الملخص
Mexico is a biodiverse country in several taxa as reptiles, that include several species of freshwater and marine turtles. Eventhough most of this group species are under protection, Tabasco State has nine native freshwater turtles, like Kinosternon leucostomum, Trachemys scripta and Staurotypus triporcatus that are very important in traditional dishes. This has resulted in a critical level of their populations, together with little biological knowledge for their conservation. Therefore, this study was dedicated to turtle cytogenetics. The study was conducted using the conventional methods for cytogenetics. The results showed the modal diploid and haploid number for K. leucostomum of 2n=56 (2n=56+3 microchromosomes B) and 1n=28 chromosomes in mitosis and meiosis, respectively. In T. scripta 2n=50 chromosomes (2n=50+2 microchromosomes B) and 1n=25 chromosomes were also characterized. Whereas in S. triporcatus we only report the 2=54 chromosomes (2n=54+2 microchromosomes B). The karyological formula for K. leucostomum was integrated by 12 metacentric-submetacentric chromosomes msm/A+22 subtelocentrictelocentric chromosomes stt/B+22 telocentric chromosomes T/C with fundamental number (FN) of 90 chromosome arms. While T. scripta karyotype was integrated by 32 msm/A+10 stt/B+8T/C chromosomes, with FN of 92 arms. S. triporcatus karyotype formula was built up by 20 chromosomes msm/A+34 chromosomes T/C with FN of 74. The variation in chromosome classification, the fundamental number and the presence of supernumerary microchromosomes B in the studied species, were evidence of a particular chromosome cytotypes in Tabasco. We considered that the presence of microchromosomes B probably has different origins, and they may be very important as a pattern for the formation or separation of new species. This study also showed the absence of heterologous chromosomes between the females and males karyotypes from the studied species. Rev. Biol. Trop. 62 (2): 671-688. Epub 2014 June 01.
México es un país biodiverso en varios grupos taxonómicos incluyendo a los reptiles, por ello en el país existen varias especies de tortugas dulceacuícolas y marinas. Las especies que integran dicho grupo se encuentran dentro del listado de especies sujetas a protección. El estado de Tabasco cuenta con nueve especies de tortugas de agua dulce, de las cuales Kinosternon leucostomum, Trachemys scripta y Staurotypus triporcatus son de las más importantes dentro de la tradición culinaria, hecho que las ha llevado a niveles críticos en sus poblaciones; aunado al poco conocimiento biológico que sobre dichas especies existe para conservarlas. Por lo anterior, el presente estudio de citogenética es el primero en tortugas de agua dulce en la región. El estudio se realizó, empleando el método convencional de citogenética. Los resultados muestran, el número modal diploide y haploide de K. leucostomum de 2n=56 (2n=56+3 microcromosomas B) y 1n=28 cromosomas 686 en mitosis y meiosis, respectivamente. En T. scripta de 2n=50 cromosomas (2n=50+2 microcromosomas B) y 1n=25 cromosomas. Mientras que en S. triporcatus solo se reporta el 2n=54 cromosomas (2n=54+2 microcromosomas B). La fórmula cromosómica en K. leucostomum, fue de 12 cromosomas metacéntricos submetacéntricos msm/A+22 cromosomas subtelocéntricos-telocéntricos stt/B+22 cromosomas telocéntricos T/C, con número fundamental (NF) de 90 brazos cromosómicos. En T. scripta fue de 32 cromosomas msm/A+10 cromosomas stt/B+8 cromosomas T/C, con NF de 92 y en S. triporcatus 20 cromosomas msm/A+34 cromosomas T/C con NF de 74. La variación en la clasificación cromosómica, el número fundamental y la presencia de microcromosomas B supernumerarios en las tres especies, son evidencia de citotipos cromosómicos particulares de las tortugas de Tabasco. Se argumenta que la presencia de los microcromosomas B tiene diferentes orígenes y de su importancia como pauta para la formación o separación de nuevas especies. En el estudio se descarta la presencia de cromosomas heterólogos entre las hembras y los machos de las especies estudiadas.
الموضوعات
Animals , Female , Male , Chromosomes/genetics , Turtles/genetics , Karyotyping , Meiosis , Mexico , Mitosis , Turtles/classificationالملخص
Information on the genetic structure of marine species is essential for stock improvement programs. In order to analyses the genetic diversity of the Hawksbill turtle [Eretmochelys imbricte] by the microsatellite genetic method, 64 samples were caught from the beaches located in Kish and Qeshm islands. Polymerase chain reactions [PCR] of genomic DNA extracted from the samples were carried out using 5 pairs of microsatellite primers. The results of this study indicated that all 5 pairs of primers were polymorphic. Average numbers of real allele and effective allele were 4.90 and 2.99, respectively. Average rate of observed heterozygosity was 0.570 and that for expected heterozygosity was 0.616. Study of the Hardy-Weinberg equilibrium was shown the entire locus had not equilibrium except Cm3 and Ei8 locus in Kish area. Fst [0.166] and Rst [0.634] calculated by the Analysis of Molecular Variance [AMOVA] test illustrated that there are separate populations of Hawksbill turtle in this part of the Persian Gulf [Kish and Qeshm islands]. It seems that Kish's turtles live under better conditions in contrast to their Qeshm counterparts. Diminution of genetic variation within examined population decreases its adaptation to environmental alterations. We identified two different E. imbricte populations from north of the Persian Gulf
الموضوعات
Humans , Turtles/genetics , Genetic Variation , Polymerase Chain Reaction , Genomic Structural Variation , Microsatellite Repeats/geneticsالملخص
Five out of the seven recognized species of sea turtles (Testudines) occur on the Brazilian coast. The Barcode Initiative is an effort to undertake a molecular inventory of Earth biodiversity. Cytochrome Oxidase c subunit I (COI) molecular tags for sea turtle species have not yet been described. In this study, COI sequences for the five species of sea turtles that occur in Brazil were generated. These presented widely divergent haplotypes. All observed values were on the same range as those already described for other animal groups: the overall mean distance was 8.2 percent, the mean distance between families (Dermochelyidae and Cheloniidae) 11.7 percent, the mean intraspecific divergence 0.34 percent, and the mean distance within Cheloniidae 6.4 percent, this being 19-fold higher than the mean divergence observed within species. We obtained species-specific COI barcode tags that can be used for identifying each of the marine turtle species studied.
الموضوعات
Animals , DNA , DNA, Mitochondrial/analysis , Turtles/genetics , Biodiversity , Brazil , Electron Transport Complex IV , Polymerase Chain Reactionالملخص
We analyzed mtDNA control region sequences of green turtles (Chelonia mydas) from Arvoredo Island, a foraging ground in southern Brazil, and identified eight haplotypes. Of these, CM-A8 (64 percent) and CM-A5 (22 percent) were dominant, the remainder presenting low frequencies (< 5 percent). Haplotype (h) and nucleotide (n) diversities were 0.5570 ± 0.0697 and 0.0021 ± 0.0016, respectively. Exact tests of differentiation and AMOVA Fi ST pairwise values between the study area and eight other Atlantic foraging grounds revealed significant differences in most areas, except Ubatuba and Rocas/Noronha, in Brazil (p > 0.05). Mixed Stock Analysis, incorporating eleven Atlantic and one Mediterranean rookery as possible sources of individuals, indicated Ascension and Aves islands as the main contributing stocks to the Arvoredo aggregation (68.01 percent and 22.96 percent, respectively). These results demonstrate the extensive relationships between Arvoredo Island and other Atlantic foraging and breeding areas. Such an understanding provides a framework for establishing adequate management and conservation strategies for this endangered species.
الموضوعات
Animals , DNA, Mitochondrial/analysis , Haplotypes/genetics , Turtles/genetics , Animal Migration , Biodiversity , Brazil , Genetic Variationالملخص
Lymphocyte culture and partial karyotype of the marine turtle Caretta caretta (Testudines: Cheloniidae) in Santa Marta, Colombian Caribbean. Over the past few years an important reduction in the number of nesting marine turtle Caretta caretta individuals has been registered in the Colombian Caribbean, raising the question of a possible extinction in the medium term. A conservation plan is needed. We studied the culture requirements for C. caretta lymphocytes and preliminary karyotype analysis for cytogenetic identification, immunological study and toxicology without the need to kill individuals. Peripheral blood samples were obtained from 47 individuals in Santa Marta, Colombia and tests were made until optimal conditions were established for lymphocyte culture. The karyotype had 56 chromosomes, 32 macrochromosomes and 24 micro-chromosomes. An ideogram showed that C. caretta has four groups of chromosomes. Sexual chromosomes were not observed. These results do not coincide with the karyotype described from the Pacific (Japan). The present study is the first to include a complete description of the chromosome morphology of turtles from the Atlantic Ocean. it is possible that one of the adaptive strategies of this species is genetic interchange with other species of the family, producing viable hybrids. individuals in this study might be viable hybrids of C. caretta and further molecular studies are needed. Rev. Biol. Trop. 56 (3): 1459-1469. Epub 2008 September 30.
En los últimos años se ha registrado una disminución importante en el número de individuos de la tortuga marina Caretta caretta anidantes en el Caribe colombiano, situación que pone en evidencia la posibilidad de su extinción a mediano plazo. Por esto, es necesario implementar planes para su manejo y conservación. En este estudio se determinaron los requerimientos del cultivo de linfocitos de Caretta caretta para la obtención de cariotipos que permitan la identificación citogenética, el estudio inmunológico y toxicológico de individuos sin necesidad de sacrificarlos. Se muestrearon 47 individuos de C. caretta de Santa Marta, Colombia obteniendo sangre periférica con la que se realizaron ensayos de las diferentes variables hasta obtener las condiciones óptimas para el cultivo convencional de linfocitos. El cariotipo obtenido presentó 56 cromosomas: 32 macrocromosomas y 24 microcromosomas. El ideograma mostró que C. caretta tiene cuatro grupos de cromosomas: el grupo A compuesto por doce (12) pares de cromosomas de mayor tamaño. El Grupo B compuesto por cuatro (4) pares de cromosomas medianos y pequeños y el Grupo C conformado por 12 pares de microcromosomas. No se observaron cromosomas sexuales. Estos resultados están en desacuerdo con el cariotipo descrito por Kamesaki (1989), debido posiblemente a que las muestras analizadas en ese estudio fueron colectadas en el Océano Pacifico (Japón). El presente estudio es el primero realizado con tortugas del Océano Atlántico que cuenta con la descripción completa de la morfología cromosómica. Es posible, que una de las estrategias adaptativas de esta especie sea el intercambio genético con otras especies de la familia, que produce individuos híbridos viables. En este aspecto se ha descrito la hibridación de tortugas Caretta caretta con Eretmochelys imbricata, Chelonia mydas y Lepidochelys kempii, esto sugiere la posibilidad que los individuos caracterizados en este estudio sean híbridos viables de C. caretta, por lo tanto, se hace necesario realizar estudios a nivel molecular.
الموضوعات
Animals , Cell Culture Techniques , Lymphocytes/cytology , Turtles/genetics , Atlantic Ocean , Colombia , Karyotyping/methods , Turtles/blood , Turtles/classificationالملخص
Studies of the hemoglobin pattern in Brazilian reptiles are important for determining ecological and phylogenetic relationships, but they are scarce. Peripheral blood samples were obtained from 7 males and 18 females of Rhinoclemmys punctularia. The hematological profile was based on the total hemoglobin and hematocrit values. The hemoglobin profile was obtained using electrophoretic procedures at different pH, isoelectric focusing, globin chain electrophoresis, and HPLC. The hematocrit (31 +/- 2%) and total hemoglobin (7.5 +/- 0.2 g/dL) values did not indicate gender variations. Alkaline pH electrophoresis of the total blood samples treated with 1% saponin demonstrated the presence of four well-defined hemoglobin fractions, one major component (fraction I), showing cathodic migration and three others faster than fraction I with anodic migration. When the samples were precipitated with chloroform, only two hemoglobin fractions were observed, similar to fractions I and III from the first procedure. Isoelectric focusing and HPLC showed the same pattern. With acid and neutral pH electrophoresis, two fractions with anodic migration were observed. The globin chain identification at alkaline pH showed two fractions, but four fractions were observed at acidic pH, suggesting that different polypeptide chains are involved in the hemoglobin molecule. The chromatographic separation of the total blood sample demonstrated that the major fraction comprised 81.9% and the minor 18.1%. The results obtained demonstrated a similarity between these hemoglobin components and those of some Chelidae reported in the literature for both land and aquatic animals, reflecting the adaptation to environmental conditions.
الموضوعات
Humans , Animals , Male , Female , Chromatography/methods , Electrophoresis/methods , Hemoglobins/genetics , Hemoglobins/metabolism , Polymorphism, Genetic , Turtles/genetics , Ecology/methods , Phylogeny , Hematocrit , Models, Genetic , Reptilesالملخص
We present the karyotypic characterization of 26 specimens of the side-necked turtle Hydromedusa tectifera collected in the upper Iguaçu River, Paraná state, Brazil. The turtles were cytogenetically analyzed using Giemsa staining and other banding techniques (C, G, Ag-NOR and CMA3) as well as fluorescence in situ hybridization (FISH) with a rDNA 18S probe. All the specimens showed a diploid number of 58 composed of 22 macro and 36 microchromosomes. The Ag-NOR, CMA3 and FISH techniques permitted the identification and characterization of the chromosome pairs bearing nucleolus organizer regions (NORs), while G-banding facilitated a better recognition and pairing of macrochromosomes. These data agree with some information available in the literature and should be very useful for further cytotaxonomic and cytosystematic studies.