174 results on '"Ezaz T"'
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2. The Response of the Planorbid Snail Isidorella newcombi to Chronic Copper Exposure Over a 28-Day Period: Linking Mortality, Cellular Biomarkers, and Reproductive Responses
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Ubrihien, R. P., Maher, W. A., Taylor, A. M., Stevens, M. M., and Ezaz, T.
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- 2020
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3. Diversity of reptile sex chromosome evolution revealed by cytogenetic and linked-read sequencing
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Zhu, ZX, Matsubara, K, Shams, F, Dobry, J, Wapstra, E, Gamble, T, Sarre, SD, Georges, A, Graves, Jennifer, Zhou, Q, and Ezaz, T
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Uncategorized - Abstract
Reptile sex determination is attracting much attention because the great diversity of sex-determination and dosage compensation mechanisms permits us to approach fundamental questions about mechanisms of sex chromosome turnover. Recent studies have made significant progress in better understanding diversity and conservation of reptile sex chromosomes, with however no reptile master sex determination genes identified. Here we describe an integrated genomics and cytogenetics pipeline, combining probes generated from the microdissected sex chromosomes with transcriptome and genome sequencing to explore the sex chromosome diversity in non-model Australian reptiles. We tested our pipeline on a turtle, two species of geckos, and a monitor lizard. Genes identified on sex chromosomes were compared to the chicken genome to identify homologous regions among the four species. We identified candidate sex determining genes within these regions, including conserved vertebrate sex-determining genes pdgfa, pdgfra amh and wt1, and demonstrated their testis or ovary-specific expression. All four species showed gene-by-gene rather than chromosome-wide dosage compensation. Our results imply that reptile sex chromosomes originated by independent acquisition of sex-determining genes on different autosomes, as well as translocations between different ancestral macro- and microchromosomes. We discuss the evolutionary drivers of the slow differentiation and turnover of reptile sex chromosomes.
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- 2022
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4. Energetics of twinning in martensitic NiTi
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Ezaz, T., Sehitoglu, H., and Maier, H.J.
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- 2011
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5. 13. Identifying reciprocal chromosomal translocations in boars affecting litter size
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Shams, F., primary, D'Souza, D.N., additional, and Ezaz, T., additional
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- 2021
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6. Molecular cytogenetic map of the central bearded dragon, Pogona vitticeps (Squamata: Agamidae)
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Young, M. J., O’Meally, D., Sarre, S. D., Georges, A., and Ezaz, T.
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- 2013
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7. Balanced Chromosomal Rearrangements Associated with Hypoprolificacy in Australian Boars (Sus scrofa domesticus).
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Shams, F, D'Souza, D, Ezaz, T, Shams, F, D'Souza, D, and Ezaz, T
- Abstract
Balanced chromosomal rearrangements, mainly reciprocal translocations, are considered to be the causative agent of several clinical conditions in farmed pigs, resulting in hypoprolificacy and economic losses. Literature suggests that reciprocal translocations are heritable and can occur de novo. The prevalence rate of these balanced structural rearrangements of chromosomes differs from country to country and varies between 0.5% and 3.3%. The Australian pig population is descendent of a small founder population and has since been a closed genetic group since the 1980s. Hence, any incident of reciprocal translocation along with the pedigree of boars that contribute sperm for artificial insemination has the potential to have an economic consequence. To date, there has been no published account for screening of reciprocal translocation associated with hypoprolificacy in the Australian pig population. In this study, we performed standard and molecular cytogenetic analyses to identify evidence of chromosome rearrangements and their association with hypoprolificacy in a representative 94 boar samples from a commercial nucleus herd. We identified three novel rearrangements between chromosomes 5 and 14, between chromosomes 9 and 10, and between chromosomes 10 and 12. In addition, we also detected a reciprocal translocation between chromosomes 3 and 16 that has previously been detected in pig herds in France. The prevalence rate was 6.38% within the samples used in this study. All four rearrangements were found to have an association with hypoprolificacy. Further study and routine monitoring will be necessary to identify any further rearrangements that will allow breeders to prevent the propagation of reciprocal translocations from generation to generation within the Australian pig population.
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- 2021
8. Australian lizards are outstanding models for reproductive biology research
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Van Dyke, JU, Van Dyke, JU, Thompson, MB, Burridge, CP, Castelli, MA, Clulow, S, DIssanayake, DSB, Dong, CM, Doody, JS, Edwards, DL, Ezaz, T, Friesen, CR, Gardner, MG, Georges, A, Higgie, M, Hill, PL, Holleley, CE, Hoops, D, Hoskin, CJ, Merry, DL, Riley, JL, Wapstra, E, While, GM, Whiteley, SL, Whiting, MJ, Zozaya, SM, Whittington, CM, Van Dyke, JU, Van Dyke, JU, Thompson, MB, Burridge, CP, Castelli, MA, Clulow, S, DIssanayake, DSB, Dong, CM, Doody, JS, Edwards, DL, Ezaz, T, Friesen, CR, Gardner, MG, Georges, A, Higgie, M, Hill, PL, Holleley, CE, Hoops, D, Hoskin, CJ, Merry, DL, Riley, JL, Wapstra, E, While, GM, Whiteley, SL, Whiting, MJ, Zozaya, SM, and Whittington, CM
- Abstract
Australian lizards are a diverse group distributed across the continent and inhabiting a wide range of environments. Together, they exhibit a remarkable diversity of reproductive morphologies, physiologies, and behaviours that is broadly representative of vertebrates in general. Many reproductive traits exhibited by Australian lizards have evolved independently in multiple lizard lineages, including sociality, complex signalling and mating systems, viviparity, and temperature-dependent sex determination. Australian lizards are thus outstanding model organisms for testing hypotheses about how reproductive traits function and evolve, and they provide an important basis of comparison with other animals that exhibit similar traits. We review how research on Australian lizard reproduction has contributed to answering broader evolutionary and ecological questions that apply to animals in general. We focus on reproductive traits, processes, and strategies that are important areas of current research, including behaviours and signalling involved in courtship; mechanisms involved in mating, egg production, and sperm competition; nesting and gestation; sex determination; and finally, birth in viviparous species. We use our review to identify important questions that emerge from an understanding of this body of research when considered holistically. Finally, we identify additional research questions within each topic that Australian lizards are well suited for reproductive biologists to address.
- Published
- 2021
9. Isolation and characterisation of novel microsatellite and mitochondrial DNA markers for the Eastern Water Dragon (Physignathus lesueurii)
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Frère, C. H., Prentis, P. J., Ezaz, T., and Georges, A.
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- 2012
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10. Novel evolutionary pathways of sex-determining mechanisms
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Schwanz, L. E., Ezaz, T., Gruber, B., and Georges, A.
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- 2013
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11. Microchromosomes
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Ezaz, T., primary and Young, M., additional
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- 2013
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12. Historical demography and climate driven distributional changes in a widespread Neotropical freshwater species with high economic importance
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Oliveira, E. A., primary, Perez, M. F., additional, Bertollo, L. A. C., additional, Gestich, C. C., additional, Ráb, P., additional, Ezaz, T., additional, Souza, F. H. S., additional, Viana, P., additional, Feldberg, E., additional, Oliveira, E. H. C., additional, and Cioffi, M. B., additional
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- 2020
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13. Extension, single-locus conversion and physical mapping of sex chromosome sequences identify the Z microchromosome and pseudo-autosomal region in a dragon lizard, Pogona vitticeps
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Quinn, A.E., Ezaz, T., Sarre, S.D., Marshall, J.A., Georges, A., and Graves, A.
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Agamid lizards -- Genetic aspects ,Agamid lizards -- Physiological aspects ,Sex determination, Genetic -- Research ,Polymerase chain reaction -- Usage ,Sex chromosomes -- Research ,Biological sciences - Published
- 2010
14. Highly conserved Z and molecularly diverged W chromosomes in the fish genus Triportheus (Characiformes, Triportheidae)
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Yano, C F, primary, Bertollo, L A C, additional, Ezaz, T, additional, Trifonov, V, additional, Sember, A, additional, Liehr, T, additional, and Cioffi, M B, additional
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- 2016
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15. Higher order twin modes in martensitic NiTi—The (201¯) case
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Ezaz, T., primary, Sehitoglu, H., additional, Abuzaid, W., additional, and Maier, H.J., additional
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- 2012
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16. Highly conserved Z and molecularly diverged W chromosomes in the fish genus Triportheus (Characiformes, Triportheidae)
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Yano, C F, Bertollo, L A C, Ezaz, T, Trifonov, V, Sember, A, Liehr, T, and Cioffi, M B
- Abstract
The main objectives of this study were to test: (1) whether the W-chromosome differentiation matches to species’ evolutionary divergence (phylogenetic concordance) and (2) whether sex chromosomes share a common ancestor within a congeneric group. The monophyletic genus Triportheus (Characiformes, Triportheidae) was the model group for this study. All species in this genus so far analyzed have ZW sex chromosome system, where the Z is always the largest chromosome of the karyotype, whereas the W chromosome is highly variable ranging from almost homomorphic to highly heteromorphic. We applied conventional and molecular cytogenetic approaches including C-banding, ribosomal DNA mapping, comparative genomic hybridization (CGH) and cross-species whole chromosome painting (WCP) to test our questions. We developed Z- and W-chromosome paints from T. auritus for cross-species WCP and performed CGH in a representative species (T. signatus) to decipher level of homologies and rates of differentiation of W chromosomes. Our study revealed that the ZW sex chromosome system had a common origin, showing highly conserved Z chromosomes and remarkably divergent W chromosomes. Notably, the W chromosomes have evolved to different shapes and sequence contents within ~15–25 Myr of divergence time. Such differentiation highlights a dynamic process of W-chromosome evolution within congeneric species of Triportheus.
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- 2017
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17. Isolation and characterisation of novel microsatellite and mitochondrial DNA markers for the Eastern Water Dragon (Physignathus lesueurii)
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Frère, C. H., primary, Prentis, P. J., additional, Ezaz, T., additional, and Georges, A., additional
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- 2011
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18. Coupled shear and shuffle modes during twin growth in B2-NiTi
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Ezaz, T., primary and Sehitoglu, H., additional
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- 2011
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19. Are Reptiles Predisposed to Temperature- Dependent Sex Determination?
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Georges, A., primary, Ezaz, T., additional, Quinn, A.E., additional, and Sarre, S.D., additional
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- 2010
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20. Extension, single-locus conversion and physical mapping of sex chromosome sequences identify the Z microchromosome and pseudo-autosomal region in a dragon lizard, Pogona vitticeps
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Quinn, A E, primary, Ezaz, T, additional, Sarre, S D, additional, Graves, JA Marshall, additional, and Georges, A, additional
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- 2009
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21. Sex Chromosome Evolution in Lizards: Independent Origins and Rapid Transitions
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Ezaz, T., primary, Sarre, S.D., additional, O’Meally, D., additional, Marshall Graves, J.A., additional, and Georges, A., additional
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- 2009
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22. The First Cytogenetic Map of the Tuatara, Sphenodon punctatus
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O’Meally, D., primary, Miller, H., additional, Patel, H.R., additional, Marshall Graves, J.A., additional, and Ezaz, T., additional
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- 2009
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23. Recombination and Nucleotide Diversity in the Sex Chromosomal Pseudoautosomal Region of the Emu, Dromaius novaehollandiae
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Janes, D. E., primary, Ezaz, T., additional, Marshall Graves, J. A., additional, and Edwards, S. V., additional
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- 2008
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24. Characterization, chromosomal location, and genomic neighborhood of a ratite ortholog of a gene with gonadal expression in mammals
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Janes, D. E., primary, Ezaz, T., additional, Graves, J. A. M., additional, and Edwards, S. V., additional
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- 2008
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25. A new look at the evolution of avian sex chromosomes
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Stiglec, R., primary, Ezaz, T., additional, and Graves, J.A.M., additional
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- 2007
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26. Reassignment of chicken W chromosome sequences to the Z chromosome by fluorescence in situ hybridization (FISH)
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Stiglec, R., primary, Ezaz, T., additional, and Graves, J.A.M., additional
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- 2007
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27. Sex Chromosome Evolution in Lizards: Independent Origins and Rapid Transitions.
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Ezaz, T., Sarre, S. D., O'Meally, D., Graves, J. A. Marshall, and Georges, A.
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LIZARD reproduction , *REPTILES , *SEX chromosomes , *GENETIC sex determination , *SQUAMATA , *CYTOGENETICS , *GENOMICS , *REPRODUCTION , *TEMPERATURE-dependent sex determination - Abstract
Reptiles epitomize the variability of reproductive and sex determining modes and mechanisms among amniotes. These modes include gonochorism (separate sexes) and parthenogenesis, oviparity, viviparity, and ovoviviparity, genotypic sex determination (GSD) with male (XX/XY) and female (ZZ/ZW) heterogamety and temperature-dependent sex determination (TSD). Lizards (order Squamata, suborder Sauria) are particularly fascinating because the distribution of sex-determining mechanisms shows no clear phylogenetic segregation. This implies that there have been multiple transitions between TSD and GSD, and between XY and ZW sex chromosome systems. Approximately 1,000 species of lizards have been karyotyped and among those, fewer than 200 species have sex chromosomes, yet they display remarkable diversity in morphology and degree of degeneration. The high diversity of sex chromosomes as well as the presence of species with TSD, imply multiple and independent origins of sex chromosomes, and suggest that the mechanisms of sex determination are extremely labile in lizards. In this paper, we review the current state of knowledge of sex chromosomes in lizards and the distribution of sex determining mechanisms and sex chromosome forms within and among families. We establish for the first time an association between the occurrence of female heterogamety and TSD within lizard families, and propose mechanisms by which female heterogamety and TSD may have co-evolved. We suggest that lizard sex determination may be much more the result of an interplay between sex chromosomes and temperature than previously thought, such that the sex determination mode is influenced by the nature of heterogamety as well as temperature sensitivity and the stage of sex chromosome degeneration. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]
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- 2010
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28. The First Cytogenetic Map of the Tuatara, Sphenodon punctatus.
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O'Meally, D., Miller, H., Patel, H. R., Graves, J. A. Marshall, and Ezaz, T.
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TUATARA ,SPHENODON ,SEX chromosomes ,KARYOTYPES ,CYTOGENETICS ,GENOMICS - Abstract
Tuatara, Sphenodon punctatus, is the last survivor of the distinctive reptilian order Rhynchocephalia and is a species of extraordinary zoological interest, yet only recently have genomic analyses been undertaken. The karyotype consists of 28 macrochromosomes and 8 microchromosomes. A Bacterial Artificial Chromosome (BAC) library constructed for this species has allowed the first characterization of the tuatara genome. Sequence analysis of 11 fully sequenced BAC clones (∼0.03% coverage) increased the estimate of genome wide GC composition to 47.8%, the highest reported for any vertebrate. Our physical mapping data demonstrate discrete accumulation of repetitive elements in large blocks on some chromosomes, particularly the microchromosomes. We suggest that the large size of the genome (5.0 pg/haploid) is due to the accumulation of repetitive sequences. The microchromosomes of tuatara are rich in repetitive sequences, and the observation of one animal that lacked a microchromosome pair suggests that at least this microchromosome is unnecessary for survival. We used BACs bearing orthologues of known genes to construct a low-coverage cytogenetic map containing 21 markers. We identified a region on chromosome 4 of tuatara that shares homology with 7 Mb of chicken chromosome 2, and therefore the orthologous region of the snake Z chromosome. We identified a region on tuatara chromosome 3 that is orthologous to the chicken Z, and a region on chromosome 9 orthologous to the mammalian X. Since the tuatara determines sex by temperature and has no sex chromosomes, this implies that different tuatara autosome regions are homologous with the sex chromosomes of mammals, birds and snakes. We have identified anchor BAC clones that can be used to reliably mark chromosomes 3–7, 10 and 13, some of which are difficult to distinguish based on morphology alone. Fluorescence in situ hybridization mapping of 18S rDNA confirms the presence of a single NOR located on the long arm of chromosome 7, as previously identified by silver staining. Further work to construct a dense physical map will lead to a better understanding of the dynamics of genome evolution and organization in this isolated species. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]
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- 2010
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29. Multiple karyotype differences between populations of the Hoplias malabaricus (Teleostei; Characiformes), a species complex in the gray area of the speciation process.
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Souza FHS, Perez MF, Ferreira PHN, Bertollo LAC, Ezaz T, Charlesworth D, and Cioffi MB
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- Animals, Male, Female, Genetics, Population, Sympatry genetics, Genetic Variation, Karyotyping, Sex Chromosomes genetics, Karyotype, Genetic Speciation, Characiformes genetics, Characiformes classification
- Abstract
Neotropical fishes exhibit remarkable karyotype diversity, whose evolution is poorly understood. Here, we studied genetic differences in 60 individuals, from 11 localities of one species, the wolf fish Hoplias malabaricus, from populations that include six different "karyomorphs". These differ in Y-X chromosome differentiation, and, in several cases, by fusions with autosomes that have resulted in multiple sex chromosomes. Other differences are also observed in diploid chromosome numbers and morphologies. In an attempt to start understanding how this diversity was generated, we analyzed within- and between-population differences in a genome-wide sequence data set. We detect clear genotype differences between karyomorphs. Even in sympatry, samples with different karyomorphs differ more in sequence than samples from allopatric populations of the same karyomorph, suggesting that they represent populations that are to some degree reproductively isolated. However, sequence divergence between populations with different karyomorphs is remarkably low, suggesting that chromosome rearrangements may have evolved during a brief evolutionary time. We suggest that the karyotypic differences probably evolved in allopatry, in small populations that would have allowed rapid fixation of rearrangements, and that they became sympatric after their differentiation. Further studies are needed to test whether the karyotype differences contribute to reproductive isolation detected between some H. malabaricus karyomorphs., (© 2024. The Author(s), under exclusive licence to The Genetics Society.)
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- 2024
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30. Evidence for a metal disease refuge: The amphibian-killing fungus (Batrachochytrium dendrobatidis) is inhibited by environmentally-relevant concentrations of metals tolerated by amphibians.
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Esmaeilbeigi M, P Duncan R, J Kefford B, Ezaz T, and Clulow S
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- Animals, Copper toxicity, Zinc toxicity, Zinc pharmacology, Amphibians microbiology, Mycoses veterinary, Mycoses microbiology, Environmental Pollutants toxicity, Batrachochytrium drug effects
- Abstract
The amphibian-killing fungus Batrachochytrium dendrobatidis (Bd) has caused substantial declines in Bd-susceptible amphibian species worldwide. However, some populations of Bd-susceptible frogs have managed to survive at existing metal-polluted sites, giving rise to the hypothesis that frogs might persist in the presence of Bd if Bd is inhibited by metals at concentrations that frogs can tolerate. We tested this hypothesis by measuring the survival of Bd zoospores, the life stage that infects amphibians, and calculated the LC
50 after exposure to environmentally-relevant elevated concentrations of copper (Cu), zinc (Zn), and their combination (Cu + Zn) in two repeated 4-day acute exposure runs. We also measured the chronic sensitivity of Bd to these metals over three generations by measuring the number of colonies and live zoospores and calculating EC50 concentrations after 42 days of exposure. We then compared acute and chronic sensitivity of Bd with amphibian sensitivities by constructing species sensitivity distributions (SSDs) using LC50 and EC50 data obtained from the literature. Acute sensitivity data showed that Bd zoospore survival decreased with increasing metal concentrations and exposure durations relative to the control, with the highest LC50 values for Cu and Zn being 2.5 μg/L and 250 μg/L, respectively. Chronic exposures to metals resulted in decreased numbers of Bd colonies and live zoospores after 42 days, with EC50 values of 0.75 μg/L and 1.19 μg/L for Cu and Zn, respectively. Bd zoospore survival was 10 and 8 times more sensitive to Cu and Zn, respectively in acute, and 2 and 5 times more sensitive to Cu and Zn in chronic exposure experiments than the most sensitive amphibian species recorded. Our findings are consistent with the hypothesis that metals in existing metal-polluted sites may have a greater impact on Bd relative to amphibians' performance, potentially enabling Bd-susceptible amphibians to persist with Bd at these sites., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Crown Copyright © 2024. Published by Elsevier Inc. All rights reserved.)- Published
- 2024
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31. Using a Handful of Transcriptomes to Detect Sex-Linked Markers and Develop Molecular Sexing Assays in a Species with Homomorphic Sex Chromosomes.
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Saunders PA, Ferre-Ortega C, Hill PL, Simakov O, Ezaz T, Burridge CP, and Wapstra E
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- Female, Male, Humans, Genome, Genomics, Transcriptome, Sex Chromosomes genetics
- Abstract
To understand the biology of a species, it is often crucial to be able to differentiate males and females. However, many species lack easily identifiable sexually dimorphic traits. In those that possess sex chromosomes, molecular sexing offers a good alternative, and molecular sexing assays can be developed through the comparison of male and female genomic sequences. However, in many nonmodel species, sex chromosomes are poorly differentiated, and identifying sex-linked sequences and developing sexing assays can be challenging. In this study, we highlight a simple transcriptome-based procedure for the detection of sex-linked markers suitable for the development of sexing assays that circumvents limitations of more commonly used approaches. We apply it to the spotted snow skink Carinascincus ocellatus, a viviparous lizard with homomorphic XY chromosomes that has environmentally induced sex reversal. With transcriptomes from three males and three females alone, we identify thousands of putative Y-linked sequences. We confirm linkage through alignment of assembled transcripts to a distantly related lizard genome and readily design multiple single locus polymerase chain reaction primers to sex C. ocellatus and related species. Our approach also facilitates valuable comparisons of sex determining systems on a broad taxonomic scale., (© The Author(s) 2024. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)
- Published
- 2024
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32. Evolution of ancient satellite DNAs in extant alligators and caimans (Crocodylia, Reptilia).
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Sales-Oliveira VC, Dos Santos RZ, Goes CAG, Calegari RM, Garrido-Ramos MA, Altmanová M, Ezaz T, Liehr T, Porto-Foresti F, Utsunomia R, and Cioffi MB
- Subjects
- Animals, Chromosomes, Genomics, Evolution, Molecular, DNA, Satellite genetics, Alligators and Crocodiles genetics
- Abstract
Background: Crocodilians are one of the oldest extant vertebrate lineages, exhibiting a combination of evolutionary success and morphological resilience that has persisted throughout the history of life on Earth. This ability to endure over such a long geological time span is of great evolutionary importance. Here, we have utilized the combination of genomic and chromosomal data to identify and compare the full catalogs of satellite DNA families (satDNAs, i.e., the satellitomes) of 5 out of the 8 extant Alligatoridae species. As crocodilian genomes reveal ancestral patterns of evolution, by employing this multispecies data collection, we can investigate and assess how satDNA families evolve over time., Results: Alligators and caimans displayed a small number of satDNA families, ranging from 3 to 13 satDNAs in A. sinensis and C. latirostris, respectively. Together with little variation both within and between species it highlighted long-term conservation of satDNA elements throughout evolution. Furthermore, we traced the origin of the ancestral forms of all satDNAs belonging to the common ancestor of Caimaninae and Alligatorinae. Fluorescence in situ experiments showed distinct hybridization patterns for identical orthologous satDNAs, indicating their dynamic genomic placement., Conclusions: Alligators and caimans possess one of the smallest satDNA libraries ever reported, comprising only four sets of satDNAs that are shared by all species. Besides, our findings indicated limited intraspecific variation in satellite DNA, suggesting that the majority of new satellite sequences likely evolved from pre-existing ones., (© 2024. The Author(s).)
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- 2024
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33. Multiple Transitions between Y Chromosome and Autosome in Tago's Brown Frog Species Complex.
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Miura I, Shams F, Ohki J, Tagami M, Fujita H, Kuwana C, Nanba C, Matsuo T, Ogata M, Mawaribuchi S, Shimizu N, and Ezaz T
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- Animals, Humans, Ranidae genetics, Biological Evolution, Chromosomes, Human, Y, Anura genetics, Sex Chromosomes genetics
- Abstract
Sex chromosome turnover is the transition between sex chromosomes and autosomes. Although many cases have been reported in poikilothermic vertebrates, their evolutionary causes and genetic mechanisms remain unclear. In this study, we report multiple transitions between the Y chromosome and autosome in the Japanese Tago's brown frog complex. Using chromosome banding and molecular analyses (sex-linked and autosomal single nucleotide polymorphisms, SNPs, from the nuclear genome), we investigated the frogs of geographic populations ranging from northern to southern Japan of two species, Rana tagoi and Rana sakuraii (2n = 26). Particularly, the Chiba populations of East Japan and Akita populations of North Japan in R. tagoi have been, for the first time, investigated here. As a result, we identified three different sex chromosomes, namely chromosomes 3, 7, and 13, in the populations of the two species. Furthermore, we found that the transition between the Y chromosome (chromosome 7) and autosome was repeated through hybridization between two or three different populations belonging to the two species, followed by restricted chromosome introgression. These dynamic sex chromosome turnovers represent the first such findings in vertebrates and imply that speciation associated with inter- or intraspecific hybridization plays an important role in sex chromosome turnover in frogs.
- Published
- 2024
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34. Genomic Basis of Freshwater Adaptation in the Palaemonid Prawn Genus Macrobrachium: Convergent Evolution Following Multiple Independent Colonization Events.
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Rahi ML, Mather PB, de Bello Cioffi M, Ezaz T, and Hurwood DA
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- Animals, Phylogeny, Genomics, Fresh Water, Genome genetics, Palaemonidae genetics
- Abstract
Adaptation to different salinity environments can enhance morphological and genomic divergence between related aquatic taxa. Species of prawns in the genus Macrobrachium naturally inhabit different osmotic niches and possess distinctive lifecycle traits associated with salinity tolerance. This study was conducted to investigate the patterns of adaptive genomic divergence during freshwater colonization in 34 Macrobrachium species collected from four continents; Australia, Asia, North and South America. Genotyping-by-sequencing (GBS) technique identified 5018 loci containing 82,636 single nucleotide polymorphisms (SNPs) that were used to reconstruct a phylogenomic tree. An additional phylogeny was reconstructed based on 43 candidate genes, previously identified as being potentially associated with freshwater adaptation. Comparison of the two phylogenetic trees revealed contrasting topologies. The GBS tree indicated multiple independent continent-specific invasions into freshwater by Macrobrachium lineages following common marine ancestry, as species with abbreviated larval development (ALD), i.e., species having a full freshwater life history, appeared reciprocally monophyletic within each continent. In contrast, the candidate gene tree showed convergent evolution for all ALD species worldwide, forming a single, well-supported clade. This latter pattern is likely the result of common evolutionary pressures selecting key mutations favored in continental freshwater habitats Results suggest that following multiple independent invasions into continental freshwaters at different evolutionary timescales, Macrobrachium taxa experienced adaptive genomic divergence, and in particular, convergence in the same genomic regions with parallel shifts in specific conserved phenotypic traits, such as evolution of larger eggs with abbreviated larval developmental., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)
- Published
- 2023
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35. Preserving Pure Siamese Crocodile Populations: A Comprehensive Approach Using Multi-Genetic Tools.
- Author
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Panthum T, Ariyaraphong N, Wongloet W, Wattanadilokchatkun P, Laopichienpong N, Rasoarahona R, Singchat W, Ahmad SF, Kraichak E, Muangmai N, Duengkae P, Fukuda Y, Banks S, Temsiripong Y, Ezaz T, and Srikulnath K
- Abstract
Hybrids between the critically endangered Siamese crocodile ( Crocodylus siamensis ) and least-concern saltwater crocodile ( C. porosus ) in captive populations represent a serious challenge for conservation and reintroduction programs due to the impact of anthropogenic activities. A previous study used microsatellite and mitochondrial DNA data to establish the criteria for identifying species and their hybrids; however, the results may have been influenced by biased allelic frequencies and genetic drift within the examined population. To overcome these limitations and identify the true signals of selection, alternative DNA markers and a diverse set of populations should be employed. Therefore, this study used DArT sequencing to identify genome-wide single nucleotide polymorphisms (SNPs) in both species and confirm the genetic scenario of the parental species and their hybrids. A population of saltwater crocodiles from Australia was used to compare the distribution of species-diagnostic SNPs. Different analytical approaches were compared to diagnose the level of hybridization when an admixture was present, wherein three individuals had potential backcrossing. Approximately 17.00-26.00% of loci were conserved between the Siamese and saltwater crocodile genomes. Species-diagnostic SNP loci for Siamese and saltwater crocodiles were identified as 8051 loci and 1288 loci, respectively. To validate the species-diagnostic SNP loci, a PCR-based approach was used by selecting 20 SNP loci for PCR primer design, among which 3 loci were successfully able to differentiate the actual species and different hybridization levels. Mitochondrial and nuclear genetic information, including microsatellite genotyping and species-diagnostic DNA markers, were combined as a novel method that can compensate for the limitations of each method. This method enables conservation prioritization before release into the wild, thereby ensuring sustainable genetic integrity for long-term species survival through reintroduction and management programs.
- Published
- 2023
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36. Cross-species chromosome painting and repetitive DNA mapping illuminate the karyotype evolution in true crocodiles (Crocodylidae).
- Author
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Sales-Oliveira V, Altmanová M, Gvoždík V, Kretschmer R, Ezaz T, Liehr T, Padutsch N, Badjedjea G, Utsunomia R, Tanomtong A, and Cioffi M
- Subjects
- Animals, Chromosome Painting, In Situ Hybridization, Fluorescence, Comparative Genomic Hybridization, Karyotype, Evolution, Molecular, Alligators and Crocodiles genetics
- Abstract
Crocodilians have maintained very similar karyotype structures and diploid chromosome numbers for around 100 million years, with only minor variations in collinearity. Why this karyotype structure has largely stayed unaltered for so long is unclear. In this study, we analyzed the karyotypes of six species belonging to the genera Crocodylus and Osteolaemus (Crocodylidae, true crocodiles), among which the Congolian endemic O. osborni was included and investigated. We utilized various techniques (differential staining, fluorescence in situ hybridization with repetitive DNA and rDNA probes, whole chromosome painting, and comparative genomic hybridization) to better understand how crocodile chromosomes evolved. We studied representatives of three of the four main diploid chromosome numbers found in crocodiles (2n = 30/32/38). Our data provided new information about the species studied, including the identification of four major chromosomal rearrangements that occurred during the karyotype diversification process in crocodiles. These changes led to the current diploid chromosome numbers of 2n = 30 (fusion) and 2n = 38 (fissions), derived from the ancestral state of 2n = 32. The conserved cytogenetic tendency in crocodilians, where extant species keep near-ancestral state, contrasts with the more dynamic karyotype evolution seen in other major reptile groups., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
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- 2023
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37. Following the Pathway of W Chromosome Differentiation in Triportheus (Teleostei: Characiformes).
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de Oliveira MPB, Kretschmer R, Deon GA, Toma GA, Ezaz T, Goes CAG, Porto-Foresti F, Liehr T, Utsunomia R, and Cioffi MB
- Abstract
In this work, we trace the dynamics of satellite DNAs (SatDNAs) accumulation and elimination along the pathway of W chromosome differentiation using the well-known Triportheus fish model. Triportheus stands out due to a conserved ZZ/ZW sex chromosome system present in all examined species. While the Z chromosome is conserved in all species, the W chromosome is invariably smaller and exhibits differences in size and morphology. The presumed ancestral W chromosome is comparable to that of T. auritus , and contains 19 different SatDNA families. Here, by examining five additional Triportheus species, we showed that the majority of these repetitive sequences were eliminated as speciation was taking place. The W chromosomes continued degeneration, while the Z chromosomes of some species began to accumulate some TauSatDNAs. Additional species-specific SatDNAs that made up the heterochromatic region of both Z and W chromosomes were most likely amplified in each species. Therefore, the W chromosomes of the various Triportheus species have undergone significant evolutionary changes in a short period of time (15-25 Myr) after their divergence.
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- 2023
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38. Fixed Allele Differences Associated With the Centromere Reveal Chromosome Morphology and Rearrangements in a Reptile (Varanus acanthurus BOULENGER).
- Author
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Dobry J, Zhu Z, Zhou Q, Wapstra E, Deakin JE, and Ezaz T
- Subjects
- Animals, Alleles, Centromere genetics, Gene Rearrangement, Evolution, Molecular, Lizards genetics
- Abstract
Chromosome rearrangements are often implicated with genomic divergence and are proposed to be associated with species evolution. Rearrangements alter the genomic structure and interfere with homologous recombination by isolating a portion of the genome. Integration of multiplatform next-generation DNA sequencing technologies has enabled putative identification of chromosome rearrangements in many taxa; however, integrating these data sets with cytogenetics is still uncommon beyond model genetic organisms. Therefore, to achieve the ultimate goal for the genomic classification of eukaryotic organisms, physical chromosome mapping remains critical. The ridge-tailed goannas (Varanus acanthurus BOULENGER) are a group of dwarf monitor lizards comprised of several species found throughout northern Australia. These lizards exhibit extreme divergence at both the genic and chromosomal levels. The chromosome polymorphisms are widespread extending across much of their distribution, raising the question if these polymorphisms are homologous within the V. acanthurus complex. We used a combined genomic and cytogenetic approach to test for homology across divergent populations with morphologically similar chromosome rearrangements. We showed that more than one chromosome pair was involved with the widespread rearrangements. This finding provides evidence to support de novo chromosome rearrangements have occurred within populations. These chromosome rearrangements are characterized by fixed allele differences originating in the vicinity of the centromeric region. We then compared this region with several other assembled genomes of reptiles, chicken, and the platypus. We demonstrated that the synteny of genes in Reptilia remains conserved despite centromere repositioning across these taxa., (© The Author(s) 2023. Published by Oxford University Press on behalf of Society for Molecular Biology and Evolution.)
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- 2023
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39. Cytogenetics Meets Genomics: Cytotaxonomy and Genomic Relationships among Color Variants of the Asian Arowana Scleropages formosus .
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Toma GA, Dos Santos N, Dos Santos R, Rab P, Kretschmer R, Ezaz T, Bertollo LAC, Liehr T, Porto-Foresti F, Hatanaka T, Tanomtong A, Utsunomia R, and Cioffi MB
- Subjects
- Animals, Fishes genetics, Karyotype, Cytogenetic Analysis, Genome, Genomics
- Abstract
Scleropages formosus (Osteoglossiformes, Teleostei) represents one of the most valued ornamental fishes, yet it is critically endangered due to overexploitation and habitat destruction. This species encompasses three major color groups that naturally occur in allopatric populations, but the evolutionary and taxonomic relationships of S. formosus color varieties remain uncertain. Here, we utilized a range of molecular cytogenetic techniques to characterize the karyotypes of five S. formosus color phenotypes, which correspond to naturally occurring variants: the red ones (Super Red); the golden ones (Golden Crossback and Highback Golden); the green ones (Asian Green and Yellow Tail Silver). Additionally, we describe the satellitome of S. formosus (Highback Golden) by applying a high-throughput sequencing technology. All color phenotypes possessed the same karyotype structure 2n = 50 (8m/sm + 42st/a) and distribution of SatDNAs, but different chromosomal locations of rDNAs, which were involved in a chromosome size polymorphism. Our results show indications of population genetic structure and microstructure differences in karyotypes of the color phenotypes. However, the findings do not clearly back up the hypothesis that there are discrete lineages or evolutionary units among the color phenotypes of S. formosus , but another case of interspecific chromosome stasis cannot be excluded.
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- 2023
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40. Widespread chromosomal rearrangements preceded genetic divergence in a monitor lizard, Varanus acanthurus (Varanidae).
- Author
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Dobry J, Wapstra E, Stringer EJ, Gruber B, Deakin JE, and Ezaz T
- Subjects
- Animals, Chromosome Inversion, Gene Rearrangement, Genetic Drift, Genetic Speciation, Polymorphism, Genetic, Lizards genetics
- Abstract
Chromosomal rearrangements are often associated with local adaptation and speciation because they suppress recombination, and as a result, rearrangements have been implicated in disrupting gene flow. Although there is strong evidence to suggest that chromosome rearrangements are a factor in genetic isolation of divergent populations, the underlying mechanism remains elusive. Here, we applied an integrative cytogenetics and genomics approach testing whether chromosomal rearrangements are the initial process, or a consequence, of population divergence in the dwarf goanna, Varanus acanthurus. Specifically, we tested whether chromosome rearrangements are indicators of genetic barriers that can be used to identify divergent populations by looking at gene flow within and between populations with rearrangements. We found that gene flow was present between individuals with chromosome rearrangements within populations, but there was no gene flow between populations that had similar chromosome rearrangements. Moreover, we identified a correlation between reduced genetic variation in populations with a higher frequency of homozygous submetacentric individuals. These findings suggest that chromosomal rearrangements were widespread prior to divergence, and because we found populations with higher frequencies of submetacentric chromosomes were associated with lower genetic diversity, this could indicate that polymorphisms within populations are early indicators of genetic drift., (© 2023. The Author(s).)
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- 2023
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41. Sex-linked markers in an Australian frog Platyplectrum ornatum (Limnodynastidae) with a small genome and homomorphic sex chromosomes.
- Author
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Schimek C, Shams F, Miura I, Clulow S, Majtanova Z, Deakin J, and Ezaz T
- Subjects
- Humans, Female, Male, Animals, Australia, Rana temporaria, Xenopus, Biomarkers, Anura genetics, Sex Chromosomes genetics
- Abstract
Amphibians have highly diverse sex-determining modes leading to a notable interest in vertebrate sex determination and sex chromosome evolution. The identification of sex-determining systems in amphibians, however, is often difficult as a vast majority consist of homomorphic sex chromosomes making them hard to distinguish. In this study, we used Diversity Array Technology sequencing (DArTseq) to identify the sex-determining system in the ornate burrowing frog from Australia, Platyplectrum ornatum. We applied DArTseq to 44 individuals, 19 males and 25 females, collected from two locations to develop sex-linked markers. Unexpectedly, these 44 individuals were classified into two distinct population clusters based on our SNP analyses, 36 individuals in cluster 1, and 8 individuals in cluster 2. We then performed sex-linkage analyses separately in each cluster. We identified 35 sex-linked markers from cluster 1, which were all associated with maleness. Therefore, P. ornatum cluster 1 is utilising a male heterogametic (XX/XY) sex-determining system. On the other hand, we identified 210 sex-linked markers from cluster 2, of which 89 were male specific, i.e., identifying XX/XY sex determining system and 111 were female specific, i.e., identifying ZZ/ZW sex determining system, suggesting existence of either male or female heterogametic sex determining system in cluster 2. We also performed cytogenetic analyses in 1 male and 1 female from cluster 1; however, we did not detect any visible differentiation between the X and Y sex chromosomes. We also mapped sex-linked markers from the two clusters against the P. ornatum genome and our comparative analysis indicated that the sex chromosomes in both clusters shared homologies to chromosome 10 (autosome) of Rana temporaria and ZWY sex chromosome of Xenopus tropicalis. Our preliminary data suggest that it is plausible that the cluster 2 has a potential to be either male or female heterogamety in sex determination, requiring further investigation., (© 2022. The Author(s).)
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- 2022
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42. Diversity of reptile sex chromosome evolution revealed by cytogenetic and linked-read sequencing.
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Zhu ZX, Matsubara K, Shams F, Dobry J, Wapstra E, Gamble T, Sarre SD, Georges A, Graves JAM, Zhou Q, and Ezaz T
- Subjects
- Animals, Australia, Cytogenetic Analysis veterinary, Female, Male, Sex Chromosomes genetics, Evolution, Molecular, Lizards genetics
- Abstract
Reptile sex determination is attracting much attention because the great diversity of sex-determination and dosage compensation mechanisms permits us to approach fundamental questions about mechanisms of sex chromosome turnover. Recent studies have made significant progress in better understanding diversity and conservation of reptile sex chromosomes, with however no reptile master sex determination genes identified. Here we describe an integrated genomics and cytogenetics pipeline, combining probes generated from the microdissected sex chromosomes with transcriptome and genome sequencing to explore the sex chromosome diversity in non-model Australian reptiles. We tested our pipeline on a turtle, two species of geckos, and a monitor lizard. Genes identified on sex chromosomes were compared to the chicken genome to identify homologous regions among the four species. We identified candidate sex determining genes within these regions, including conserved vertebrate sex-determining genes pdgfa, pdgfra amh and wt1 , and demonstrated their testis or ovary-specific expression. All four species showed gene-by-gene rather than chromosome-wide dosage compensation. Our results imply that reptile sex chromosomes originated by independent acquisition of sex-determining genes on different autosomes, as well as translocations between different ancestral macro- and microchromosomes. We discuss the evolutionary drivers of the slow differentiation and turnover of reptile sex chromosomes.
- Published
- 2022
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43. Highly rapid and diverse sex chromosome evolution in the Odorrana frog species complex.
- Author
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Katsumi T, Shams F, Yanagi H, Ohnishi T, Toda M, Lin SM, Mawaribuchi S, Shimizu N, Ezaz T, and Miura I
- Subjects
- Animals, Anura genetics, Evolution, Molecular, Female, Genome, Male, Ranidae genetics, Sex Chromosomes genetics, Sex Determination Processes genetics
- Abstract
Sex chromosomes in poikilothermal vertebrates are characterized by rapid and diverse evolution at the species or population level. Our previous study revealed that the Taiwanese frog Odorrana swinhoana (2n = 26) has a unique system of multiple sex chromosomes created by three sequential translocations among chromosomes 1, 3, and 7. To reveal the evolutionary history of sex chromosomes in the Odorrana species complex, we first identified the original, homomorphic sex chromosomes, prior to the occurrence of translocations, in the ancestral-type population of O. swinhoana. Then, we extended the investigation to a closely related Japanese species, Odorrana utsunomiyaorum, which is distributed on two small islands. We used a high-throughput nuclear genomic approach to analyze single-nucleotide polymorphisms and identify the sex-linked markers. Those isolated from the O. swinhoana ancestral-type population were found to be aligned to chromosome 1 and showed male heterogamety. In contrast, almost all the sex-linked markers isolated from O. utsunomiyaorum were heterozygous in females and homozygous in males and were aligned to chromosome 9. Morphologically, we confirmed chromosome 9 to be heteromorphic in females, showing a ZZ-ZW sex determination system, in which the W chromosomes were heterochromatinized in a stripe pattern along the chromosome axis. These results indicated that after divergence of the two species, the ancestral homomorphic sex chromosome 1 underwent highly rapid and diverse evolution, i.e., sequential translocations with two autosomes in O. swinhoana, and turnover to chromosome 9 in O. utsunomiyaorum, with a transition from XY to ZW heterogamety and change to heteromorphy., (© 2022 Japanese Society of Developmental Biologists.)
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- 2022
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44. Identification of ancestral sex chromosomes in the frog Glandirana rugosa bearing XX-XY and ZZ-ZW sex-determining systems.
- Author
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Miura I, Shams F, Jeffries DL, Katsura Y, Mawaribuchi S, Perrin N, Ito M, Ogata M, and Ezaz T
- Subjects
- Animals, Anura genetics, Evolution, Molecular, Female, Genetic Markers, Male, Ranidae genetics, Sex Chromosomes genetics, Sex Determination Processes genetics
- Abstract
Sex chromosomes constantly exist in a dynamic state of evolution: rapid turnover and change of heterogametic sex during homomorphic state, and often stepping out to a heteromorphic state followed by chromosomal decaying. However, the forces driving these different trajectories of sex chromosome evolution are still unclear. The Japanese frog Glandirana rugosa is one taxon well suited to the study on these driving forces. The species has two different heteromorphic sex chromosome systems, XX-XY and ZZ-ZW, which are separated in different geographic populations. Both XX-XY and ZZ-ZW sex chromosomes are represented by chromosome 7 (2n = 26). Phylogenetically, these two systems arose via hybridization between two ancestral lineages of West Japan and East Japan populations, of which sex chromosomes are homomorphic in both sexes and to date have not yet been identified. Identification of the sex chromosomes will give us important insight into the mechanisms of sex chromosome evolution in this species. Here, we used a high-throughput genomic approach to identify the homomorphic XX-XY sex chromosomes in both ancestral populations. Sex-linked DNA markers of West Japan were aligned to chromosome 1, whereas those of East Japan were aligned to chromosome 3. These results reveal that at least two turnovers across three different sex chromosomes 1, 3 and 7 occurred during evolution of this species. This finding raises the possibility that cohabitation of the two different sex chromosomes from ancestral lineages induced turnover to another new one in their hybrids, involving transition of heterogametic sex and evolution from homomorphy to heteromorphy., (© 2022 John Wiley & Sons Ltd.)
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- 2022
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45. Sex reversal explains some, but not all, climate-mediated sex ratio variation within a viviparous reptile.
- Author
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Hill P, While GM, Burridge CP, Ezaz T, Munch KL, McVarish M, and Wapstra E
- Subjects
- Animals, Climate, Female, Humans, Male, Sex Chromosomes, Sex Determination Processes, Lizards genetics, Sex Ratio
- Abstract
Evolutionary transitions in sex-determining systems have occurred frequently yet understanding how they occur remains a major challenge. In reptiles, transitions from genetic to temperature-dependent sex determination can occur if the gene products that determine sex evolve thermal sensitivity, resulting in sex-reversed individuals. However, evidence of sex reversal is limited to oviparous reptiles. Here we used thermal experiments to test whether sex reversal is responsible for differences in sex determination in a viviparous reptile, Carinascincus ocellatus, a species with XY sex chromosomes and population-specific sex ratio response to temperature. We show that sex reversal is occurring and that its frequency is related to temperature. Sex reversal was unidirectional (phenotypic males with XX genotype) and observed in both high- and low-elevation populations. We propose that XX-biased genotypic sex ratios could produce either male- or female-biased phenotypic sex ratios as observed in low-elevation C. ocellatus under variable rates of XX sex reversal. We discuss reasons why sex reversal may not influence sex ratios at high elevation. Our results suggest that the mechanism responsible for evolutionary transitions from genotypic to temperature-dependent sex determination is more complex than can be explained by a single process such as sex reversal.
- Published
- 2022
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46. Satellitome analysis illuminates the evolution of ZW sex chromosomes of Triportheidae fishes (Teleostei: Characiformes).
- Author
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Kretschmer R, Goes CAG, Bertollo LAC, Ezaz T, Porto-Foresti F, Toma GA, Utsunomia R, and de Bello Cioffi M
- Subjects
- Animals, DNA, Evolution, Molecular, Female, Fishes genetics, Genome, Genomics, Sex Chromosomes genetics, Characiformes genetics
- Abstract
Satellites are an abundant source of repetitive DNAs that play an essential role in the chromosomal organization and are tightly linked with the evolution of sex chromosomes. Among fishes, Triportheidae stands out as the only family where almost all species have a homeologous ZZ/ZW sex chromosomes system. While the Z chromosome is typically conserved, the W is always smaller, with variations in size and morphology between species. Here, we report an analysis of the satellitome of Triportheus auritus (TauSat) by integrating genomic and chromosomal data, with a special focus on the highly abundant and female-biased satDNAs. In addition, we investigated the evolutionary trajectories of the ZW sex chromosomes in the Triportheidae family by mapping satDNAs in selected representative species of this family. The satellitome of T. auritus comprised 53 satDNA families of which 24 were also hybridized by FISH. Most satDNAs differed significantly between sexes, with 19 out of 24 being enriched on the W chromosome of T. auritus. The number of satDNAs hybridized into the W chromosomes of T. signatus and T. albus decreased to six and four, respectively, in accordance with the size of their W chromosomes. No TauSat probes produced FISH signals on the chromosomes of Agoniates halecinus. Despite its apparent conservation, our results indicate that each species differs in the satDNA accumulation on the Z chromosome. Minimum spanning trees (MSTs), generated for three satDNA families with different patterns of FISH mapping data, revealed different homogenization rates between the Z and W chromosomes. These results were linked to different levels of recombination between them. The most abundant satDNA family (TauSat01) was exclusively hybridized in the centromeres of all 52 chromosomes of T. auritus, and its putative role in the centromere evolution was also highlighted. Our results identified a high differentiation of both ZW chromosomes regarding satellites composition, highlighting their dynamic role in the sex chromosomes evolution., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)
- Published
- 2022
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47. The Genetic Differentiation of Pyrrhulina (Teleostei, Characiformes) Species is Likely Influenced by Both Geographical Distribution and Chromosomal Rearrangements.
- Author
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Ferreira PHN, Souza FHS, de Moraes RL, Perez MF, Sassi FMC, Viana PF, Feldberg E, Ezaz T, Liehr T, Bertollo LAC, and Cioffi MB
- Abstract
Allopatry is generally considered to be one of the main contributors to the remarkable Neotropical biodiversity. However, the role of chromosomal rearrangements including neo-sex chromosomes for genetic diversity is still poorly investigated and understood. Here, we assess the genetic divergence in five Pyrrhulina species using population genomics and combined the results with previously obtained cytogenetic data, highlighting that molecular genetic diversity is consistent with their chromosomal features. The results of a principal coordinate analysis (PCoA) indicated a clear difference among all species while showing a closer relationship of the ones located in the same geographical region. This was also observed in genetic structure analyses that only grouped P. australis and P. marilynae , which were also recovered as sister species in a species tree analysis. We observed a contradictory result for the relationships among the three species from the Amazon basin, as the phylogenetic tree suggested P. obermulleri and P. semifasciata as sister species, while the PCoA showed a high genetic difference between P. semifasciata and all other species. These results suggest a potential role of sex-related chromosomal rearrangements as reproductive barriers between these species., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Ferreira, Souza, de Moraes, Perez, Sassi, Viana, Feldberg, Ezaz, Liehr, Bertollo and Cioffi.)
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- 2022
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48. Matamatas Chelus spp. (Testudines, Chelidae) have a remarkable evolutionary history of sex chromosomes with a long-term stable XY microchromosome system.
- Author
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Viana PF, Feldberg E, Takagui FH, Menezes S, Vogt RC, and Ezaz T
- Subjects
- Animals, Biological Evolution, Brazil, Evolution, Molecular, Karyotype, Phylogeny, Sex Chromosomes genetics, Turtles genetics
- Abstract
The genus Chelus, commonly known as Matamata is one of the most emblematic and remarkable species among the Neotropical chelids. It is an Amazonian species with an extensive distribution throughout Negro/Orinoco and Amazonas River basins. Currently, two species are formally recognized: Chelus orinocensis and Chelus fimbriata and although it is still classified as "Least Concern" in the IUCN, the Matamatas are very appreciated and illegally sold in the international pet trade. Regardless, little is known regarding many aspects of its natural history. Chromosomal features for Chelus, for instance, are meagre and practically restricted to the description of the diploid number (2n = 50) for Chelus fimbriata, and its sex determining strategies are yet to be fully investigated. Here, we examined the karyotype of Chelus fimbriata and the newly described Chelus orinocensis, applying an extensive conventional and molecular cytogenetic approach. This allowed us to identify a genetic sex determining mechanism with a micro XY sex chromosome system in both species, a system that was likely present in their most common recent ancestor Chelus colombiana. Furthermore, the XY system found in Chelus orinocensis and Chelus fimbriata, as seen in other chelid species, recruited several repeat motifs, possibly prior to the split of South America and Australasian lineages, indicating that such system indeed dates back to the earliest lineages of Chelid species., (© 2022. The Author(s).)
- Published
- 2022
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49. Integrating Cytogenetics and Population Genomics: Allopatry and Neo-Sex Chromosomes May Have Shaped the Genetic Divergence in the Erythrinus erythrinus Species Complex (Teleostei, Characiformes).
- Author
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Souza FHS, Sassi FMC, Ferreira PHN, Bertollo LAC, Ezaz T, Liehr T, Perez MF, and Cioffi MB
- Abstract
Diversity found in Neotropical freshwater fish is remarkable. It can even hinder a proper delimitation of many species, with the wolf fish Erythrinus erythrinus (Teleostei, Characiformes) being a notable example. This nominal species shows remarkable intra-specific variation, with extensive karyotype diversity found among populations in terms of different diploid chromosome numbers (2 n ), karyotype compositions and sex chromosome systems. Here, we analyzed three distinct populations (one of them cytogenetically investigated for the first time) that differed in terms of their chromosomal features (termed karyomorphs) and by the presence or absence of heteromorphic sex chromosomes. We combined cytogenetics with genomic approaches to investigate how the evolution of multiple sex chromosomes together with allopatry is linked to genetic diversity and speciation. The results indicated the presence of high genetic differentiation among populations both from cytogenetic and genomic aspects, with long-distance allopatry potentially being the main agent of genetic divergence. One population showed a neo-X
1 X2 Y sexual chromosome system and we hypothesize that this system is associated with enhanced inter-population genetic differentiation which could have potentially accelerated speciation compared to the effect of allopatry alone.- Published
- 2022
- Full Text
- View/download PDF
50. Sex-specific splicing of Z- and W-borne nr5a1 alleles suggests sex determination is controlled by chromosome conformation.
- Author
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Zhang X, Wagner S, Holleley CE, Deakin JE, Matsubara K, Deveson IW, O'Meally D, Patel HR, Ezaz T, Li Z, Wang C, Edwards M, Graves JAM, and Georges A
- Subjects
- Amino Acid Sequence, Animals, Chromosomes chemistry, Female, Gene Dosage, Lizards, Male, Models, Molecular, Molecular Conformation, Protein Conformation, Reptiles, Sex Chromosomes, Sex Factors, Steroidogenic Factor 1 chemistry, Structure-Activity Relationship, Alleles, Chromosomes genetics, RNA Splicing, Sex Determination Processes, Steroidogenic Factor 1 genetics
- Abstract
Pogona vitticeps has female heterogamety (ZZ/ZW), but the master sex-determining gene is unknown, as it is for all reptiles. We show that nr5a1 (Nuclear Receptor Subfamily 5 Group A Member 1), a gene that is essential in mammalian sex determination, has alleles on the Z and W chromosomes (Z- nr5a1 and W- nr5a1 ), which are both expressed and can recombine. Three transcript isoforms of Z- nr5a1 were detected in gonads of adult ZZ males, two of which encode a functional protein. However, ZW females produced 16 isoforms, most of which contained premature stop codons. The array of transcripts produced by the W-borne allele (W- nr5a1 ) is likely to produce truncated polypeptides that contain a structurally normal DNA-binding domain and could act as a competitive inhibitor to the full-length intact protein. We hypothesize that an altered configuration of the W chromosome affects the conformation of the primary transcript generating inhibitory W-borne isoforms that suppress testis determination. Under this hypothesis, the genetic sex determination (GSD) system of P. vitticeps is a W-borne dominant female-determining gene that may be controlled epigenetically., Competing Interests: The authors declare no competing interest., (Copyright © 2022 the Author(s). Published by PNAS.)
- Published
- 2022
- Full Text
- View/download PDF
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