Cytogenetics of three Brazilian species of Eleutherodactylus (Anura, Leptodactylidae) with 22 chromosomes and re-analysis of multiple translocations in E. binotatus

Siqueira-Jr., Sérgio; Ananias, Fernando; Recco‐Pimentel, Shirlei Maria

doi:10.1590/s1415-47572004000300010

Cited by 22 publications

(19 citation statements)

References 31 publications

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“…In S. aequifasciatus and S. haraldi, the formation of the chromosomal chains is probably a result of multiple translocations of small terminal segments of chromosomal pairs ( Figure 5). Similar mechanisms have been proposed to explain the multivalent configuration in the meiotic cells of the anuran amphibians Physalaemus petersi and Eleutherodactylus binotatus (Lourenço et al, 2000;Siqueira Jr et al, 2004). In general, the hybridization and the presence of heterozygous translocations reduce population fitness due to the formation of unbalanced gametes.…”

Section: Discussionmentioning

confidence: 60%

“…The analysis of meiotic chromosomal configuration has been very useful for confirming the occurrence of polyploidization, duplication events and chromosomal rearrangements that took place during the chromosomal evolution of the mammals and other vertebrate groups (Villena and Sapienza, 2001;Dumas and Britton-Davidian, 2002;Siqueira Jr et al, 2004;Gallardo et al, 2006). If polyploidization or chromosomal rearrangements have occurred, then the meiotic chromosomal pairing becomes complex and can result in the production of unbalanced or balanced gametes (Sharp and Rowell, 2007).…”

Section: Introductionmentioning

confidence: 99%

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Intriguing evidence of translocations in Discus fish (Symphysodon, Cichlidae) and a report of the largest meiotic chromosomal chain observed in vertebrates

et al. 2009

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As part of a program to understand the genetics of Amazonian ornamental fish, classical cytogenetics was used to analyze Symphysodon aequifasciatus, S. discus and S. haraldi, popular and expensive aquarium fishes that are endemic to the Amazon basin. Mitotic analyses in Symphysodon have shown some odd patterns compared with other Neotropical cichlids. We have confirmed that Symphysodon species are characterized by chromosomal diversity and meiotic complexity despite the fact that species share the same diploid number 2n ¼ 60. An intriguing meiotic chromosomal chain, with up to 20 elements during diplotene/ diakinesis, was observed in S. aequifasciatus and S. haraldi, whereas S. discus only contains typical bivalent chromosomes. Such chromosomal chains with a high number of elements have not been observed in any other vertebrates. We showed that the meiotic chromosomal chain was not sex related. This observation is unusual and we propose that the origin of meiotic multiples in males and females is based on a series of translocations that involved heterochromatic regions after hybridization of ancestor wild Discus species.

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Section: Discussionmentioning

confidence: 60%

Section: Introductionmentioning

confidence: 99%

Intriguing evidence of translocations in Discus fish (Symphysodon, Cichlidae) and a report of the largest meiotic chromosomal chain observed in vertebrates

et al. 2009

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“…Our sparse taxonomic sampling from this region makes it difficult to determine the composition of this group, but the joining of four diverse species (E. guentheri, E. hoehnei, E. parvus, and E. juipoca) in a well supported group, suggests that other species from the region believed to be closely related to them also are part of that group, which takes the available name Ischnocnema Reinhardt and Lütken, 1862 (see SI Text). Four southeast Brazilian species in our analysis that are not part of that clade are E. binotatus, which has an unusual karyotype (18), Holoaden bradei, Barycholos ternetzi, and Brachycephalus ephippium. These species also branch basally among eleutherodactylines but are not closely related to other species or groups.…”

Section: Resultsmentioning

confidence: 99%

Major Caribbean and Central American frog faunas originated by ancient oceanic dispersal

Heinicke

Duellman²,

Hedges³

2007

Proc. Natl. Acad. Sci. U.S.A.

320

287

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Approximately one-half of all species of amphibians occur in the New World tropics, which includes South America, Middle America, and the West Indies. Of those, 27% (801 species) belong to a large assemblage, the eleutherodactyline frogs, which breed out of water and lay eggs that undergo direct development on land. Their wide distribution and mode of reproduction offer potential for resolving questions in evolution, ecology, and conservation. However, progress in all of these fields has been hindered by a poor understanding of their evolutionary relationships. As a result, most of the species have been placed in a single genus, Eleutherodactylus, which is the largest among vertebrates. Our DNA sequence analysis of a major fraction of eleutherodactyline diversity revealed three large radiations of species with unexpected geo- amphibian ͉ anura ͉ biogeography ͉ Eleutherodactylus T he evolutionary tree of amphibians is now being revealed at a rapid pace, largely from DNA sequence analyses (1-5). However, the evolutionary history of a major assemblage of frogs is not well understood. These are the eleutherodactylines and the related genus Brachycephalus, which comprise 13% (812 sp.) of all known species of amphibians and 27% of those occurring in the New World tropics (6). Unlike most temperate species, these frogs reproduce on land and undergo direct development, bypassing the tadpole stage (7). Most are relatively small, typically 20-50 mm in length. A majority of the species has been placed in Eleutherodactylus and, together with several other genera, assigned to the tribe Eleutherodactylini of the neobatrachian family Leptodactylidae (8), superfamily Hyloidea (9). However, molecular phylogenies of small sets of representative species over the last two decades have suggested that both the family-level and genus-level classification is in need of revision (2,(10)(11)(12)(13)(14).Terrestrial breeding and direct development have allowed eleutherodactyline frogs to occupy a diversity of ecological niches and have facilitated their wide distribution (Fig. 1). Eleutherodactylines occur on almost every island in the Caribbean and display near total endemicity to single-island banks. Their elevational range also is broad, with some species occurring up to 4,400 m in the Andes of South America. Thus, they are a model group for studying Neotropical biogeography and evolution. With this in mind, we assembled samples and available sequences of 276 species of eleutherodactylines and Brachycephalus for several mitochondrial and nuclear genes. Our goal was to identify the major groups of species and their times of divergence, to better understand the historical biogeography of eleutherodactyline frogs and the region in general. Our results revealed several major and, for the most part, geographically isolated, clades of eleutherodactyline frogs and showed that the Middle American and West Indian eleutherodactylines owe their origin to Cenozoic over-water dispersal, not from land connections in the Mesozoic.

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“…arildae (with the participation of NORbearing chromosomes) might be explained by translocation events during evolution of the karyotype in these species. In anurans, this event is rare and has only been described for Eleutherodactylus binotatus [Beçak and Beçak, 1974;Siqueira et al, 2004] and Engystomops petersi [Lourenço et al, 2000]. In both cases, the presence of these rings was apparently related to the rearrangement of multiple heterozygous translocations that resulted in morphological alterations in the chromosomes involved in the ring.…”

Section: Discussionmentioning

confidence: 99%

NOR Dispersion, Telomeric Sequence Detection in Centromeric Regions and Meiotic Multivalent Configurations in Species of the <i>Aplastodiscus albofrenatus</i> Group (Anura, Hylidae)

Carvalho

García

Recco‐Pimentel

2009

Cytogenet Genome Res

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In the present study, we examined the chromosome number and morphology, heterochromatin pattern, and location of the nucleolar organizer region (NOR) and telomeric sequences in Aplastodiscus albofrenatus, A. arildae, A. ehrhardti and A. eugenioi in order to cytogenetically characterize the Aplastodiscus albofrenatus group. The 4 species analyzed in this study had diploid numbers of 2n = 22 and very similar chromosome morphology. These species could be differentiated based on the distribution and amount of heterochromatin and the location of the nucleolar organizer region (NOR). Six of the 8 A. albofrenatus individuals had an NOR polymorphism previously unknown in anurans since only one of the homologs of pairs 1 and 7 was stained. In the other 2 specimens, the NOR occurred on both homologs of pair 7. In A. ehrhardti, pairs 6 and 10 were stained by the AgNOR technique, but only pair 6 was confirmed by in situ hybridization. The NOR was located on pair 10 in A. arildae and on pair 7 in A. eugenioi. In A. albofrenatus and A. arildae, multivalent rings involving NOR-containing chromosomes were observed during prophase I of meiosis. The telomeric probe identified the telomeres in all species and also centromeric regions in the chromosomes of A. albofrenatus and A. arildae, which were coincident with centromeric heterochromatin. The conserved chromosomal morphology seen mainly in the first 7 pairs among species of the A. albofrenatus group suggests that all of these species probably originated from a common ancestral karyotype and that chromosomal rearrangements resulted in karyotype differentiation, with changes in NOR location, as well as telomeric and heterochromatin dispersal.

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Cytogenetics of three Brazilian species of Eleutherodactylus (Anura, Leptodactylidae) with 22 chromosomes and re-analysis of multiple translocations in E. binotatus

Cited by 22 publications

References 31 publications

Intriguing evidence of translocations in Discus fish (Symphysodon, Cichlidae) and a report of the largest meiotic chromosomal chain observed in vertebrates

Intriguing evidence of translocations in Discus fish (Symphysodon, Cichlidae) and a report of the largest meiotic chromosomal chain observed in vertebrates

Major Caribbean and Central American frog faunas originated by ancient oceanic dispersal

NOR Dispersion, Telomeric Sequence Detection in Centromeric Regions and Meiotic Multivalent Configurations in Species of the <i>Aplastodiscus albofrenatus</i> Group (Anura, Hylidae)

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