De novo assembly and functional annotation of blood transcriptome of loggerhead turtle, and in silico characterization of peroxiredoxins and thioredoxins.

The aim of this study was to generate and analyze the atlas of the loggerhead turtle blood transcriptome by RNA-seq, as well as identify and characterize thioredoxin (Tnxs) and peroxiredoxin (Prdxs) antioxidant enzymes of the greatest interest in the control of peroxide levels and other biological functions. The transcriptome of loggerhead turtle was sequenced using the Illumina Hiseq 2000 platform and de novo assembly was performed using the Trinity pipeline. The assembly comprised 515,597 contigs with an N50 of 2,631 bp. Contigs were analyzed with CD-Hit obtaining 374,545 unigenes, of which 165,676 had ORFs encoding putative proteins longer than 100 amino acids. A total of 52,147 (31.5%) of these transcripts had significant homology matches in at least one of the five databases used. From the enrichment of GO terms, 180 proteins with antioxidant activity were identified, among these 28 Prdxs and 50 putative Tnxs. The putative proteins of loggerhead turtles encoded by the genes Prdx1, Prdx3, Prdx5, Prdx6, Txn and Txnip were predicted and characterized in silico. When comparing Prdxs and Txns of loggerhead turtle with homologous human proteins, they showed 18 (9%), 52 (18%) 94 (43%), 36 (16%), 35 (33%) and 74 (19%) amino acid mutations respectively. However, they showed high conservation in active sites and structural motifs (98%), with few specific modifications. Of these, Prdx1, Prdx3, Prdx5, Prdx6, Txn and Txnip presented 0, 25, 18, three, six and two deleterious changes. This study provides a high quality blood transcriptome and functional annotation of loggerhead sea turtles.

Transcriptional Analyses of Acute Exposure to Methylmercury on Erythrocytes of Loggerhead Sea Turtle.

To understand changes in enzyme activity and gene expression as biomarkers of exposure to methylmercury, we exposed loggerhead turtle erythrocytes (RBCs) to concentrations of 0, 1, and 5 mg L-1 of MeHg and de novo transcriptome were assembled using RNA-seq. The analysis of differentially expressed genes (DEGs) indicated that 79 unique genes were dysregulated (39 upregulated and 44 downregulated genes). The results showed that MeHg altered gene expression patterns as a response to the cellular stress produced, reflected in cell cycle regulation, lysosomal activity, autophagy, calcium regulation, mitochondrial regulation, apoptosis, and regulation of transcription and translation. The analysis of DEGs showed a low response of the antioxidant machinery to MeHg, evidenced by the fact that genes of early response to oxidative stress were not dysregulated. The RBCs maintained a constitutive expression of proteins that represented a good part of the defense against reactive oxygen species (ROS) induced by MeHg.

Detection of high heteroplasmy in complete loggerhead and hawksbill sea turtles mitochondrial genomes using RNAseq.

Sea turtle populations around the world face rapid decline due to the effect of anthropogenic and environmental factors. Among the affected populations are those of hawksbill turtles (Eretmochelys imbricata) and loggerhead turtles (Caretta caretta), which is why a greater effort is currently being made in their monitoring and tracing. The intragenic degree of heteroplasmic mutations, commonly associated with diseases of variable symptoms, has not been analyzed in these species. In this study, heteroplasmy in the complete mitogenome (mtDNA) of three loggerhead turtles and one hawksbill turtle was identified from data obtained by RNAseq. Individuals Cc3, Ei1, Cc1 and Cc2 presented 0.3, 1.7, 1.8 and 7.1% of heteroplasmic mutations in all their mtDNA, respectively. The protein-coding genes that presented the highest percentage of heteroplasmy were ND4 and ND5 in individual Cc2 with 16 and 38.6%, respectively. Of the tRNA genes, only tRNATyr was heteroplasmic in the four individuals with 5.63% (Cc1), 25.35% (Ei1 and Cc2) and 49.3% (Cc3). In this study, we identified the critical sites of heteroplasmy in each individual and the genetic variability of their mitogenomes. The data obtained represents the baseline for future projects that evaluate the population status of these species.

Structural analysis of leucine, lysine and tryptophan mitochondrial tRNA of nesting turtles Caretta caretta (Testudines: Chelonioidea) in the Colombian Caribbean.

The understanding of the functional properties of mitochondrial transfer RNA (mt tRNAs) depend on the knowledge of its structure. tRNA acts as an interface between polynucleotides and polypeptides thus, they are key molecules in protein biosynthesis. The tRNA molecule has a functional design and, given its importance in the translation of mitochondrial genes, it is plausible that modifications of the structure can affect the synthesis of proteins and the functional properties of the mitochondria. In a previous work, the mitochondrial genome of an individual of the nesting Caretta caretta of the Colombian Caribbean was obtained, where specific mutations were identified in the only tRNALeu (CUN), tRNATrp and tRNALys genes. In order to analyze the effect of these mutations on these three mt tRNAs, the prediction of 2D and 3D structures was performed. Genes were sequenced in 11 nesting loggerhead turtles from the Colombian Caribbean. Two-dimensional structures were inferred using the ARWEN program, and three-dimensional structures were obtained with the RNA Composer 3D program. Two polymorphisms were identified in tRNATrp and another one was located in tRNALys, both specific to C. caretta. The thymine substitution in nucleotide position 14 of tRNATrp could constitute an endemic polymorphism of the nesting colony of the Colombian Caribbean. Two 2D and three 3D patterns were obtained for tRNATrp. In the case of tRNALys and tRNALeu 2D and 3D structures were obtained respectively, which showed compliance to canonical structures, with 4 bp in the D-arm, 4-5 bp in the T-arm, and 5 bp in the anticodon arm. Moderate deviations were found, such as a change in the number of nucleotides, elongation in loops or stems and non-Watson-Crick base pairing: adenine-adenine in stem D of tRNATrp, uracil-uracil and adenine-cytosine in the acceptor arm of the tRNALys and cytosine-cytosine in the anticodon stem of the tRNALeu. In addition, distortions or lack of typical interactions in 3D structures gave them unique characteristics. According to the size of the variable region (4-5 nt), the three analyzed tRNAs belong to class I. The interactions in the three studied tRNAs occur mainly between D loop-variable region, and between spacer bases-variable region, which classifies them as tRNA of typology II. The polymorphisms and structural changes described can, apparently, be post-transcriptionally stabilized. It will be crucial to perform studies at the population and functional levels to elucidate the synthetic pathways affected by these genes. This article analyses for the first time the 1D, 2D and 3D structures of the mitochondrial tRNALys, tRNATrp and tRNALeu in the loggerhead turtle.

Data on heteroplasmic mutations in mitochondrial genomes of loggerhead and hawksbill sea turtles: First approach.

The populations of loggerhead (Caretta caretta) and hawksbill (Eretmochelys imbricata) sea turtles are suffering an exponential decline due to anthropic and environmental actions that threaten their survival. In these turtle populations, the degree of heteroplasmic mutations commonly related with pathologies, has not been studied. In this data report, the specifications of each heteroplasmic site (region, mutation, length) and the percentage of heteroplasmy of each gene for four mitochondrial genomes of turtles (loggerhead: Cc1, Cc2, Cc3 and hawksbill: Ei1) are presented. The highest value of heteroplasmy in tRNA was of 83.33% for the Cc2 turtle (tRNASer gene), in protein coding genes was 38.62% for Cc2 (ND5), and in rRNA genes of 0.74% for Ei1 turtle (rRNA-16S). The variability data obtained will be useful for further conservation projects, evolution studies and population health of these species. This is the first study of heteroplasmy in complete mitogenomes of loggerhead and hawksbill turtles.

Complete Colombian Caribbean loggerhead turtle mitochondrial genome: tRNA structure analysis and revisited marine turtle phylogeny / Genoma mitocondrial completo de la tortuga caguama del Caribe colombiano: análisis de la estructura del tRNA y revisión de la filogenia de las tortugas marinas / Genoma mitocondrial de tartaruga-cabeçuda do Caribe colômbiano completo: análise de estrutura de tRNA e filogenia revisada de tartarugas marinhas

Abstract The loggerhead marine turtle, Caretta caretta, is a widely distributed and endangered species that is facing critical population decline, especially in Colombian Caribbean rookeries. Mitochondrial DNA sequence data are of great importance for the description, monitoring, and phylogenetic analyses of migratory turtle populations. In this study, the first full mitochondrial genome of a loggerhead turtle nesting in the Colombian Caribbean was sequenced and analyzed. This mitochondrial genome consists of 16 362 bp with a nucleotide composition of T: 25.7 %, C: 27 %, A: 35 % and G: 12 %. Sequence annotation of the assembled molecule revealed an organization and number of coding and functional units as reported for other vertebrate mitogenomes. This Colombian loggerhead turtle (Cc-AO-C) showed a novel D-Loop haplotype consisting of thirteen new variable sites, sharing 99.2 % sequence identity with the previously reported Caribbean loggerhead CC-A1 D-Loop haplotype. All 13 protein-coding genes in the Cc-AO-C mitogenome were compared and aligned with those from four other loggerhead turtles from different locations (Florida, Greece, Peru, and Hawaii). Eleven of these genes presented moderate genetic diversity levels, and genes COII and ND5 showed the highest diversity, with average numbers of pair-wise differences of 16.6 and 25, respectively. In addition, the first approach related to t-RNAs 2D and 3D structure analysis in this mitogenome was conducted, leading to observed unique features in two tRNAs (tRNATrp and tRNALeu). The marine turtle phylogeny was revisited with the newly generated data. The entire mitogenome provided phylogenetically informative data, as well as individual genes ND5, ND4, and 16S. In conclusion, this study highlights the importance of complete mitogenome data in revealing gene flow processes in natural loggerhead turtle populations, as well as in understanding the evolutionary history of marine turtles.

Resumen La tortuga marina caguama, Caretta caretta, es una especie ampliamente distribuida pero que enfrenta una crítica reducción de su población en las colonias del Caribe colombiano. Los datos de las secuencias de DNA mitocondrial son de gran importancia para la descripción, monitoreo y análisis de la filogenia de las tortugas migratorias. En este estudio se secuenció y analizó por primera vez el genoma mitocondrial completo de la tortuga caguama que anida en el Caribe colombiano. Este genoma tiene un tamaño de 16.362 pb con una composición de nucleótidos de T: 25.7 %, C: 27 %, A: 35 % y G: 12 %. La anotación de la secuencia de la molécula reveló una organización y número de unidades codificantes y funcionales como los reportados para mitogenomas de otros vertebrados. Esta tortuga caguama colombiana (Cc-AO-C) mostró un nuevo haplotipo D-Loop que contiene trece nuevos sitios variables, que comparten el 99.2 % de identidad de secuencia con el haplotipo CC-A1 D-Loop previamente reportado para la tortuga caguama del Caribe. Los trece genes que codifican proteínas en el mitogenoma Cc-AO-C se compararon y alinearon con los de otras cuatro tortugas caguama de distintas localidades (Florida, Grecia, Perú y Hawái). Once de estos genes presentaron niveles moderados de diversidad genética, y los genes COII y ND5 mostraron las diversidades nucleotídicas más altas, con un número promedio de diferencias entre pares de secuencias de 6.6 y 25, respectivamente. Adicionalmente, se llevó a cabo la primera aproximación relacionada con el análisis de la estructura 2D y 3D de t-RNAs en este mitogenoma, lo cual condujo a la observación de características únicas en dos tRNAs (tRNATrp y tRNALeu). La filogenia de las tortugas marinas fue revisada a la luz de la nueva información mitogenómica. El mitogenoma, así como los genes individuales ND5, ND4 y 16S, proporcionan datos filogenéticamente informativos. En conclusión, este estudio resalta la importancia de los datos del mitogenoma para revelar procesos de flujo génico en las poblaciones naturales de tortuga caguama, así como para entender la historia evolutiva de las tortugas marinas.

Resumo A tartaruga marinha Caretta caretta (Cc) é uma espécie amplamente distribuída e ameaçada de extinção que enfrenta um declínio crítico da população, especialmente nas colônias do Caribe colombiano. Marcadores moleculares, como sequências de DNA mitocondrial (mtDNA), são de grande importância para a descrição, monitoramento e análise filogenética de populações migratórias de tartarugas. Este estudo mostra a obtenção e análise do genoma mitocondrial de uma tartaruga-cabeçal Cc aninhada na costa Caribe da Colômbia. O genoma mitocondrial é constituído por 16.362 pb, com uma região não codificante (D-Loop), 13 genes codificadores de proteínas (13 PCG), 22 genes tRNA e 2 rRNA (16S e 12S) e uma frequência nucleotídica de T: 25.7 % , C: 27 %, A: 35 % e G: 12,2 %, todos organizados de forma semelhante à maioria dos mitogenomos de vertebrados. Esta tartaruga Cc colombiana apresentou um novo haplótipo D-Loop com treze sítios polimórficos quando comparado ao haplótipo CC-A1.1 (96 %). Além disso, onze genes codificadores de proteínas entre as tartarugas marinhas de diferentes origens apresentaram uma diversidade genética semelhante, exceto os genes COII e ND5 que apresentaram o maior número médio de diferenças entre pares de seqüências (16.600 e 25.000, respectivamente). Aqui relatase a primeira abordagem relacionada à análise de estruturas 2D e 3D para Cc e descrevese as diferenças em dois tRNAs (tRNATrp, tRNALeu). As inferências bayesianas e os métodos de máxima verossimilhança explicam melhor a filogenia das tartarugas marinhas quando utilizamse mitogenomes completos, assim como os genes ND5, ND4 e 16S. Os genes marcadores ATP8, ND4L e ND1 apresentaram relação filogenética pouco suportada. Como conclusão, este estudo apresenta o uso de mitogenomes completos como uma alternativa para melhorar a análise filogenética em tartarugas marinhas e é a primeira análise genética de mitogenomes completos de nidificação na Colômbia.

Identificación y evaluación de actividad celulolítica en aislamientos nativos de Trichoderma spp obtenidos de biomasa de palma de aceite / Identification and screening of lignocellulosic activity in native isolates of Trichoderma spp., obtained from palm oil biomass

RESUMEN Se aislaron previamente ocho cepas nativas de racimos de palma de aceite en descomposición de Trichoderma sp. provenientes de la región de Cumaral, Meta, Colombia. Se utilizó la región de los ITS1-ITS4 para la identificación molecular y se determinó la actividad celulolítica (actividad sobre papel filtro) del complejo producido por las cepas utilizando residuos de palma como sustrato. Siete aislamientos nativos presentarón 100% de similaridad con hongos del género Trichoderma. Se observó para siete cepas, la presencia de las cinco anclas que identifican hongos del género Trichoderma, identificándose cuatro de los hongos nativos como Trichoderma koningiopsis (HR-04-89; HR-11-89; HR-19-89; y HR-06-89) y cuatro como Trichoderma asperellum (HR-01-89; HR-03-89; HR-16-89; HR-18-89). El bioensayo mostró que las cepas evaluadas de Trichoderma son estadísticamente significativas sobre la actividad enzimática de celulasas sobre papel filtro (p<0.05). Además, las cepas HR-01-89, HR-03-89, HR-11-89, HR-04-89 y HR-18-89 no presentaron diferencias en la actividad enzimática. La cepa Trichoderma reesei utilizada como referencia, presentó un comportamiento superior y diferente comparado con las cepas nativas. La cepa nativa HR-18-89 (Trichoderma asperellum) presentó mayores niveles de actividad enzimática, 78% del valor de la cepa referencia. Es importante identificar y evaluar cepas nativas de Trichoderma sp. con novedosas actividades biológicas que permitan degradar la celulosa recalcitrante de los racimos de palma africana.

ABSTRACT Previously, there were isolated eight native strains of Trichoderma sp. from a cluster of decomposing oil palm from Cumaral, Meta, Colombia. The ITS1-ITS4"s region was used for the molecular identification and the cellulase activity (filter paper activity) of the complex produced by strains was determined using palm waste as substrate. Seven native isolations showed between 97-100% similarity with fungi of the genus Trichoderma. It was observed for seven of the eight strains the presence of the five anchors which identify fungi of the genus Trichoderma, finding five of the native fungi such as Trichoderma koningiopsis (HR-04-89; HR-11-89; HR-19-89; y HR-06-89) four as Trichoderma asperellum (HR-01-89; HR-03-89; HR-16-89; HR-18-89). The bioassay showed that Trichoderma strains tested are statistically significant on the enzymatic activity of cellulases on filter paper (p <0.05). In addition, strains HR-01-89, HR-03-89, HR-11-89, HR-04-89 and HR-18-89 showed no differences in enzymatic activity. The reference strain used, Trichoderma reesei produce a superior and different behavior compared with the native strains. The native strain HR-18-89 (Trichoderma asperellum) had higher levels of enzyme activity, 78% of the value of the reference strain. It is important to identify and evaluate native strains of Trichoderma sp. with innovative biological activities that allow to degrade the recalcitrant cellulose of the African palm clusters.

Complete mitochondrial genome of the three Colombian Caribbean loggerhead sea turtles, using next-generation sequencing.

The loggerhead turtle, Caretta caretta (Linnaeus, 1758), is an endangered sea turtle in Colombian Caribbean beach. In the present study was sequenced the complete mitochondrial DNA of three loggerhead turtles using Illumina next-generation sequencing (NGS). The average nucleotide frequency was A: 35% T: 26%, C: 27% and G: 12%. This genome provides knowledge to the study of genetic variations and evolution of mitochondrial genomes of C. caretta. The sequences were deposited at the GenBank database under the accession number MF554690.1, MF579504.1 and MF579505.1.

Análisis de haplotipos de la tortuga cabezona Caretta caretta (Testudines: Cheloniidae) en dos playas del Caribe colombiano / Analysis of haplotypes of the loggerhead turtle, Caretta caretta (Testudines: Cheloniidae), on two beaches of the Colombian Caribbean / Análise de haplotipos da tartaruga cabeçona, Caretta caretta (Testudines: Cheloniidae) em duas praias do Caribe colombiano

Resumen Introducción. La tortuga Caretta caretta habita los mares tropicales y subtropicales. Es una especie en vía de extinción que anida las playas en Colombia y hace extensas migraciones. Los haplotipos mitocondriales de esta tortuga se han utilizado para estudios de genética poblacional, filogeografía y estado de las especies con el objetivo de desarrollar planes de conservación de la especie. Objetivo. Identificar haplotipos mitocondriales en tortugas cabezonas anidantes del Caribe colombiano. Materiales y Métodos. Se recolectaron muestras de sangre periférica de esta especie en dos sitios del Caribe colombiano: Don Diego (playa de anidación) y la Isla San Martin de Pajarales (localidad de alimentación). El ADN total fue extraído a partir de las células sanguíneas, y utilizado para amplificar por PCR la región control mitocondrial (398 pb). Estos productos fueron purificados y secuenciados. Se realizó un alineamiento básico buscando regiones de similitud local entre las secuencias obtenidas y las descritas previamente para la especie. Se hicieron análisis filogenéticos utilizando los criterios de máxima parsimonia (MP) y máxima verosimilitud (ML). Resultados. Se identificaron tres haplotipos, CC-A1 y CC-A2 comúnmente encontrados en poblaciones reproductivas de México, el Mediterráneo y el sudeste de Estados Unidos, y un nuevo haplotipo CC-SM1 en la playa Don Diego (Magdalena). Los árboles filogenéticos muestran relación de una porción de los individuos anidantes y de forrajeo de las agregaciones del Caribe colombiano con las súper-agregaciones del Atlántico y el Mediterráneo, sugiriendo que estas podrían ser algunas de las fuentes importantes de individuos presentes en Colombia. Conclusiones. Es necesario estudiar una muestra más grande para poder confirmar hipótesis planteadas. Se identificó un nuevo haplotipo denominado CC-SM1. Este es el primer estudio sobre haplotipos mitocondriales de C. caretta realizado en Colombia.

Abstract Introduction. The Caretta caretta turtle inhabits tropical and subtropical seas. It is an endangered species that nests on Colombian beaches and makes long migrations. The mitochondrial haplotypes of this turtle have been used for population genetics, phylogeography and species status studies with the aim of developing species conservation plans. Objective. Identify mitochondrial haplotypes in nesting loggerhead turtles from the Colombian Caribbean. Materials and Methods. Peripheral blood samples from this species were collected in two sites of the Colombian Caribbean: Don Diego (nesting beach) and San Martin de Pajarales island (feeding ground). The total DNA was extracted from blood cells and used to amplify the mitochondrial control region by PCR (398 bp). These products were purified and sequenced. A basic alignment was performed looking for local similarity regions between the sequences obtained and those previously described for the species. Phylogenetic analyses were conducted by using the maximum parsimony (MP) and maximum likelihood (ML) criteria. Results. Three haplotypes were identified: CC-A1 and CC-A2, which are commonly found in breeding populations in Mexico, the Mediterranean and southeast U.S.; and a new haplotype, CC-SM1, on the Don Diego beach (Magdalena). The phylogenic trees show a relationship between a portion of the nesting and feeding individuals from the Colombian Caribbean aggregations and the Atlantic and Mediterranean super-aggregations, suggesting that these could be some of the important sources for individuals inhabiting Colombia. Conclusions. It is necessary to study a larger sample to be able to confirm the proposed hypotheses. A new haplotype called CC-SM1was identified. This is the first study on C. caretta mitochondrial haplotypes conducted in Colombia.

Resumo Introdução. A tartaruga Caretta caretta habita os mares tropicais e subtropicais. É uma espécie em via de extinção que enraíza as praias na Colômbia e faz extensas migrações. Os haplotipos mitocondriais desta tartaruga se há utilizado para estudos de genética populacional, fílogeografía e estado das espécies com o objetivo de desenvolver planos de conservação da espécie. Objetivo. Identificar haplotipos mitocondriais em tartarugas cabeçonas enraizada no Caribe colombiano. Materiais e Métodos. Se coletaram amostras de sangue periférica desta espécie em dois lugares do Caribe colombiano: Don Diego (praia de enraizamento) e a Ilha San Martin de Pajarales (localidade de alimentação). O DNA total foi extraído a partir das células sanguíneas, e utilizado para amplificar por PCR a região controle mitocondrial (398 pb). Estes produtos foram purificados e sequenciados. Se realizou um alinhamento básico buscando regiões de semelhança local entre as sequências obtidas e as descritas previamente para a espécie. Se fez análise filogenéticos utilizando os critérios de máxima parcimônia (MP) e máxima verossimilitude (ML). Resultados. Se identificaram três haplotipos, CC-A1 e CC-A2 comumente encontrados nas populações reprodutivas do México, o Mediterráneo e o sudeste de Estados Unidos, e um novo haplotipo CC-SM1 na praia Don Diego (Magdalena). As árvores filogenéticos mostram relação de uma porção dos indivíduos enraizados e de forragem das agregações do Caribe colombiano com as super-agregações do Atlântico e o Mediterrâneo, sugerindo que estas poderiam ser algumas das fontes importantes de indivíduos presentes na Colômbia. Conclusões. É necessário estudar uma amostra maior para poder confirmar hipótese proposta. Se identificou um novo haplotipo denominado CC-SM1. Este é o primeiro estudo sobre haplotipos mitocondriais de C. caretta realizado na Colômbia.

Data of first de-novo transcriptome assembly of a non-model species, hawksbill sea turtle, Eretmochelys imbricate, nesting of the Colombian Caribean.

The hawksbill sea turtle, Eretmochelys imbricata, is an endangered species of the Caribbean Colombian coast due to anthropic and natural factors that have decreased their population levels. Little is known about the genes that are involved in their immune system, sex determination, aging and others important functions. The data generated represents RNA sequencing and the first de-novo assembly of transcripts expressed in the blood of the hawksbill sea turtle. The raw FASTQ files were deposited in the NCBI SRA database with accession number SRX2653641. A total of 5.7 Gb raw sequence data were obtained, corresponding to 47,555,108 raw reads. Trinity was used to perform a first de-novo assembly, and we were able to identify 47,586 transcripts of the female hawksbill turtle transcriptome with an N50 of 1100 bp. The obtained transcriptome data will be useful for further studies of the physiology, biochemistry and evolution in this species.

De novo transcriptome assembly of loggerhead sea turtle nesting of the Colombian Caribbean.

Loggerhead sea turtle Caretta caretta is widely distributed in the oceans of tropical and subtropical latitude. This turtle is an endangered species due to anthropic and natural factors that have decreased their population levels. In this study, RNA sequencing and de-novo assembly of genes expressed in blood were performed. The raw FASTQ files have been deposited on NCBI's SRA database with accession number SRX2629512. A total of 5.4 Gb raw sequence data were obtained, corresponding to 48,257,019 raw reads. Trinity pipeline was used to perform a de-novo assembly, we were able to identify 64,930 transcripts for female loggerhead turtle transcriptome with an N50 of 1131 bp. The obtained transcriptome data will be useful for further studies of the physiology, biochemistry and evolution in this species.

Complete mitochondrial genome of the nesting Colombian Caribbean Hawksbill Turtle.

The hawksbill turtle, Eretmochelis imbricata (Linnaeus, 1766), is an endangered sea turtle in Colombian Caribbean beach. In this study, we report the complete mitochondrial DNA sequences of hawksbill turtle. The entire genome comprised 16,386 base pairs, and a nucleotide frequency of T: 25.6%, C: 26.9%, A: G 35.4% and 12.1%. The mitogenome sequence of hawksbill turtle would contribute to better understand population genetics, and evolution of sea turtles. Molecule was deposited at the GenBank database under the accession number KP221806.

AMDAR y PCR-extra-rápida para la identificación de la tottuga cabezona Caretta caretta (Testudines: Cheloniidae) utilizando el gen mitocondrial citocromo c oxidasa I (COI) / AMDAR and PCR-Extra-fast for Molecular identification of the loggerhead sea turtle Caretta caretta (Testudines: Cheloniidae) using the mitochondrial gene cytochrome c oxidase I (COI) / AMDAR e PCR extra-rápida para a identificação da Tartaruga-Comum Caretta caretta (Testudines: Cheloniidae), utilizando o gene mitocondrial citocromo c oxidase I (COI)

Para identificación molecular de tortuga cabezona Caretta caretta, se utilizó Amplificación Mitocondrial DNA y Análisis de Restricción y PCR Extra-rápida. Se obtuvo muestras de sangre de juveniles de C. caretta de playa Don Diego (Magdalena; n=4) e Islas Del Rosario (Bolívar; n=2) en el Caribe colombiano. Se aisló DNA, se estandarizó la amplificación del gen mitocondrial citocromo c oxidasa I (COI) por PCR extra-rápida, obteniendo fragmentos de 650 pares de bases, disminuyendo en un tercio el tiempo de reacción. El producto amplificado de COI se analizó con enzimas HindIII, HyCH4III y MseI generando perfil electroforético que al compararlo in silico con secuencias para otras especies de tortugas marinas; permitió identificar patrón específico para la tortuga cabezona. Las secuencias nucleótidicas se analizaron con BLAST y similaridad entre 97-99 % con C. caretta en cinco secuencias y 92 % en otra. La información de tortugas muestreadas fue integrada en base datos BOLD y se generó el código de barras. La metodología descrita para identificación de C. caretta es procedimiento rápido y bajo costo que minimiza el tiempo de PCR mejorando su especificidad.

We molecularly identified the loggerhead turtle Caretta caretta using high-speed PCR amplification and restriction analysis of mitochondrial DNA. We isolated the DNA from blood from juvenile C. caretta from Don Diego beach (Magdalena; n=4), in Islas Del Rosario (Bolívar; n=2) in the Colombian Caribbean. By using high-speed PCR amplification of mitochondrial cytochrome c oxidase I (COI), we reduced reaction by one third and obtained fragments of 650 base pairs. We analyzed the amplified IOC product using enzymes HindIII, HpyCH4III and MseI and generated an electrophoretic profile, which compared in silico to other sea turtle species sequences, revealed the loggerhead's specific pattern. We found similarity between 97-99% with C. caretta in five of the BLAST analyzed nucleotide sequences and 92% in another. We generated a bar code for the sampled turtle information and sequences and stored them in the BOLD database. The methodology described for the identification of C. caretta is a fast and inexpensive procedure that minimizes time and improves PCR specificity.

Identificámos molecularmente a tartaruga-comum Caretta caretta usando PCR amplificado de alta-velocidade e análise de ADN mitocondrial restrito. Isolámos o ADN do sangue de juvenis C. carreta das praias Don Diego (Magdalena ; n=4), das Ilhas del Rosario (Bolívas; n=2) no Caribe Colombiano. Ao utilizar a amplificação por PCR de alta velocidade da citocromo c oxidase I (COI ), reduzimos a reacção a um terço, e obtivemos fragmentos de 650 pares de bases. Analisámos o produto IOC amplificado com as enzimas de restrição HindIII , HyCH4III e MseI e gerámos um perfil eletroforético, que comparado em silico com outras seqüéncias de espécies de tartarugas marinhas, revelou padrão específico à tartaruga-comum. Encontramos semelhanças entre 97-99 %, com C. caretta em cinco das seqüéncias de nucleotídeos BLAST analisados e 92% com outro. Gerámos um código de barras para a informação e seqüéncias das tartaruga amostradas e foram armazenados na base de dados BOLD. A metodologia descrita para a identificação de C. caretta é um procedimento rápido e barato, que minimiza o tempo e melhora a especificidade da PCR.

LSSP-PCR para la identificación de polimorfismos en el gen cry1Ben cepas nativas de Bacillus thuringiensis / LSSP-PCR to identify polymorphisms in the gene cry1B of Bacillus thuringiensis native strain

Se estandarizó la técnica LSSP-PCR (reacción en cadena de la polimerasa con un único oligonucleótido en condiciones de baja astringencia), para identificar polimorfismos del gen cry1B en aislamientos nativos de Bacillus thuringiensis (Bt) . Se evaluaron 164 aislamientos nativos colombianos identificándose el gen cry1Ba en 11 de estos aislamientos. Los 11 fragmentos amplificados, junto con el de la cepa de referencia Bt subsp. aizawai HD137, se analizaron por LSSP-PCR y los patrones electroforéticos obtenidos se compararon cualitativamente. Con los productos amplificados mediante el oligonucleótido directo se construyó un dendrograma utilizando UPGMA que mostró tres agrupamientos con similitud de 83, 79 y 68%. La agrupación con 68% de similaridad correspondió al aislamiento nativo BtGC120 que presentó el patrón de bandas más variable. Con el oligonucleótido reverso el aislamiento BtGC120 mostró una menor variabilidad (43%). La secuencia nucleotidica obtenida de este fragmento de 806 pares de bases mostró una identidad de 93% con la secuencia de los genes cry1Bc1 de Bt morrisoni y cry1Bb1 de la cepa BT-EG5847. Se predijo del marco de lectura +3 una proteína de 268 residuos aminoácidicos, con 88% de identidad con la proteína Cry1Bc. Esta secuencia reveló dos dominios, una endotoxina N implicada en la formación del poro y otra endotoxina M relacionada en el reconocimiento del receptor. La evaluación biológica del aislamiento BtGC120 sobre larvas de primer instar del insecto plaga Spodoptera frugiperda, mostró una CL50 de 1,896 ng de proteína total por cm2. Este estudio muestra que la LSSP-PCR es una técnica que permite identificar de una manera específica variaciones en las secuencias de los genes cry de Bt, con potencialidad de encontrar nuevos genes con novedosas actividades biológicas.

LSSP-PCR (low stringency specific primer-PCR), technique was standardized for polymorphisms in native isolates cry1B genes Bacillus thuringiensis (Bt) identify. 164 isolates were evaluated by identifying the gene colombian native cry1Ba, in 11 of these isolates. The 11 amplified fragments, along with the reference strain Bt subsp. aizawai HD137 were analyzed by LSSP-PCR and electrophoretic patterns obtained were compared qualitatively. With the amplified products with direct oligonucleotide was constructed using UPGMA dendrogram showed three clusters with similarity of 83, 79 and 68%. The group with 68% similarity corresponded to the isolation BtGC 120 native who introduced the variable pattern of bands. With the isolation BtGC 120 reverse oligonucleotide showed less variability (43%). The nucleotide sequence obtained from this fragment of 806 bp showed 93% identity with the sequence of the genes of Bt morrisoni cry1Bc1 and cry1Bb1 BT-strain EG5847. Predicted reading frame of 268 +3 a protein amino acid residues with 88% identity with the protein Cry1Bc. This sequence revealed two domains, an N endotoxin involved in the formation of the pore and other related M endotoxin in receptor recognition. The biological evaluation BtGC120 insulation on first instar larvae of Spodoptera frugiperda insect pest, showed an LC50 of 1.896 ng of total protein per cm2. This study shows that the LSSP-PCR is a technique that identifies a specific way variation in the sequences of cry genes of Bt, with the potential to find new genes with novel biological activities.

Estandarización de un bioensayo y evaluación preliminar de tres formulaciones comerciales de bacillus thuringiensis sobre tuta absoluta (meyrick) (lepidoptera: gelechiidae) / Standardising a bioassay for the preliminary evaluation of threecommercial bacillus thuringiensis formulations against tutaabsoluta (meyrick) (lepidoptera: gelechiidae)

La polilla del tomate (Tuta absoluta Meyrick; Lepidoptera: Gelechiidae) es una de las plagas más devastadorasdel tomate en Colombia y países suramericanos, produciendo pérdidas de hasta el 100% en cultivos sin protección.En 2009, T. absoluta se detectó en España, Portugal y países del mediterráneo, además de Inglaterra,Bulgaria y Alemania. Para su control se utilizan insecticidas químicos que generan resistencia e impactoambiental y de salud. La alternativa de utilizar biopesticidas contra esta plaga es de importancia creciente. Eneste estudio se evaluaron cinco métodos de bioensayo para medir adecuadamente la toxicidad sobre larvasde T. absoluta de tres productos comerciales: Dipel®, XenTary® y Turilav®, formulaciones a base de Bacillusthuringiensis (Bt). El método de Inmersión del folíolo, con el producto Dipel®, causó el 100% de mortalidadde larvas y 96% de supervivencia del testigo; este método presentó diferencias significativas al segundo(F=0,025, p>0,05) y cuarto (F=0,0018, p>0,05) día después de la aplicación (DDA). El método de Aspersiónfoliar por aerógrafo produjo 100% de mortalidad de larvas con Dipel® al segundo DDA (F=7,94x10-10,p> 0,05), y produjo diferencias significativas también al cuarto DDA (F=3,45x10-6, p>0,05). Los métodosFoliolos sumergidos y Medio de cultivo provocaron una alta mortalidad en el control por lo que fueron rechazados.El uso de Dipel®, XenTari® y Turilav® en concentración de 1,25 g/L causó entre 80-100% demortalidad entre el segundo y octavo DDA en tres métodos evaluados válidos (1, 2, 3), además corrobora laactividad biológica de B. thuringiensis sobre este insecto plaga.

The tomato moth (Tuta absoluta Meyrick; Lepidoptera: Gelechiidae) is one of the most devastating tomatopests in Colombia and South-American countries, producing losses of up to 100% in unprotected crops. T.absoluta was detected in Spain, Portugal and Mediterranean countries in 2009, as well as England, Bulgaria andGermany. Chemical insecticides are used for controlling it; however, they produce resistance and an environmentaland human health impact. Finding an alternative to using biopesticides against this pest is becomingincreasingly important. This study evaluated five bioassay methods measuring three commercial products’toxicity on T. absoluta larvae: Dipel, XenTary and Turilav Bacillus thuringiensis (Bt) -based formulations. The leafdipping bioassay method caused 100% larvae mortality with Dipel, the control group having 95% survivalrate. The other products showed significant differences on the 2nd (F=0.025, p>0.05) and 4th (F=0.0018,p>0.05) days after application (DAA). The leaf spray airbrush method produced 100% larvae mortality withDipel on the 2nd DAA, having significant differences from the other products tested on 2nd (DAA F=7.94 x10-10, p>0.05 ), 4th (F=3.45x10-6, p>0.05 ) and 8th (F=1.07x10-5, p>0.05 ) DAA. Submerged leaflet and culturemedium methods caused high mortality in controls and were thus rejected. A variation of the leaflet immersionmethod was standardised. The three commercial products produced high mortality in Lab conditionsregarding T. absolute larvae control at 1.25 g/L concentration, thereby corroborating the biological activity ofB. thuringiensis against this insect pest.

Toxicidad de δ - endotoxinas recombinantes de Bacillus thuringiensis sobre larvas de la polilla guatemalteca (Tecia solanivora) (Lepidóptera: Gelechiidae) / Toxicity of Bacillus thuringiensis recombinant δ - endotoxins on Guatemalan potato moth (Tecia solanivora)(Lepidoptera: Gelechiidae) larvae

Con el objetivo de determinar la actividad tóxica específica de las proteínas recombinantes Cry1Aa, Cry1Ac, Cry1B y Cry1C de Bacillus thuringiensis (Bt), sobre larvas de primer instar de Tecia solanivora se estableció la CL50 para las toxinas. Para este fin se implementó la cría masiva de este insecto bajo condiciones de laboratorio, 58±5 por ciento de humedad relativa, 18±5ºC de temperatura y un fotoperiodo de 23 h oscuridad y 1 h luz. Se utilizó una dieta seminatural consistente en láminas de papa variedad parda pastusa autoclavada con solución preservante (ácido ascórbico 7 g/L y metilparabeno 5 g/L), ya que fue estable en el tiempo, garantizó la reproducibilidad de los resultados y fue de fácil evaluación. Las proteínas recombinantes se evaluaron a una concentración de 0,1 μg/cm2. Los resultados obtenidos de porcentaje de mortalidad indicaron que no había diferencias entre las delta-endotoxinas recombinantes Cry1Aa, Cry1Ac, Cry1B y Cry1C de Bt (P<0,01 y P<0,05). Se calculó la CL50 de las cuatro toxinas, evaluándolas a concentraciones de 0,05; 0,1; 0,15; 0,2; 0,25 y 0,3 μg/cm2 de proteína, obteniendo las CL50: Cry1Aa 0,103, Cry1Ac 0,107, Cry1B 0,085 y Cry1C 0,112 μg de proteína/cm2. Se comprobó que las δ-endotoxinas evaluadas poseen una alta toxicidad sobre larvas de T. solanivora, siendo levemente mayor la proteína Cry1B. Este resultado es promisorio para posteriores investigaciones en ingeniería genética para la posibilidad de obtener cultivos de papas transgénicas resistente a T. solanivora

Condiciones óptimas de cultivo de linfocitos y análisis parcial del cariotipo de la tortuga cabezona, Caretta caretta (Testudines: Cheloniidae) en Santa Marta, Caribe Colombiano

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.

[Lymphocyte culture and partial karyotype of the marine turtle Caretta caretta (Testudines: Cheloniidae) in Santa Marta, Colombian Caribbean]. / Condiciones optimas de cultivo de linfocitos y análisis parcial del cariotipo de la tortuga cabezona, Caretta caretta (Testudines: Cheloniidae) en Santa Marta, Caribe Colombiano.

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.