

The First Case of Triploidy in Skinks of the Genus Ophiomorus (Reptilia: Scincidae)
Abstract
Keywords
References
Abdala C. S., Baldo D., Juárez R. A., and Espinoza R. E. (2016), «The first parthenogenetic pleurodont iguanian: a new all-female Liolaemus (Squamata: Liolaemidae) from Western Argentina», Copeia, 104(2), 487 – 497.
Adams M., Foster R., Hutchinson M. N., Hutchinson R. G., and Donnellan S. C. (2003), «The Australian scincid lizard Menetia greyii: A new instance of widespread vertebrate parthenogenesis», Evolution, 57(11), 2619 – 2627.
Bezy R. L. (1972), «Karyotypic variation and evolution of the lizards in the family Xantusiidae», Contrib. Sci., 227, 1 – 29.
Bianchi N. O., Redi C., Garagna C., Capanna E., and Manfredi-Romanini M. G. (1983), «Evolution of the genome size in Akodon (Rodentia, Cricetidae)», J. Mol. Evol., 19, 362 – 370.
Bickham J. W. and Hanks B. G. (2009), «Diploid-triploid mosaicism and tissue ploidy diversity within Platemys platycephala from Suriname», Cytogen. Genome Res., 127, 280 – 286.
Bickham J. W., Tucker P. K., and Legler J. M. (1985), «Diploid-triploid mosaicism: an unusual phenomenon in side-necked turtles (Platemys platycephaia)», Science, 227, 1591 – 1593.
Bogart J. P. (1980), «Evolutionary implications of polyploidy in amphibians and reptiles», in: W. H. Lewis (ed.), Polyploidy: Biological Relevance, Plenum Press, New York and London, pp. 341 – 378.
Borkin L. J., Litvinchuk S. N., and Rosanov J. M. (1996), «Spontaneous triploidy in the crested newt, Triturus cristatus (Salamandridae)», Russ. J. Herpetol., 3(2), 152 – 156.
Cole C. J., Taylor H. L., Baumann D. P., and Baumann P. (2014), «Neaves’ whiptail lizard: the first known tetraploid parthenogenetic tetrapod (Reptilia: Squamata: Teiidae)», Breviora, 539, 1 – 19.
Cole C. J., Taylor H. L., Neaves W. B., Baumann D. P., Newton A., Schnittker R., and Baumann P. (2017), «The second known tetraploid species of parthenogenetic tetrapod (Reptilia: Squamata: Teiidae): description, reproduction, comparisons with ancestral taxa, and origins of multiple clones», Bull. Mus. Comp. Zool., 161(8), 285 – 321.
Danielyan F., Arakelyan M., and Stepanyan I. (2008), «Hybrids of Darevskia valentini, D. armeniaca and D. unisexualis from a sympatric population in Armenia», Amphibia– Reptilia, 29, 487 – 504.
Dar T.-Ul.-H. and Rehman R.-Ul. (eds.) (2017), Polyploidy: Recent Trends and Future Perspectives, Springer.
Darevsky I. S., Uzell T. M., Kupriyanova L. A., and Danielyan F. D. (1973), «Triploid hybrid males in sympatric populations of some parthenogenetic and bisexual species of rock lizards of the genus Lacerta», Byull. Mosk. Obshch. Estestvoisp., 78, 48 – 58. [in Russian].
Gregory T. R. and Mable B. K. (2005), «Polyploidy in animals», in: T. R. Gregory (ed.), The Evolution of the Genome, Elsevier, pp. 427 – 517.
Freitas S. N., Harris D. J., Sillero N., Arakelyan M., Butlin R. K., and Carretero M. A. (2019), «The role of hybridisation in the origin and evolutionary persistence of vertebrate parthenogens: a case study of Darevskia lizards», Heredity, 123, 795 – 808.
Hall W. P. (1970), «Three probable cases of parthenogenesis in lizards (Agamidae, Chamaeleontidae, Gekkonidae)», Experientia, 26(11), 1271 – 1273.
Hardy L. M. and Cole C. J. (1998), «Morphology of a sterile, tetraploid, hybrid whiptail lizard (Squamata: Teiidae: Cnemidophorus)», Am. Mus. Novitates, 3228, 1 – 16.
Kearney M., Fujita M. K., and Ridenour J. (2009), «Lost sex in the reptiles: Constraints and correlations», in: I. Schön et al. (eds.), Lost Sex, Springer, pp. 447 – 474.
Lamborot M. M., Manzur E., and Alvarez-Sarret E. (2006), «Triploidy and mosaicism in Liolaemus chiliensis (Sauria: Tropiduridae)», Genome, 49, 445 – 453.
Litvinchuk S. N., Borkin L. J., Skorinov D. V., Pasynkova R. A., and Rosanov J. M. (2016), «Natural polyploidy in amphibians», Vestn. SPb Gos. Univ. Biol., 3(3), 77 – 86. [in Russian]
Lutes A. A., Baumann D. P., Neaves W. B., and Baumann P. (2011), «Laboratory synthesis of an independently reproducing vertebrate species», PNAS, 108(24), 9910 – 9915.
Mason A. S. and Pires J. C. (2015), «Unreduced gametes: meiotic mishap or evolutionary mechanism?» Trends Genet., 31(1), 5 – 10.
Mezzasalma M., Streicher J. W., Guarino F. M., Jones M. E. H., Loader S. P., Odierna G., and Cooper N. (2023), «Microchromosome fusions underpin convergent evolution of chameleon karyotypes», Evolution, 77(9), 1913 – 1944.
Mezzasalma M., Macirella R., Odierna G., and Brunelli E. (2024), «Karyotype diversification and chromosome rearrangements in squamate reptiles», Genes, 15, 371.
Nabizadeh H., Rastegar-Pouyani N., Rastegar-Pouyani E., and Rajabzadeh M. (2023), «Interspecific variation within the genus Ophiomorus Duméril & Bibron, 1839 (Sauria: Scincidae) in Iran based on morphological characters», Iran J. Animal Biosyst., 18(1), 47 – 70.
Pensabene E., Augstenová B., Kratochvíl L., and Rovatsos M. (2024), «Differentiated sex chromosomes, karyotype evolution, and spontaneous triploidy in carphodactylid geckos», J. Hered., esae010.
Rozanov Y. M. and Vinogradov A. E. (1998), «Precise DNA cytometry: investigation of individual variability in animal genome size», Tsitologiya, 40, 792 – 800. [in Russian]
Šmíd J., Moravec J., Kodym P., Kratochvíl L., Yousefkhani S. S. H., Rastegar-Pouyani E., and Frynta D. (2014), «Annotated checklist and distribution of the lizards of Iran», Zootaxa, 3855, 1 – 97.
Stenberg P. and Saura A. (2013), «Meiosis and its deviations in polyploid animals», Cytogen. Genome Res., 140(2 – 4), 185 – 203.
Stöck M., Dedukh D., Reifová R., Lamatsch D. K., Starostová Z., and Janko K. (2021), «Sex chromosomes in meiotic, hemiclonal, clonal and polyploid hybrid vertebrates: along the ‘extended speciation continuum’», Phil. Trans. R. Soc. B, 376, 20200103.
Trifonov V. A., Paoletti A., Caputo Barucchi V., Kalinina T., O’Brien P. C. M., Ferguson-Smith M. A., and Giovannotti M. (2015), «Comparative chromosome painting and NOR distribution suggest a complex hybrid origin of triploid Lepidodactylus lugubris (Gekkonidae)», PLoS ONE, 10(7), e0132380.
Uetz P. (ed.) (2024), The Reptile Database, http://www.reptile-database.org (accessed February 28, 2024).
Vinogradov A. E., Borkin L. J., Günther R., and Rosanov J. M. (1990), «Genome elimination in diploid and triploid Rana esculenta males: cytological evidence from DNA flow cytometry», Genome, 33, 619 – 627.
DOI: https://doi.org/10.30906/1026-2296-2024-31-4-235-238
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