SciELO - Scientific Electronic Library Online

SciELO - Scientific Electronic Library Online

Referencias del artículo

SALERNO, Juan Carlos; KANDUS, M. V; BOGGIO RONCEROS, R  y  ALMORZA, D. Utilizar regiones heteróticas mantenidas por letales balanceados en el genoma del maíz se hace realidad. BAG, J. basic appl. genet. [online]. 2010, vol.21, n.2, pp. 0-0. ISSN 1852-6233.

    1. Allard, R. W. & A. D. Bradshaw, (1964). Implications of genotype-environment interactions in applied plant breeding. Crop Science 4:503-508. [ Links ]

    2. Ajmone-Marsan, P., Monfredini, G., Ludwig, W.F., Melchinger, A.E., Franceschini, P., Pagnotto, G. & Motto, M.. (1995). In an elite cross of maize a major quantitative trait locus controls one-fourth of the genetic variation for grain yield. Theor Appl Genet 90-3-4:415-424. [ Links ]

    3. Apirion, D. & D. Zohary, (1961). Chlorophyll lethal in natural populations of the orchard grass (Dactylis glomerata L.). Genetics 46: 393-399. [ Links ]

    4. Band H.T. & P.T. Ives. (1961). Correlated changes in environment and lethal frequency in a natural population of Drosophila melanogaster. Proc. Nat. Acad. Sci. U.S.A. 47: 180-185. [ Links ]

    5. Band, H. T. (1963). Genetic structure of populations.II. Viabilities and variances of heterozygotes in constant and fluctuating environments. Evolution [ Links ]

    6. Allard, R. W. & A. D. Bradshaw, (1964). Implications of genotype-environment interactions in applied plant breeding. Crop Science 4:503-508. [ Links ]

    7. Ajmone-Marsan, P., Monfredini, G., Ludwig, W.F., Melchinger, A.E., Franceschini, P., Pagnotto, G. & Motto, M.. (1995). In an elite cross of maize a major quantitative trait locus controls one-fourth of the genetic variation for grain yield. Theor Appl Genet 90-3-4:415-424. [ Links ]

    8. Apirion, D. & D. Zohary, (1961). Chlorophyll lethal in natural populations of the orchard grass (Dactylis glomerata L.). Genetics 46: 393-399. [ Links ]

    9. Band H.T. & P.T. Ives. (1961). Correlated changes in environment and lethal frequency in a natural population of Drosophila melanogaster. Proc. Nat. Acad. Sci. U.S.A. 47: 180-185. [ Links ]

    10. Band, H. T. (1963). Genetic structure of populations.II. Viabilities and variances of heterozygotes in constant and fluctuating environments. Evolution 17: 307-319. [ Links ]

    11. Barucha - Reid, A.T. (1960). Elements of the Theory of Markov processes and their Applications. New York. Ed. Mc Graw-Hill. 468 pp. [ Links ]

    12. Berbecel, O. & Eftimescu, M. (1973). Effect of agrometeorogical conditions on maize growth and development. (English translation). P. 10-31. Inst. Meteorol Hydrology. Bucharest- Romania. [ Links ]

    13. Berke, T. G. & Rocheford, T. R. (1999). Quantitative trait loci for tassel traits in maize. Crop Sci. 39: 1439-1443. [ Links ]

    14. Bingham, E.T. (1998). Role of chromosome blocks in heterosis and estimates of dominance and overdominance. In: Lamkey KR, Staub JE (eds). Concepts and breeding of heterosis in crop plants. Crop Sci. Soc. Am. Madison, Wisconsin, USA.: 71-87. [ Links ]

    15. Boggio, R., O. Sorarrain, J. C. Salerno & E. A. Favret, (1997). Theoretical Analysis of Lethal Factors in Plant Populations. Mathematical Biosciences 140: 85-99. [ Links ]

    16. Bosso, J. A., O. Sorarrain, & E. A. Favret, (1969). Applications of absorbent Markov chains to sib mating populations with selection. Biometrics 22 (1): 17-26. [ Links ]

    17. Allard, R. W. & A. D. Bradshaw, (1964). Implications of genotype-environment interactions in applied plant breeding. Crop Science 4:503-508. [ Links ]

    18. Ajmone-Marsan, P., Monfredini, G., Ludwig, W.F., Melchinger, A.E., Franceschini, P., Pagnotto, G. & Motto, M.. (1995). In an elite cross of maize a major quantitative trait locus controls one-fourth of the genetic variation for grain yield. Theor Appl Genet 90-3-4:415-424. [ Links ]

    19. Apirion, D. & D. Zohary, (1961). Chlorophyll lethal in natural populations of the orchard grass (Dactylis glomerata L.). Genetics 46: 393-399. [ Links ]

    20. Band H.T. & P.T. Ives. (1961). Correlated changes in environment and lethal frequency in a natural population of Drosophila melanogaster. Proc. Nat. Acad. Sci. U.S.A. 47: 180-185. [ Links ]

    21. Band, H. T. (1963). Genetic structure of populations.II. Viabilities and variances of heterozygotes in constant and fluctuating environments. Evolution 17: 307-319. [ Links ]

    22. Barucha - Reid, A.T. (1960). Elements of the Theory of Markov processes and their Applications. New York. Ed. Mc Graw-Hill. 468 pp. [ Links ]

    23. Berbecel, O. & Eftimescu, M. (1973). Effect of agrometeorogical conditions on maize growth and development. (English translation). P. 10-31. Inst. Meteorol Hydrology. Bucharest- Romania. [ Links ]

    24. Berke, T. G. & Rocheford, T. R. (1999). Quantitative trait loci for tassel traits in maize. Crop Sci. 39: 1439-1443. [ Links ]

    25. Bingham, E.T. (1998). Role of chromosome blocks in heterosis and estimates of dominance and overdominance. In: Lamkey KR, Staub JE (eds). Concepts and breeding of heterosis in crop plants. Crop Sci. Soc. Am. Madison, Wisconsin, USA.: 71-87. [ Links ]

    26. Boggio, R., O. Sorarrain, J. C. Salerno & E. A. Favret, (1997). Theoretical Analysis of Lethal Factors in Plant Populations. Mathematical Biosciences 140: 85-99. [ Links ]

    27. Bosso, J. A., O. Sorarrain, & E. A. Favret, (1969). Applications of absorbent Markov chains to sib mating populations with selection. Biometrics 22 (1): 17-26. [ Links ]

    28. Brandolini, A. and A. Brandolini, (2001). Classification of Italian maize (Zea mays L.) germplasm. Plant Genetic Resources Newsletter No.126: 1-11. [ Links ]

    29. Burham, Ch. R. (1993). Balanced lethal from chromosome 6. Maize Genetics Cooperation Newsletter No 67: 101. [ Links ]

    30. Carson, H. L. (1967). Permanent heterozygosis. Evolutionary Biology V. I.: 168-193. [ Links ]

    31. Cockerham, C.C. (1954). An extension of the concept of partitioning hereditary variance for analysis of covariance's among relatives when epitasis is present. Genetics 39: 859-882. [ Links ]

    32. Cockerham, D. M. (1963). Estimation of genetic variances. In W.D. Hanson and H.F. Robinson (ends). Statistical Genetics and Plant Breeding. National Academy of Sciences. National Research Council Publication 982. W:D.: 53-54. [ Links ]

    33. Comstock, R.E. & H.F. Robinson, (1948). The components of genetic variance in populations of biparental progenies and their use in estimating the average degree of dominance. Biometrics 4: 254-268. [ Links ]

    34. Comstock, R.E. & H.F. Robinson, (1952). Estimation of average dominance of genes. In J.W. Gowen (ed.). heterosis. ISCPress. USA.: 494-516. [ Links ]

    35. Crow, J. F. (1948). Alternative hypotheses of hybrid vigour. Genetics 33: 477-487. [ Links ]

    36. Crow, J. F. (1999). Dominance and overdominance. In: Coors JG, Pandey, S (eds.). Genetics and exploitation of heterosis in crops. Am. Soc. Agron., Crop Sci. Soc. Am., Soil Sci Soc. Am., Inc, Madison. Wisconsin, USA. : 49-58. [ Links ]

    37. Crumpacker, D. W. (1967). Genetic loads in maize (Zea mays L.) and other cross-fertilised plants and animals. Evolutionary Biology 1: 396-415. [ Links ]

    38. Dijkhuizen, A., D.W. Dudley & T.R. Rocheford. (1996). Marker-QTL linkages estimated using F2 and random -mated generations. Illinois Corn Breeders School 32: 144-157. [ Links ]

    39. Duplesis, D. P. & Dijkhuis, F. J. (1967). The inheritance of lag time between pollen shedding and silking on the yield of maize. S. Afr. J. Agric. Sci. 10. 667-674. [ Links ]

    40. Duvick, D. (1977). Genetic rates of gain in hybrid maize yields during the past 40 years. Maydica XXII: 187-196. [ Links ]

    41. Duvick, D. (1996). Plant breeding, an evolutionary concept. Crop Science 36: 539-548. [ Links ]

    42. Duvick, D. (1999). Commercial Strategies for Exploitation of heterosis. The genetics and exploitation of heterosis in crops. ASA-CSSA-CIMMYT. Chapter 27: 295-304. [ Links ]

    43. Duvick, D. (1999). Heterosis: feeding people and protecting natural resources. In: Lamkey KR, Staub JE (eds). Concepts and breeding of heterosis in crop plants. Crop Sci. Soc. Am., Madison, Wisconsin, USA. : 19-29. [ Links ]

    44. Duvick, D. (2001). Biotechnology in the 1930. The development of hybrid maize. Nature Reviews genetics 2: 69-74. [ Links ]

    45. Emerson, R. A., G. W. Beadle & A. C. Fraser. (1935). A summary of linkage studies in maize. Cornell univ. Agric. Exp. Sta. Mem., No. 180. [ Links ]

    46. Favret, E. A. & W. Godeck. (1959). Índice de mutación espontánea en cebada y otras gramíneas. Revista de Investigaciones Agrícolas T. XIII No 3. [ Links ]

    47. Falconer, D. S. (1981). Introduction to quantitative genetics. 2nd. edit. Longman editor. 340 pp. [ Links ]

    48. Favret, E. A. & G. Ryan. (1966). Possible use of permanent heterozygosis in barley breeding. Barley Newsletter 10: 122-123. [ Links ]

    49. Fisher, R.A. (1928). The possible modifications of the response of the wild-type to recurrent mutations. Am. Nat 62:115-126. [ Links ]

    50. Frascaroli, E., M. A. Canè, P. Landi, G. Pea, L. Gianfranceschi, M. Villa, M. Morgante & M. E. Pè. (2007). Classical genetic and quantitative trait Loci analyses of heterosis in a maize hybrid between two elite inbred lines. Genetics 176: 625-644. [ Links ]

    51. Freire-Maia, N. (1963). Carga genética, o preço da evolução. In C, Pavan and A. B. da Cunha (2d.) Genética. Companhia Editora Nacional, São Paulo, Brasil. 560 pp. [ Links ]

    52. Gabriel, K.R. (1971). The biplot graphic display of matrices with applications to principal component analysis. Biometrika 58(3): 453-467. [ Links ]

    53. Gallais, A. (1990). Théorie de la selection en amélioration des plantes. Masson Laris. 588 pp. [ Links ]

    54. Gardner, C.O. & S. A. Eberhart. (1968). Analysis and interpretation of the variety cross diallel and related populations. Biometrics 22: 439-451. [ Links ]

    55. Geraldi, I. O., J. B. Miranda Filho, and R. Vencovsky. (1985). Estimates of genetics parameters for tassel characters in maize (Zea mays L.) and breeding perspectives. Maydica. 30: 1-14. [ Links ]

    56. Graham, G.I., D.W. Wolff & C. W. Stuber. (1997). Characterization of a yield quantitative trait locus on chromosome five of maize by fine mapping. Crop Sci. 37: 1601-1610. [ Links ]

    57. Griffing, B. (1956). Concept of general and specific combining ability in relation to diallel crossing systems. Australian Jour. Biol. Sci. 9:463-493. [ Links ]

    58. Gustafsson, A. (1946). The effect of heterozygosis on variability and vigour. Hereditas 32: 263-286. [ Links ]

    59. Gustafsson, A. (1947). The advantageous of deleterious mutations. Hereditas 33: 575. (Abst. [ Links ]

    60. Gustafsson, A. (1953). The cooperation of genotypes in barley. Hereditas 39: 1-18. [ Links ]

    61. Harthl, D. L. (1980). Principles of population genetics. Sinauer Assoc. Inc. Sunderland M.A. 488 pp. [ Links ]

    62. Hallauer, A.R. & J.B. Miranda. (1981). Quantitative genetics in maize breeding. IsuPress. USA. 468 pp. [ Links ]

    63. Infostat . (2004). Infostat/p, versión 2004. Manual del Usuario. Grupo Infostat, FCA, U.N. Córdoba. Primera Edición, Editorial Brujas, Argentina. [ Links ]

    64. Jones, D. F. (1945). Heterosis resulting from degenerative changes. Genetics, 30: 527-542. [ Links ]

    65. Jones, D. F. (1952). Plasmagenes and chromogenes in heterosis. In J. W. Gowen (ed.), Ames, Iowa, Iowa State College Press. Heterosis. pp. 224-225. [ Links ]

    66. Kacser, H., & J. A. Burns. (1981). The molecular basic of dominance. Genetics 97: 639-666. [ Links ]

    67. Kempthorne, O. (1954). The correlation between relatives in a random mating population. Proc. Roy. Soc. London, B. 143: 103-113. [ Links ]

    68. Kiesselback, T.A. (1951). A half-century of corn research. Am. Sci. 39:629-655. [ Links ]

    69. Kreff, E. D. ; M.G. Pacheco, D.G. Díaz, C.G. Robredo, D. Puecher, A. Céliz & J.C. Salerno. (2006). Resistance to Mal de Río Cuarto Virus in Miaze: A QTL Analysis. Journal of Basic and Applied Genetics (BAG), Vol.XVII, N1, Pág. 41-50. [ Links ]

    70. Lindstrom, E. W. (1920). Chlorophyll factors in maize. Their distribution on the chromosomes and relation to the problem of inbreeding. J. Heredity 11: 269-277. [ Links ]

    71. Lu, H., J. Romero-Severson & R. Bernardo. (2002). Chromosomal regions associated with segregation distortion in maize. Theor. Appl. Genet. 105:622-628. [ Links ]

    72. Lu, H., J. Romero-Severson & R. Bernardo. (2003). Theory basic of heterosis explored by simple sequence repeat markers in a randommated maize population. Theor. Appl. Genet. 107:494-502. [ Links ]

    73. Luna, J.T. & J. Safont Lis. (1978). El maíz en la Argentina.Vulnerabilidad y recursos genéticos. Ciencia e investigación, Tomo 34, No. 3-4-5-6: 83-90. [ Links ]

    74. Mangelsdorf, A. J. (1952). Gene interaction in heterosis. In: Gowen, J.W. (ed.). Heterosis: Iowa State college Press, Ames, Iowa, USA. pp:321-329. [ Links ]

    75. Mather, K. and J.L. Jinks. (1971). Biometrical genetics, 2nd. ed. Champman and Hall, London. 382 pp. [ Links ]

    76. Mickelson, S. M., Stuber, C. S., Senior, L. and Kaeppler, S. M. (2002). Quantitative trait loci controlling leaf and tassel trait in a B73 x Mo17 population of maize. Crp Sci. 42: 1902-1909. [ Links ]

    77. Mihaljevic, R., H. Friedrich Utz & E. Albrecht Melchinger. (2005). No Evidence for Epistasis in Hybrid and Per Se Performance of Elite European Flint Maize Inbreeds from Generation Means and QTL Analyses. Crop Sci 45:2605-2613 [ Links ]

    78. Mock, J. J., and S.H. Schuetz. (1974). Inheritance of tassel branch number in maize. Crop Sci. 14: 885-888. [ Links ]

    79. Muller, H.J. (1950). Our load of mutations. Am.J.Hum.Gen. 2: 111-176 [ Links ]

    80. Otegui, M.E. (1995). Prolificacy and grain yield components in modern Argentinean maize hybrids. Maydica 40: 371-376. [ Links ]

    81. Otegui, M.E. & F.H. Andrade. (2000). New relationships between light interception, ear growth and kernel set in maize. In: M.E. Westgate and K. Boote (eds). Physiology and modelling of kernel set in maize. CSSA and ASA Special Publication Nº 29. Baltimore, Maryland, USA. pp 89-102. [ Links ]

    82. Redei, G. P. (1962). Single locus heterosis. Z. Vererbungsl 93: 164-170. [ Links ]

    83. Rhodes, D., C. Jug, W.J. Yang & Y. Samaras. (1992). Plant metabolism and heterosis. Plant Breed Rev., 10: 53-91. [ Links ]

    84. Riman, L. (1963). A synoptic survey of maize genes. Maydica 8: 99-123. [ Links ]

    85. Russel, W.A. (1991). Genetic improvement of maize yields. Adv. Agron., 33:245-298. [ Links ]

    86. Salerno, J. C. (1981). Utilización de los sistemas letales balanceados en maíz. Acta Jornadas de genética Aplicada del Noroeste Argentino. SAG: 43-51. [ Links ]

    87. Salerno, J. C. & E. A. Favret. (1984). Introduction among lethal genes in two lines of maize (Zea mays L.) Genetics 107 (1). 93. (abst. [ Links ]

    88. Salerno, J. C. (1989) Aprovechamiento de los factores letales en el mejoramiento genético. Bol. Genét. 15: 67-72. [ Links ]

    89. Salerno, J.C. & D. G. Díaz. (1992). Un Sistema Letal Balanceado en el Cromosoma 6 de Maíz. Acta resumen XXIII Congreso Argentino de Genética, Pergamino, SAG: pp. 35. [ Links ]

    90. Salerno, J.C. & Favret E. A. (1994).17 Años de letales balanceados en maíz. Mendeliana. Vol. XI No.1: 82-85. [ Links ]

    91. Salerno J. C., D. G. Díaz, C. Robredo, R. Ríos, A. G. Reid, R. Boggio Ronceros & O. Sorrarain. (1997). Lethal genes associated with grain yield in inbred lines of maize. CIMMYT. Proceeding. The genetics and Exploitation of Heterosis in Crops. ASA-CSSA-CIMMYT. México: pp. 134-135. [ Links ]

    92.Salerno, J.C., D. G. Díaz, C. Robredo, R. Boggio & O. Sorarrain. (1998). Explotación de la carga genética en la producción de semilla híbrida en maíz. IAMFE-Simposio Internacional de Experimentación de la Maquinaría Agrícola-Castelar: 256-262. [ Links ]

    93. Salerno, J. C., R. Boggio, R. & O. Sorarrain. (1999). Análisis teórico de rendimiento en plantas reguladas por factores letales. Revista de Agricultura. Piracicaba. San Pablo, Brasil. Vol.74-No. 2-Set: 137-156. [ Links ]

    94. Salerno, J. C., D. G. Díaz, C. Robredo, R. Boggio & O. Sorarrain. (2000). La Carga genética en el mejoramiento genético del maíz. Actas de la XVIII Reunión Latinoamericana del Maíz. CIMMYT-EMBRAPA. Sete Lagoas, Minas Gerais, Brasil. Pp: 211-218. [ Links ]

    95. Salerno, J. C., M. Kandus, R. Boggio, O. Sorarrain, C. Gonzalez & D. Almorza. (2007). Genetics and statistical association between lethal alleles and quantitative yield factors in maize (Zea mays L.). Journal of Basic and Applied Genetics (BAG), Vol. XVIII, No. 1:7-13. [ Links ]

    96. Schnell, F.W. (1963). The covariance between relatives in the presence of linkage. In W.D. Hanson and H.F. Robinson (eds). Statistical Genetics and Plant Breeding. National Academy of Sci. NRC. Publicación 982. W.D.C. pp: 468-483. [ Links ]

    97. Schuetz, S. H., & J. J. Mock, (1978). Genetics of tassel branch number in maize and its implications for a selection program for small tassel size. Theor. Appl. Gene. 53: 265-271. [ Links ]

    98. Smith, J. & O. Smith. (1989). The description and assessment of distance between inbred lines of maize: I. The use of morphological traits and descriptors. Maydica 34 (2): 141-150. [ Links ]

    99. Sorarrain, O. M. , R. Boggio, & J. C. Ocampo. (1980). Continuous and discontinuous Markov chains for mastitis infection. Math. Biosci. (52): 277-287. [ Links ]

    100. Sorarrain, O. M., R. Boggio, J. L. Pousa & E. A. Favret. (1983). Application of absorbent Markov Chains for a Selfing Model of two Independent Loci. J. Theor. Biol. (1983) 103: 173-180. [ Links ]

    101. Stuber, C. W., S. E. Lincoln, D. W. Wolff, T. Helentjaris & E. S. Lander. (1992). Identification of genetic factors contributing to Heterosis in a hybrid from two elite maize inbred lines using molecular markers. Genetics 132: 823-839. [ Links ]

    102. Stuber, C. W. (1994). Heterosis in plant breeding. Plant Breeding Reviews, No 12: 227-251. [ Links ]

    103. Stuber, C. W. (1995). Mapping and manipulating quantitative traits in maize. Trends Genet. 11: 477-481. [ Links ]

    104. Vencovsky, R. & P. Barriga. (1992). Genética biométrica no fitomelhoramento. Ribeirão Preto: SBG. 496 P p. [ Links ]

    105. Wallace, B. (1970). Genetic load. Its Biological and Conceptual Aspects. Prentice-Hall, Inc. Englewood Cliffs, N.J. Chapter 8: 52 pp. [ Links ]

    106. Weijer, J. 1952. A catalogue of genetic maize types together with a maize bibliography. Bibl. Genetics 50: 294. (abst. [ Links ]

    107. Wentz, J. B., & D. F. Goodsell. (1929). Recessive defects and yield in corn. J. Agric. Res. 38:0505-510. [ Links ]

    108. Whaley, W. (1964). Physiology of gene action in hybrids. Heterosis. Gowen ed. Hafner, N.Y.: pp. 98-115. [ Links ]

    109. Wright, S. (1968, 1969, 1977, 1978). Evolution and the Genetics of Populations.-Vol. 1,2,3,4. University of Chicago Press. 469 pp., 512 pp., 613 pp., 580 pp. [ Links ]