Registro:

Referencias:

• Andolfatto, P., Depaulis, F., Navarro, A., Inversion polymorphisms and nucleotide variability in Drosophila (2001) Genetical Research, 77 (1), pp. 1-8. , DOI 10.1017/S0016672301004955
• Antonacci, F., Kidd, J.M., Marques-Bonet, T., Ventura, M., Siswara, P., Jiang, Z., Eichler, E.E., Characterization of six human disease-associated inversion polymorphisms (2009) Human Molecular Genetics, 18, pp. 2555-2566
• Avise, J.C., (2000) Phylogeography: The History and Formation of Species, , Harvard University Press, Cambridge, MA
• Balanya, J., Oller, J.M., Huey, R.B., Gilchrist, G.W., Serra, L., Global genetic change tracks global climate warming in Drosophila subobscura (2006) Science, 313 (5794), pp. 1773-1775. , DOI 10.1126/science.1131002
• Bansal, V., Bashir, A., Bafna, V., Evidence for large inversion polymorphisms in the human genome from HapMap data (2007) Genome Research, 17, pp. 219-230
• Brown, K.M., Burk, L.M., Henagan, L.M., Noor, M.A.F., A test of the chromosomal rearrangement model of speciation in Drosophila pseudoobscura (2004) Evolution, 58 (8), pp. 1856-1860
• Butlin, R.K., Recombination and speciation (2005) Molecular Ecology, 14 (9), pp. 2621-2635. , DOI 10.1111/j.1365-294X.2005.02617.x
• Carbonell, C.S., Origin, evolution and distribution of the neotropical acridomorph fauna (Orthoptera): A preliminary hypothesis (1977) Revista de la Sociedad Entomológica Argentina, 36, pp. 153-175
• Carothers, E., The segregation and recombination of homologous chromosomes as found in two genera of Acrididae (Orthoptera) (1917) Journal of Morphology, 28, pp. 445-494
• Carothers, E., Genetical behavior of heteromorphic homologous chromosomes of Circotettix (Orthoptera) (1921) Journal of Morphology, 35, pp. 457-483
• Catchen, J.M., Conery, J.S., Postlethwait, J.H., Automated identification of conserved synteny after whole-genome duplication (2009) Genome Research, 19, pp. 1497-1505
• Clarke, B., The contribution of ecological genetics to evolutionary theory: Detecting the direct effects of natural selection on particular polymorphic loci (1975) Genetics, 79 (SUPPL.), pp. 101-113
• Coleman, L.C., The cytology of some Western species of Trimerotropis (Acrididae) (1948) Genetics, 33, pp. 519-528
• Colombo, P.C., Chromosome inversion polymorphisms influence morphological traits in Trimerotropis pallidipennis (Orthoptera) (2002) Genetica, 114 (3), pp. 247-252. , DOI 10.1023/A:1016295005890
• Colombo, P.C., Confalonieri, V.A., An adaptive pattern of inversion polymorphisms in Trimerotropis pallidipennis (Orthoptera) (1996) Hereditas, 125 (2-3), pp. 289-296
• Colombo, P.C., Confalonieri, V.A., Cytogeography and the evolutionary significance of B-chromosomes in relation to inverted rearrangements in a grasshopper species (2004) Cytogenetics and Genome Research, 106, pp. 351-358
• Colombo, P., Cigliano, M.M., Sequeira, A.S., Lange, C.E., Vilardi, J.C., Confalonieri, V.A., Phylogenetic relationships in Dichroplus Stal (Orthoptera: Acrididae: Melanoplinae) inferred from molecular and morphological data: Testing karyotype diversification (2005) Cladistics, 21 (4), pp. 375-389. , DOI 10.1111/j.1096-0031.2005.00068.x
• Confalonieri, V.A., Effects of centric-shift polymorphisms on chiasma conditions in Trimerotropis pallidipennis (Oedipodinae: Acrididae) (1988) Genetica, 76, pp. 171-179
• Confalonieri, V.A., B-chromosomes of Trimerotropis pallidipennis (Oedipodinae: Acrididae): new effects on chiasma conditions (1992) Caryologia, 45, pp. 145-153
• Confalonieri, V.A., Inversion polymorphisms and natural selection in Trimerotropis pallidipennis (Orthoptera): Correlations with geographical variables (1994) Hereditas, 121 (1), pp. 79-86. , DOI 10.1111/j.1601-5223.1994.00079.x
• Confalonieri, V.A., Macrogeographic patterns in B-chromosomes and inversion polymorphisms of the grasshopper Trimerotropis pallidipennis (1995) Genetic Selection Evolution, 27, pp. 305-311
• Confalonieri, V.A., Colombo, P., Inversion polymorphisms in Trimerotropis pallidipennis (Orthoptera): Clinal variation along an altitudinal gradient (1989) Heredity, 62, pp. 107-112
• Confalonieri, V.A., Sequeira, A.S., Todaro, L., Vilardi, J.C., Mitochondrial DNA and phylogeography of the grasshopper Trimerotropis pallidipennis in relation to clinal distribution of chromosome polymorphisms (1998) Heredity, 81 (4), pp. 444-452. , DOI 10.1038/sj.hdy.6884050
• Delprat, A., Negre, B., Puig, M., Ruiz, A., The transposon Galileo generates natural chromosomal inversions in Drosophila by ectopic recombination (2009) PLoS ONE, 4 (11), pp. e7883. , doi:10.1371/journal.pone.0007883
• Dinghi, P., Confalonieri, V.A., Cigliano, M.M., Phylogenetic studies in the South American tribe Dichroplini (Orthoptera: Acrididae: Melanoplinae): is the Paranaense-Pampeano informal genus group a natural clade? (2009) Zootaxa, 2174, pp. 51-62
• Dobzhansky, T., (1937) Genetics and the Origin of Species, , Columbia University Press, New York
• Dobzhansky, T., Ayala, F., Stebbins, G.L., Valentine, I.W., (1980) Evolución, , Ediciones Omega, S.A. Barcelona
• Eades, D.C., Otte, D., Cigliano, M.M., Braun, H., (2010) Orthoptera Species File Online, , http://orthoptera.speciesfile.org, Version
• Endler, J.A., (1986) Natural Selection in the Wild, , Princeton University Press, Princeton, New Jersey
• Feder, J.L., Nosil, P., Chromosomal inversions and species differences: When are genes affecting adaptive divergence and reproductive isolation expected to reside within inversions? (2009) Evolution, 63, pp. 3061-3075
• Fletcher, H.L., Hewitt, G.M., Non-homologous synaptonemal complex formation in a heteromorphic bivalent in Keyacris scurra (Morabinae, Orthoptera) (1978) Chromosoma, 65 (3), pp. 271-281
• Fries, M., Chapco, W., Contreras, D., A molecular phylogenetic analysis of the Oedipodinae and their intercontinental relationships (2007) Journal of Orthoptera Research, 16, pp. 115-125
• Goñi, B., De Vaio, E., Beltrami, M., Leira, M., Crivel, M., Panzera, F., Castellanos, P., Basso, A., Geographic patterns of chromosomal variation in populations of the grasshopper (Trimerotropis pallidipennis) from southern Argentina (1985) Genome, 27, pp. 259-271
• Hale, L.R., Singh, R.S., A comprehensive study of genetic variation in natural populations of Drosophila melanogaster. IV. Mitochondrial DNA variation and the role of history vs selection in the genetic structure of grographic populations (1991) Genetics, 129, pp. 102-117
• Helwig, R., Chromosomal variations correlated with geographical distribution in Circotettix verruculatus (Orthoptera) (1929) Journal of Morphology, 47, pp. 1-36
• Hey, J., Speciation and inversions: Chimps and humans (2003) BioEssays, 25 (9), pp. 825-828. , DOI 10.1002/bies.10336
• Hewitt, G.M., Hybrid zones: Natural laboratories for evolutionary studies (1988) Trends in Ecology and Evolution, 3, pp. 158-167
• Hoffmann, A.A., Rieseberg, L.H., Revisiting the impact of inversions in evolution: From population genetic markers to drivers of adaptive shifts and speciation (2008) Annual Reviews Ecology Evolution and Systematics, 39, pp. 21-42
• Hoffmann, A.A., Sgro, C.M., Weeks, A.R., Chromosomal inversion polymorphisms and adaptation (2004) Trends in Ecology and Evolution, 19 (9), pp. 482-488. , DOI 10.1016/j.tree.2004.06.013, PII S0169534704001806
• John, B., Weissman, D.B., Cytogenetic components of reproductive isolation in Trimerotropis thalassica and T. occidentalis (1977) Chromosoma, 60 (2), pp. 187-203
• King, R.L., Heteromorphic homologous chromosomes in three species of Pseudotrimerotropis (Orthoptera: Acrididae) (1923) Journal of Morphology, 38, pp. 19-63
• Brown, K.M., Burk, L.M., Henagan, L.M., Noor, M.A.F., A test of the chromosomal rearrangement model of speciation in Drosophila pseudoobscura (2004) Evolution, 58 (8), pp. 1856-1860
• Korbel, J.A., Eckehart Urban, A., Affourtit, J.P., Godwin, B., Grubert, E., Simons, J.F., Kim, P.M., Snyder, M., Paired-end mapping reveals extensive structural variation in the human genome (2007) Science, 318, pp. 420-426
• Kulathinal, R.J., Stevison, L.S., Noor, M.A.F., The genomics of speciation in Drosophila: Diversity, divergence, and introgression estimated using low-coverage genome sequencing (2009) PLoS Genetics, 5 (7), pp. e1000550. , doi: 10.1371/journal.pgen.1000550
• Laayouni, H., Hasson, E., Santos, M., Fontdevila, A., The evolutionary history of Drosophila buzzatii. XXXV. Inversion polymorphism and nucleotide variability in different regions of the second chromosome (2003) Molecular Biology. Evolution, 20, pp. 931-944
• Lanteri, A.A., Confalonieri, V.A., Filogeografía: Objetivos, métodos y ejemplos (2003) Introducción A la Biogeografía en Latinoamérica: Conceptos, Teorías, Métodos Y Aplicaciones, 2, pp. 185-193. , Llorente Bousquets J., Morrone J.J. (Eds) Facultad de Ciencias, UNAM, México
• Lee, J., Han, K., Meyer, T.J., Kim, H.-S., Batzer, M.A., Chromosomal inversions between human and chimpanzee lineages caused by retrotransposons (2008) PLoS ONE, 3 (12), pp. e4047. , doi:10.1371/journal.pone.0004047
• Luo, M.C., Deal, K.R., Akhunov, E.D., Akhunova, A.R., Anderson, O.D., Anderson, J.A., Blake, N., Dvorak, J., Genome comparisons reveal a dominant mechanism of chromosome number reduction in grasses and accelerated genome evolution in Triticeae (2009) PNAS, 106, pp. 15780-15785
• Matrajt, M., Confalonieri, V.A., Vilardi, J., Parallel adaptive patterns of allozyme and inversion polymorphisms on an ecological gradient (1996) Heredity, 76, pp. 346-354
• Mesa, A., Polimorfismo cromosomico en Trimerotropis pallidipennis (Orthoptera-Acridoidae-Oedipodinae) (1971) Revista Peruana de Entomologia, 142
• Moran, C., Shaw, D.D., Population cytogenetics of the genus Caledia (Orthoptera: Acrididae). III. Chromosomal polymorphism, racial parapatry and introgression (1977) Chromosoma, 63, pp. 181-204
• Moran, C., The structure of a narrow hybrid zone in Caledia captiva (1979) Heredity, 42, pp. 13-32
• Nur, U., Synapsis and crossing over within paracentric inversions in the grasshopper Camnula pellucida (1968) Chromosoma, 25, pp. 198-214
• Otte, D., Acrididae, Oedipodinae (1984) The North American Grasshoppers, 2. , Harvard Press
• Powell, J.R., (1997) Progress and Prospects in Evolutionary Biology: The Drosophila Model, , Oxford University Press, New York
• Rentz, D.C.F., Weissman, D.B., An annotated checklist of the grasshopper species of Aerochoreutes, Circotettix, and Trimerotropis (Orthoptera: Acrididae: Oedipodinae) (1980) Transactions American Entomological Society, 106, pp. 223-252
• Sanchez, V., Confalonieri, V.A., Chromosome banding pattern in Trimerotropis pallidipennis (Orthoptera: Acrididae) (1993) Cytobios, 73, pp. 105-110
• Scataglini, M.A., Lanteri, A.A., Confalonieri, V.A., Diversity of boll weevil populations in South America: A phylogeographic approach (2006) Genetica, 126, pp. 353-362
• Shaw, D.D., Webb, G.C., Wilkinson, P., Population cytogenetics of the genus Caledia (Orthoptera: Acrididae). II. Variation in the pattern of C-banding (1976) Chromosoma, 56, pp. 169-190
• Shaw, D.D., Coates, D.J., Arnold, M.L., Complex patterns of chromosomal variation along a latitudinal cline in the grasshopper Caledia captiva (1988) Genome, 30, pp. 108-117
• Shaw, D.D., Moran, C., Wilkinson, P., Chromosomal rearrangements, geographic differentiation and the mechanism of speciation in the genus Caledia (1980) Insect Cytogenetics, pp. 171-194. , Blackman R.L., Hewitt G.M., Ashburner M. (Eds) Blackwell Scientific Publications, Oxford
• Slotman, M.A., Reimer, L.J., Thiemann, T., Dolo, G., Fondjo, E., Lanzaro, G.C., Reduced recombination rate and genetic differentiation between the M and S forms of Anopheles gambiae s.s (2006) Genetics, 174 (4), pp. 2081-2093. , http://www.genetics.org/cgi/reprint/174/4/2081, DOI 10.1534/genetics.106.059949
• Slotman, M.A., Tripet, F., Cornel, A.J., Meneses, C.R., Lee, Y., Reimer, L.J., Thiemann, T.C., Lanzaro, G.C., Evidence for subdivision within the M molecular form of Anopheles gambiae (2007) Molecular Ecology, 16 (3), pp. 639-649. , DOI 10.1111/j.1365-294X.2006.03172.x
• Trick, M., Kwon, S., Ryun Choi, S., Eraser, F., Soumpourou, E., Drou, N., Wang, Z., Bancroft, I., Complexity of genome evolution by segmental rearrangement in Brassica rapa revealed by sequence-level analysis (2009) BMC Genomics, 10, p. 539
• De, V.E.S., Goni, B., Rey, C., Chromosome polymorphism in populations of the grasshopper Trimerotropis pallidipennis from southern Argentina (1979) Chromosoma, 71 (3), pp. 371-386. , DOI 10.1007/BF00287142
• Weissman, D.B., Geographical variability in the pericentric inversion system of the grasshopper Trimerotropis pseudofasciata (1976) Chromosoma, 55, pp. 325-347
• Weissman, D.B., Rentz, D.C.F., Cytological, morphological, and crepitational characteristics of the trimerotropine (Aerochoreutes, Circotettix, and Trimerotropis) grasshoppers (Orthoptera; Oedipodinae) (1980) Transactions American Entomological Society, 106, pp. 253-272
• White, M.J.D., (1945) Animal Cytology and Evolution, , (1st ed.) Cambridge University Press, New York
• White, M.J.D., A cytological survey of wild populations of Trimerotropis and Circotettix (Orthoptera: Acrididae) I. The chromosomes of twelve species (1949) Genetics, 34, pp. 537-563
• White, M.J.D., Cytogenetics of orthopteroid insects (1951) Advances in Genetics, 4, pp. 267-328
• White, M.J.D., Structural heterozygosity in natural populations of the grasshopper Trimerotropis sparsa (1951) Evolution, 5, pp. 376-394
• White, M.J.D., Adaptive chromosomal polymorphism in an Australian grasshopper (1956) Evolution, 10, pp. 298-313
• White, M.J.D., Cytogenetics of the grasshopper Moraba scurra. VI. A spontaneous pericentric inversion (1961) Australian Journal of Zoology, 9, pp. 784-790
• White, M.J.D., Chromosomal rearrangements and speciation in animals (1969) Advances in Genetics, 3, pp. 75-98
• White, M.J.D., (1973) Animal Cytology and Evolution, , 3rd edit. Cambridge University Press, London
• White, M.J.D., (1977) Modes of Speciation, , San Francisco: W.H. Freeman, 1977
• White, M.J.D., Lewontin, C., Andrew, L.E., Cytogenetics of the grasshopper Moraba scurra. VII. Geographic variation of adaptive properties of inversions (1963) Evolution, 17, pp. 147-162
• White, M.J.D., Carson, H.L., Cheney, J., Chromosomal races in the Australian grasshopper Moraba viatica in a zone of geographic overlap (1964) Evolution, 18, pp. 417-429
• White, M.J.D., Chinnick, L., Cytogenetics of the grasshopper Moraba scurra. IlI. Distribution of the 15- And 17-chromosome races (1957) Australian Journal of Zoology, 5, pp. 338-347
• White, M.J.D., Key, K.H.L., Andrew, M., Cheney, J., Cytogenetics of the viatica group of Morabine grasshoppers. II. Kangaroo Island populations (1969) Australian Journal of Zoology, 17, pp. 313-328
• Wu, F., Tanksley, S.D., Chromosomal evolution in the plant family Solanaceae (2010) BMC Genomics, 11, p. 182

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------