the rice species Oryza sativa L. and O. glaberrima Steud., Euphytica, 34: 75–81.
Capinpin, J. M., and Magnaye, A. B., 1951, Hybridization of cultivated and wild rice, Philippine Agric., 34: 219–229.
Carter, A. L., and McNeilly, T., 1975, Effects of increased humidity on pollen tube growth and seed set following self pollination in brussels sprout (Brassica oleracea var. gemmifera), Euphytica, 24: 805–813.
Chang, T. T., 1985, Crop history and genetic conservation: Rice— A Case Study, Iowa State Journal of Research, 59: 425–455.
Chu, Y. E., and Oka, H. I., 1965, Deterioration of Fl embryos in hybrids between Oryza sativa and O. perennis subsp. barthii, Ann. Rep. Nat. Inst. Genet, Japan., 16: 71.
Chu, Y. E., Morishima, H., and Oka, H. I., 1969a, Reproductive barriers distributed in cultivated rice species and their wild relatives, Japan. J. Genet., 44: 207–233.
Chu, Y. E., Morishima, H., and Oka, H. I., 1969b, Partial self-incompatibility found in Oryza perennis subsp. barthii, Japan. J. Genet., 44: 225–229.
Collins, G. B., Taylor, N. L., and DeVema, J. W., 1984, In vitro approaches to interspecific hybridization and chromosome manipulation in crop plants, in: “Gene Manipula-tion in Plant Improvement,” J. P. Gustafson, ed., Plenum Press, New York and London (1984), pp 323–383.
Crowder, L. V., 1953, Interspecific and intergeneric hybrids of Festuca and Lolium, J. Heredity, 44: 195–203.
Franken, J., Custers, J. B., and Bino, R. J., 1988, Effects of temperature on pollen tube growth and fruit set in reciprocal crosses between Cucumis sativus and C. metuliferus, Plant Breed., 100: 150–153.
Gotoh, K., and Okura, E., 1933, A preliminary note of cytological studies of Oryza, J. Soc. Trop. Ag., 5: 363–364.
Heinrichs, E. A., Medrano, F. G., and Rapusas, H. R., 1985, “Genetic Evaluation For Insect Resistance In Rice,” International Rice Research Institute, Manila.
Hollingshead, L., 1930, A lethal factor in Crepis effective only in an interspecific hybrid,Genetics, 15: 114–140.
Hu, C., and Wang, P., 1984, Embryo culture: technique and applications, in: “Handbook of Plant Cell Culture, Volume 4, Techniques and Applications,” D. A. Evans, W. R. Sharp and P. V. Ammirato, ed., Macmillan Publishing Company, New York and Collier Macmillan Publishers, London (1986), pp 43–96.
Hybrid Rice Newsletter, 1989, Oryza nivara cytoplasm found to induce male sterility in rice, Hybrid Rice Newsletter, 3 (1): 4.
IRRI, 1985, Wide hybridization for rice improvement, in: “Annual Report for 1984,” International Rice Research Institute, Manila ( 1985 ), pp 133–135.
Jalani, B. S., and Moss, J. P., 1980, The site of action of the crossability genes (Kr], Kr2) between Triticum and Secale. 1. Pollen germination, pollen tube growth and number of pollen tubes, Euphytica, 29: 571–579.
James-Sprague, J., 1982, Combining genomes by conventional means, in: “Plant Improvement and Somatic Cell Genetics,” I. K. Vasil, W. R. Scowcroft, and K. J. Frey, ed., Academic Press, New York (1982), pp 99–118.
Jena, K. K., and Khush, G. S., 1986, Production of monosomic alien addition lines of O. sativa having a single chromosome of O. officinalis, in: “Rice Genetics,” International Rice Research Institute, Manila ( 1986 ), pp 199–208.
Katayama, T., 1966a, Cytogenetical studies on the genus Oryza. 2. Chromosome pairing in the interspecific hybrid with the ABC genomes, Japan. J. Genet., 41: 309–316.
Katayama, T., 1966b, Cytogenetical studies on the genus Oryza. 3. Chromosome pairing in the interspecific hybrid with the ACD genomes, Japan. J. Genet., 41: 317–324.
Kho, Y. O., and Baer, J., 1968, Observing pollen tubes by means of fluorescence, Euphytica, 17: 298–302.
Khush, G. S., 1977, Disease and insect resistance in rice, Adv. Agron., 29: 265–341.
Kihara, H., 1959, Considerations on the origin of cultivated rice, Seiken Zihô, 10: 68–83.
Knox, R. B., Willing, R. R., and Ashford, A. E., 1972, Pollen wall proteins: role as recognition substances in interspecific incompatibility in poplars, Nature, 237: 381–383.
Larter, E., and Chaubey, C., 1965, Use of exogenous growth substances in promoting pollen tube growth and fertilization in barley-rye crosses, Can. J. Genet. Cytol., 7: 511–518.
Li, H. W., Weng, T. S., Chen, C. C., and Wang, W. H., 1962, Cytogenetical studies of Oryza sativa L. and its related species. 2. A preliminary note on the interspecific hybrids within the section Sativa Roschev., Bot. Bull. Sinica, 3: 209–219.
Li, H. W., Chen, C. C., Weng, T. S., and Wuu, K. D., 1963, Cytogenetical studies of Oryza sativa L. and its related species. 4. Interspecific cross involving O. australiensis with O. sativa and O. minuta, Bot. Bull. Sinica, 4: 65–74.
Matsubara, S., 1984, Overcoming the self-incompatibility of Raphanus sativus by application of plant hormones, amino acids and vitamines, and by temperature treatment of pollen, Euphytica, 33: 113–121.
Mock, J. J., and Loescher, W. H., 1973, Incompatibility of maize and sorghum manifest in failure of pollen growth, Egypt. J. Genet. Cytol., 2: 338–344.
Mól, R., and Zenkteler, M., 1982, Cytological studies of some wild species as pollinators of wheat and barley, Z. Pflanzenzücht., 89: 31–38.
Morinaga, T., 1959, Note on genome analysis in Oryza species, Int. Rice Commun. Newsletter, 8: 10–11.
Morinaga, T., and Kuriyama, H., 1957, Cytogenetical studies on Oryza sativa L.. IX. The F1 hybrid of O. sativa L. and O. glaberrima Steud., Japan. J. Breed., 7: 57–65.
Nandi, H. K., 1938, Interspecific hybridization in Oryza. Cytological evidence of the hybrid origin of Oryza minuta, Bose Res. Inst. Trans., Calcutta, (1935–1936), 11: 99–121
Nezu, M., Katayama, T. C., and Kihara, H., 1960, Genetic study of the genus Oryza. 1. Crossability and chromosomal affinity among 17 species, Seiken Zih6, 11: 1–11.
Ogawa, T., and Katayama, T., 1971, Cytogenetical studies on the genus Oryza. 5. Chromosome pairing in the interspecific hybrid between genomes A and B (O. punctata), Japan. J. Breed., 21: 151–154.
Oka, H. I., 1964, Pattern of interspecific relationships and evolutionary dynamics in Oryza, in: “Proc. First Int. Symp. on Rice Genetics and Cytogenetics,” International Rice Research Institute, Manila (1964).
Okazaki, K., and Hinata, K., 1987, Repressing the expression of self-incompatibility in crucifers by short-term high temperature treatment, Theor. Appl. Genet., 73: 496–500.
Pickering, R. A., 1981, Pollen tube-stylodium interaction in Hordeum vulgare L. x H. bulbosum L., in: “Barley Genetics IV,” Proc. 4th Int. Genet. Sym., Edinburgh University Press, Edinburgh ( 1981 ), pp 666–676.
Reger, B. J., and James, J., 1982, Pollen germination and pollen tube growth of sorghum when crossed to maize and pearl millet, Crop Sci., 22: 140–144.
Rutger, J. N., and Shinjo, C., 1980, Male sterility in rice and its potential use in breeding, in: “Innovative Approaches to Rice Breeding,” International Rice Research Institute, Manila ( 1980 ), pp 53–66.
Sano, Y., 1983, A new gene controlling sterility in F1 hybrids of two cultivated rice species, J. Heredity, 74: 435–439.
Sano, Y., 1985, Interspecific substitutions of an indica strain of Oryza sativa L. and O. glaberrima Steud., Euphytica, 34: 587–592.
Sano, Y., Chu, Y. E., and Oka, H. I., 1979, Genetic studies of speciation in cultivated rice. 1. Genic analysis for the F1 sterility between O. sativa L. and O. glaberrima Steud. Japan. J. Genet., 54: 121–132.
Sears, E. R., 1944, Inviability of intergeneric hybrids involving Triticum monototcum and T. aegilopoides, Genetics, 29: 113–127.
Seetharaman, R., 1962, Studies on hybridization between Asian and African species of cultivated rices and their significance, Science and Culture, 28: 286–289.
Shin, Y. B., and Katayama, T., 1979, Cytogenetical studies on the genus Oryza. XI. Alien addition lines of O. sativa with single chromosomes of O. officinalis, Japan. J. Genet., 54: 1–10.
Sitch, L. A., 1985, The production and utilization of wheat doubled haploids from the interspecific cross with Hordeum bulbosum, Ph.D. thesis, University of Cambridge, United Kingdom.
Sitch, L. A., and Snape, J. W., 1987, Factors affecting haploid production in wheat using the Hordeum bulbosum system. 1. Genotypic and environmental effects on pollen grain germination, pollen tube growth and the frequency of fertilization, Euphytica, 36: 483–496.
Sree Ramulu, K., Bredemeijer, G. M. M., and Dijkhuis, P., 1979, Mentor pollen effects on gametophytic incompatibility in Nicotiana, Oenothera and Lycopersicum, Theor. Appl. Genetics, 54: 215–218.
Stebbins, G. L., 1958, The inviability, weakness and sterility of interspecific hybrids, Adv. Genet., 9: 147–215.
Taillebois, J., and Guimaraes, E. P., 1988, Improving outcrossing rate in rice (Oryza sativa L.), in: “Hybrid Rice,” International Rice Research Institute, Manila ( 1988 ), pp 175–180.
Tilton, V. R., and Russell, S. H., 1984, Applications of in vitro pollination/fertilization technology, BioScience, 34: 239–242.
Virmani, S. S., and Shinjyo, C., 1988, Current status of analysis and symbols for male sterile cytoplasms and fertility restoring genes, Rice Genetics Newsletter, 5: 9–15.
Virmani, S. S., and Wan, B. H., 1988, Development of CMS lines in hybrid rice breeding, in: “Hybrid Rice,” International Rice Research Institute, Manila ( 1988 ), pp 103–114.
Watanabe, Y., 1975, Cytogenetic studies on rice and its wild relatives. 1. Cytogenetic investigations of induced polyploids, with special reference to the sterility of synthesized amphiploids, Bull. Nat. Inst. Ag. Sci., Ser. D, (1975), pp 1–90.
Wernesman, E. A., Davis, R. L., and Keim, W. F., 1965, Interspecific fertility of two Lotus species and their Fl hybrids, Crop Sci., 5: 452–454.
Wuu, K. D., Jui,Y., Lu, K. C. L., Chou, C., and Li, H. W., 1963, Cytogenetical studies of Oryza sativa L. and its related species. 3. Two intersectional hybrids, O. sativa Linn. x O. brachyantha A. Chev. et Roehr. and O. minuta Presl x O. brachyantha A. Chev. et Roehr., Bot. Bull. Sinica, 4: 51–59.
Yabuno, T., 1977, Genetic studies on the interspecific cytoplasm substitution lines of japonica varieties of Oryza sativa L. and O. glaberrima Steud., Euphytica, 26: 45 1463.
Yang, K. K. S., Ho, K. C., and Li, H. W., 1965, Cytogenetical studies of Oryza sativa L. and its related species. 8. Study on meiotic division of Fl hybrid of O. sativa L. x O. brachyantha A. Chev. et Roehr., Bot. Bull. Sinica, 6: 32–38.
Yeh, B., and Henderson, M. T., 1961, Cytogenetic relationship between cultivated rice, Oryza sativa L., and five wild diploid forms of Oryza, Crop Sci., 1: 445–450.
Yuan, L. P., and Virmani, S. S., 1988, Status of hybrid rice research and development, in: “Hybrid Rice,” International Rice Research Institute, Manila(1988), pp 7–24.
Zenkteler, M., 1980, Intraovarian and in vitro pollination, in: “Perspectives in Plant Cell and Tissue Culture,” I. K. Vasil, ed., Inter. Rev. Cytol. Suppl. 11B, Academic Press, New York (1980), pp 137–156.
Zenkteler, M., and Nitzsche, W., 1984, Wide hybridization experiments in cereals, Theor. Appl. Genet., 68: 311–315.
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Sitch, L.A. (1990). Incompatibility Barriers Operating in Crosses of Oryza sativa with Related Species and Genera. In: Gustafson, J.P. (eds) Gene Manipulation in Plant Improvement II. Stadler Genetics Symposia Series. Springer, Boston, MA. https://doi.org/10.1007/978-1-4684-7047-5_5
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