The yellow-bellied sea snake, Hydrophis platurus (Squamata: Elapidae), off the Southwestern Pacific coast of Nicaragua, Central America / Observaciones de la serpiente marina Hydrophis platurus (Squamata: Elapidae) en el Pacífico sur de Nicaragua, América Central

Introducción: La serpiente marina de vientre amarillo (Hydrophis platurus, anteriormente Pelamis platurus) se encuentra distribuida a lo largo de la costa del Pacífico de América Central. Sin embargo, no existe registros in situ sobre esta especie en la costa del Pacífico de Nicaragua. Objetivo: Reportar las primeras observaciones in situ de la serpiente marina de vientre amarillo en tres ocasiones durante el 2020 frente a la costa suroeste del Pacífico de Nicaragua. Métodos: Los registros se realizaron de manera oportunista durante avistamientos de cetáceos en la zona. Las serpientes marinas fueron fotografiadas para su identificación a nivel de especie en base a su morfología. Durante cada avistamiento se registró la temperatura de la superficie del mar, el estado del mar y la distancia a la costa como descriptores del hábitat. Resultados: Se registraron tres serpientes marinas de vientre amarillo en distintas ocasiones. Los avistamientos ocurrieron a menos de 30 km entre sí y a 3.3 km de la costa. La temperatura media de la superficie del mar fue de 26.6° C con oleaje y estado de la mar bajos. Conclusiones: El presente estudio brinda nuevo conocimiento sobre la distribución de la serpiente de vientre amarillo en la costa del Pacífico de Centroamérica, contribuyendo al registro de biodiversidad en Nicaragua.

Introduction: The yellow-bellied sea snake (Hydrophis platurus, formerly Pelamis platurus) is known to occur along the Pacific coast of Central America. However, there are no marine records of this species off the coast of Nicaragua. Objective: Report the first in situ marine observations of the yellow-bellied sea snake observed on three occasions in 2020 during cetacean surveys off the southwestern Pacific coast of Nicaragua. Methods: During the sightings, photographs were taken which allowed the identification of the species based on morphology. Sea surface temperature, sea state, and distance to the coast are presented as descriptors of the habitat of the records. Results: Three field observations of yellow-bellied sea snakes were recorded on separate occasions. Sightings occurred within 30 km of each other and 3.3 km from the coast. Average sea surface temperature was 26.6 °C with low swell and sea state. Conclusions: The present information offers new knowledge about the presence of the yellow-bellied sea snake on the Pacific coast of Central America, contributing to the biodiversity record in Nicaragua.

Hepatozoon pyramidumi sp. n. (Apicomplexa: Adeleorina) from the blood of Echis pyramidum: morphology and SSU rDNA sequence / Hepatozoon pyramidumi sp. n. (Apicomplexa: Adeleorina) do sangue de Echis pyramidum: morfologia e sequência de SSU rDNA

Hepatozoon pyramidumi sp. n. is described from the blood of the Egyptian saw-scaled viper, Echis pyramidum, captured from Saudi Arabia. Five out of ten viper specimens examined (50%) were found infected with Hepatozoon pyramidumi sp. n. with parasitaemia level ranged from 20-30%. The infection was restricted only to the erythrocytes. Two morphologically different forms of intraerythrocytic stages were observed; small and mature gamonts. The small ganomt with average size of 10.7 × 3.5 μm. Mature gamont was sausage-shaped with recurved poles measuring 16.3 × 4.2 μm in average size. Infected erythrocytes were hypertrophied; their nuclei were deformed and sometimes displaced from their central position in the normal uninfected cell. Merogonic stages were observed in the lung endothelial cell and the liver parenchyma cells. Mature meront was 17.8 × 13.6 µm and contained banana-shaped merozoites with average size of ~15 × 2 µm. Phylogenetic analysis based on the SSU rDNA sequence clustered Hepatozoon pyramidumi sp. n with previously sequenced Hepatozoon spp., most of them infected reptilian hosts without geographic consideration. The morphological and molecular comparison with closely related species proved the taxonomic uniqueness and novelty of the present form.(AU)

Hepatozoon pyramidumi sp. n. é descrito a partir do sangue da víbora em escamas e quilhas serrilhadas, Echis pyramidum, capturada na Arábia Saudita. Cinco de dez espécimes de víbora examinadas (50%) foram encontradas infectadas com Hepatozoon pyramidumi sp. n. com nível de parasitemia de 20% a 30%. A infecção foi restrita apenas aos eritrócitos. Foram observadas duas formas morfologicamente diferentes de estágios intra-eritrocíticos: gamontes de tamanho pequeno e madura. As formas menores de gamontes apresentaram média de 10,7 × 3,5 μm. Os gamontes maduros apresentaram forma de salsicha, com pequenos polos recurvados, medindo 16,3 × 4,2 μm, em média. Os eritrócitos infectados estavam aumentados de tamanho; seus núcleos encontravam-se deformados e, algumas vezes, deslocados de sua posição central, quando comparados às células normais não-infectadas. Foram observados estágios merogônicos em células endoteliais pulmonares e nas células do parênquima hepático. Os merontes maduros apresentavam 17,8 × 13,6 µm e continham merozoítos em forma de banana com tamanho médio de ~ 15 × 2 µm. A análise filogenética baseada nas sequências SSU rDNA agrupou Hepatozoon pyramidumi sp. n com Hepatozoon spp. detectados em répteis de várias regiões geográficas. Por meio de análises morfológicas e moleculares com espécies intimamente relacionadas, demonstrou-se a singularidade dessa nova espécie de Hepatozoon.(AU)

A new species of monadal coral snake of the genus Micrurus (Serpentes, Elapidae) from western Amazon.

We described a new species of monadal coral snake of the genus Micrurus from the region of Tabatinga and Leticia, along the boundaries of Brazil, Colombia, and Peru. The new species can be distinguished from the other congeners by the combination of the following characters: absence of a pale nuchal collar; black cephalic-cap extending from rostral to firstdorsal scale and enclosing white tipped prefrontal scales; upper half of first to four supralabials and postoculars black; tricolor body coloration, with 27-31 black rings bordered by narrower white rings and 27-31 red rings; tail coloration similar to body, with alternating black rings bordered by irregular narrow white rings, red rings of the same width as the black rings; ventral scales 205-225; subcaudal scales 39-47.

Occurrence and distribution patterns of several marine vertebrates in Golfo Dulce, Costa Rica / Patrones de presencia y distribución de vertebrados marinos en el Golfo Dulce

Abstract Within the months of January-February 2010 and July-August 2011, 55 daily sighting surveys were conducted in Golfo Dulce, a tropical fiord-like embayment in the South Pacific region of Costa Rica. The research objective was to collect baseline data on several marine vertebrates that enter or reside in the Gulf and determine spatial distribution during the study periods. Sighting surveys mainly focused on whales, dolphins, sea turtles and sea snakes. A total of 458 recorded sightings, representing at least 30 marine species, were acquired during 423.7 observation hours across all areas of the embayment. These data, along with information garnered from 82 interviews with local fishermen and tour boat guides, confirmed a wide array of marine species utilizing the inlet for the purposes of foraging, mating, resting and socializing. GIS analyses allowed comparisons of spatial distribution and revealed high-density areas for marine fauna within Golfo Dulce. Rev. Biol. Trop. 63 (Suppl. 1): 261-272. Epub 2015 April 01.

Resumen Durante los meses de enero-febrero del 2010 y julio-agosto del 2011, se realizaron 55 muestreos de avistamientos diarios en el Golfo Dulce, una ensenada considerada un fiordo tropical en la región del Pacífico Sur de Costa Rica. El objetivo de la investigación fue recolectar datos de línea base en relación con las especies marinas que entran o residen en el Golfo, incluida la distribución espacial durante los períodos de estudio. El enfoque principal del estudio fue en especies de ballenas, delfines, tortugas marinas y serpientes marinas; sin embargo, se registraron observaciones de otras especies. Se documentaron un total de 458 avistamientos, que representan por lo menos 30 especies marinas, durante 423.7h de observación en todas las áreas del Golfo. Estos datos, junto con la información obtenida a partir de 82 entrevistas a pescadores locales y guías de barcos turísticos, sugieren que una gran variedad de vertebrados marinos utilizan el Golfo con el propósito de buscar alimento, aparearse, descansar y socializar. El análisis de los datos mediante SIG permite la comparación de la distribución espacial, la cual reveló áreas de alta densidad de fauna marina en el Golfo Dulce.

A new species of triadal coral snake of the genus Micrurus Wagler, 1824 (Serpentes: Elapidae) from northeastern Brazil.

The genus Micrurus comprises 123 currently recognized taxa (species and subspecies) that are traditionally arranged in four species groups diagnosable mainly by color pattern characteristics. Here, we describe a new species of triadal coral snake from northeastern Brazil. The new species is distinguished from other sympatric triadal congeners (M. lemniscatus carvalhoi, M. ibiboboca and M. brasiliensis) mainly by the entirely black parietals and by a suite of external characters and hemipenial morphology. The new species appears to be restricted to tropical ombrophilous lowland coastal forests of northeastern Brazil and all recently collected specimens are known to occur in small forest patches surrounded by periurban environment, which calls for an urgent evaluation on its conservation status.

Thousands of microsatellite loci from the venomous coralsnake Micrurus fulvius and variability of select loci across populations and related species.

Studies of population genetics increasingly use next-generation DNA sequencing to identify microsatellite loci in nonmodel organisms. There are, however, relatively few studies that validate the feasibility of transitioning from marker development to experimental application across populations and species. North American coralsnakes of the Micrurus fulvius species complex occur in the United States and Mexico, and little is known about their population structure and phylogenetic relationships. This absence of information and population genetics markers is particularly concerning because they are highly venomous and have important implications on human health. To alleviate this problem in coralsnakes, we investigated the feasibility of using 454 shotgun sequences for microsatellite marker development. First, a genomic shotgun library from a single individual was sequenced (approximately 7.74 megabases; 26,831 reads) to identify potentially amplifiable microsatellite loci (PALs). We then hierarchically sampled 76 individuals from throughout the geographic distribution of the species complex and examined whether PALs were amplifiable and polymorphic. Approximately half of the loci tested were readily amplifiable from all individuals, and 80% of the loci tested for variation were variable and thus informative as population genetic markers. To evaluate the repetitive landscape characteristics across multiple snakes, we also compared microsatellite content between the coralsnake and two other previously sampled snakes, the venomous copperhead (Agkistrodon contortrix) and Burmese python (Python molurus).

Characterization of a new muscarinic toxin from the venom of the Brazilian coral snake Micrurus lemniscatus in rat hippocampus

We have isolated a new muscarinic protein (MT-Mlá) from the venom of the Brazilian coral snake Micrurus lemniscatus.The MT-Mlá was able to displace the [3H]QNB binding in the hippocampus of rats. The bindingcurve in competition experiments with MT-Mlá was indicative of two types of [3H]QNB-binding site with pKivalues of 9.08±0.67 and 6.17±0.19, n=4, suggesting that various muscarinic acetylcholine receptor(mAChR) subtypes may be the target proteins of MT-Mlá. The MT-Mlá and the M1 antagonist pirenzepinecaused a dose-dependent block on total [3H]inositol phosphate accumulation induced by carbachol. TheIC50 values for MT-Mlá and pirenzepine were, respectively, 33.1 and 2.26 nM. Taken together, these studies indicate that the MT-Mlá has antagonist effect on mAChRs in rat hippocampus.The results of the present study show, for the first time, that mAChRs function is drasticallyaffected by MT-Mlá since it not only has affinity for mAChRs but also has the ability to inhibit mAChRs.

Snake venomics and venom gland transcriptomic analysis of Brazilian coral snakes, Micrurus altirostris and M. corallinus

The venom proteomes of Micrurus altirostris and M. corallinus were analyzed by combining snake venomics and venom gland transcriptomic surveys. In both coral snake species, 3FTx and PLA2 were the most abundant and diversified toxin families. 33 different 3FTxs and 13 PLA2 proteins, accounting respectively for 79.5% and 13.7% of the total proteins, were identified in the venom of M. altirostris. The venom of M. corallinus comprised 10 3FTx (81.7% of the venom proteome) and 4 (11.9%) PLA2 molecules. Transcriptomic data provided the full-length amino acid sequences of 18 (M. altirostris) and 10 (M. corallinus) 3FTxs, and 3 (M. altirostris) and 1 (M. corallinus) novel PLA2 sequences. In addition, venom from each species contained single members of minor toxin families: 3 common (PIII-SVMP, C-type lectin-like, L-amino acid oxidase) and 4 species-specific (CRISP, Kunitz-type inhibitor, lysosomal acid lipase in M. altirostris; serine proteinase in M. corallinus) toxin classes.

Acutolysin C, a weak hemorrhagic toxin from the venom of Agkistrodon acutus with leucoagglutination activity

The properties and agglutination activity of acutolysin C, a hemorrhagic metalloproteinase obtained from Agkistrodon acutus venom, were studied herein. Acutolysin C is a basic glycoprotein consisting of a single polypeptide chain with a molecular weight of 23.1 kDa and pI 8.7, containing one Zn2+ and one Ca²+ per molecule. It possesses caseinolytic, weak lethal (LD50 = 7.6 mg/kg) and weak hemorrhagic (MHD = 12.0 μg) activities, but does not present fibrinolytic, fibrinogenolytic, arginine esterase and phospholipase A2 actions. In addition, it revealed agglutination activity on some animal lymphocytes, including five species of mammals, six of birds, three of reptiles and one of amphibians, but had no effect on lymphocytes from two species of reptiles, one amphibian and nine species of fish. It had no effects on the erythrocytes and platelets of all 26 animal species tested. Both leucoagglutination and caseinolytic activities were inhibited by EDTA; while cysteine, 2-mercaptoethanol, 1,4-dithiothreitol, glutathione, serum against acutolysin C and serum against homologous snake venom as well as glucose, sucrose, mannose, lactose and galactose had no effects on inhibition. The lowest concentration of acutolysin C that induced mouse lymphocyte agglutination was 2.5 μg/mL. Acutolysin C is an interesting substance since it is the first member of the hemorrhagin family to be shown to have leucoagglutination activity.(AU)

How many studies are necessary to compare niche-based models for geographic distributions? Inductive reasoning may fail at the end.

The use of ecological niche models (ENM) to generate potential geographic distributions of species has rapidly increased in ecology, conservation and evolutionary biology. Many methods are available and the most used are Maximum Entropy Method (MAXENT) and the Genetic Algorithm for Rule Set Production (GARP). Recent studies have shown that MAXENT perform better than GARP. Here we used the statistics methods of ROC - AUC (area under the Receiver Operating Characteristics curve) and bootstrap to evaluate the performance of GARP and MAXENT in generate potential distribution models for 39 species of New World coral snakes. We found that values of AUC for GARP ranged from 0.923 to 0.999, whereas those for MAXENT ranged from 0.877 to 0.999. On the whole, the differences in AUC were very small, but for 10 species GARP outperformed MAXENT. Means and standard deviations for 100 bootstrapped samples with sample sizes ranging from 3 to 30 species did not show any trends towards deviations from a zero difference in AUC values of GARP minus AUC values of MAXENT. Ours results suggest that further studies are still necessary to establish under which circumstances the statistical performance of the methods vary. However, it is also important to consider the possibility that this empirical inductive reasoning may fail in the end, because we almost certainly could not establish all potential scenarios generating variation in the relative performance of models.

How many studies are necessary to compare niche-based models for geographic distributions? Inductive reasoning may fail at the end / Quantos estudos ainda serão necessários para avaliar modelos de distribuição geográfica baseados em modelagem do nicho? Um pensamento indutivo pode estar fadado ao fracasso

The use of ecological niche models (ENM) to generate potential geographic distributions of species has rapidly increased in ecology, conservation and evolutionary biology. Many methods are available and the most used are Maximum Entropy Method (MAXENT) and the Genetic Algorithm for Rule Set Production (GARP). Recent studies have shown that MAXENT perform better than GARP. Here we used the statistics methods of ROC - AUC (area under the Receiver Operating Characteristics curve) and bootstrap to evaluate the performance of GARP and MAXENT in generate potential distribution models for 39 species of New World coral snakes. We found that values of AUC for GARP ranged from 0.923 to 0.999, whereas those for MAXENT ranged from 0.877 to 0.999. On the whole, the differences in AUC were very small, but for 10 species GARP outperformed MAXENT. Means and standard deviations for 100 bootstrapped samples with sample sizes ranging from 3 to 30 species did not show any trends towards deviations from a zero difference in AUC values of GARP minus AUC values of MAXENT. Ours results suggest that further studies are still necessary to establish under which circumstances the statistical performance of the methods vary. However, it is also important to consider the possibility that this empirical inductive reasoning may fail in the end, because we almost certainly could not establish all potential scenarios generating variation in the relative performance of models.

A utilização de modelos de nicho ecológico (ENM) para gerar distribuições geográficas potenciais de espécies tem aumentado rapidamente nas áreas de ecologia, biologia da conservação e biologia evolutiva. O Método de Máxima Entropia (MAXENT) e o Algoritmo Genético para Produção de Conjunto de Regras (GARP) estão entre os métodos mais utilizados, e estudos recentes têm atribuído ao MAXENT um melhor desempenho no processo de modelagem com relação ao GARP. Neste trabalho, foram utilizados os métodos estatísticos ROC - AUC (area under the Receiver Operating Characteristics curve) e de reamostragem (bootstrap) para avaliar o desempenho do GARP e MAXENT em gerar modelos de distribuição potencial para 39 espécies de cobras corais do Novo Mundo. Os resultados mostraram que os valores de AUC para o GARP variaram de 0,923 a 0,999, enquanto que para o MAXENT variaram de 0,877 a 0,999. Em geral, as diferenças de AUC entre os dois métodos foram pequenas, embora o GARP tenha apresentado melhor desempenho que o MAXENT para 10 espécies. Valores de média e desvio padrão de 100 amostras variando de 3 a 30 espécies não revelaram qualquer tendência de desvio em relação à diferença zero entre valores de AUC do GARP menos valores de AUC do MAXENT. Estes resultados sugerem que mais estudos serão necessários para determinar sob quais circunstâncias o desempenho estatístico dos modelos varia, embora seja importante considerar também a possibilidade de que argumentações empírico-indutivas em favor de um ou outro método podem falhar, já que é quase impossível estabelecer todos os cenários potenciais causadores de variação no desempenho dos modelos.

Proteomic characterization of the thermostable toxins from Naja naja venom

Naja naja snake venom presents abundant thermostable peptides. Many of them possess useful pharmacological activity that may be employed for drug development. For the proteomic characterization of such toxins, in the present study, Naja naja venom solution was heated up to 100°C for 10, 30, 60, 120, 180 and 300 minutes and protein fractions of non-heated and heated venom were analyzed by two-dimensional nano-liquid chromatography coupled online with tandem mass spectrometry. After heating for 300 minutes, a total of 32 peptides were still detected in the supernatant. The identified peptides belong to the following groups: cardiotoxins, neurotoxins and cytotoxins. It was found that thermostable peptides are able to preserve their analgesic activity after a long heating time in formalin test. Mice injected with 15 ìg/g of 60-minute heated venom or with 25 ìg/g of 300-minute heated venom revealed even a better analgesic activity than those treated with lidocaine.(AU)

Diversity of Micrurus snake species related to their venom toxic effects and the prospective of antivenom neutralization

Micrurus snake bites can cause death by muscle paralysis and respiratory arrest, few hours after envenomation.The specific treatment for coral snake envenomation is the intravenous application of heterologous antivenom and, inBrazil, it is produced by horse immunization with a mixture of M. corallinus and M. frontalis venoms, snakes that inhabit theSouth and Southeastern regions of the country. However, this antivenom might be inefficient, considering the existence ofintra- and inter-specific variations in the composition of the venoms. Therefore, the aim of the present study was toinvestigate the toxic properties of venoms from nine species of Micrurus: eight present in different geographic regions ofBrazil (M. frontalis, M. corallinus, M. hemprichii, M. spixii, M. altirostris, M. surinamensis, M. ibiboboca, M. lemniscatus) and one(M. fulvius) with large distribution in Southeastern United States and Mexico. This study also analyzed the antigenic crossreactivityand the neutralizing potential of the Brazilian coral snake antivenom against these Micrurus venoms

Global richness patterns of venomous snakes reveal contrasting influences of ecology and history in two different clades.

Recent studies addressing broad-scale species richness gradients have proposed two main primary drivers: contemporary climate and evolutionary processes (differential balance between speciation and extinction). Here, we analyze the global richness patterns of two venomous snake clades, Viperidae and Elapidae. We used ordinary least squares multiple regression (OLS) and partial regression analysis to investigate to what extent actual evapotranspiration (AET; summarizing current environmental conditions) and biogeographical regions (representing evolutionary effects) were associated with species richness. For viperids, AET explained 45.6% of the variance in richness whereas the effect of this variable for elapids was almost null (0.5%). On the other hand, biogeographic regions were the best predictors of elapid richness (56.5%), against its relatively small effect (25.9%) in viperid richness. Partial regressions also revealed similar patterns for independent effects of climate and history in both clades. However, the independent historical effect in Elapidae decreased from 45.2 to 17.8% when we excluded Australia from the analyses, indicating that the strong historical effect that had emerged for the global richness pattern was reflecting the historical process of elapid radiation into Australia. Even after excluding Australia, the historical signal in elapid richness in the rest of the globe was still significant and much higher than that observed in viperid richness at a global scale (2.7% after controlling for AET effects). Differences in the evolutionary age of these two clades can be invoked to explain these contrasting results, in that viperids probably had more time for diversification, generating richness responses to environmental gradients, whereas the pattern of distribution of elapid richness can be more directly interpreted in an evolutionary context. Moreover, these results show the importance of starting to adopt deconstructive approaches to species richness, since the driving factors of these patterns may vary from group to group according to their evolutionary history.

Venomous snakebites and antivenom treatment according to a protocol for pediatric patients in taiwan

Children bitten by venomous snakes comprise emergency cases that present high morbidity and mortality, especially in some regions of Asia and Africa. Reports on clinical features and management of envenomated children are scarce. This observational study implemented a protocol for antivenom use in pediatric snakebite victims in Taiwan, between 1994 and 2007. The present work investigated demographics, clinical features and effects of antivenom therapy and the complications and prognosis for snakebites. A total of 55 children and adolescents, with a median age of 9.9 years (ranging from 2 to 18 years), was identified. Forty-five patients (82 percent) were bitten between May and September. Thirty-five patients (64 percent) received antivenom therapy, 28 of them (80 percent) within two hours after being bitten. No fatalities occurred and only five of 35 patients (14 percent) had major morbidity when treated according to the protocol. Thirty-one snakes (56 percent) were identified and 12 of them (38 percent) were Naja atra. This study indicates that a protocol for children affected by snakebites is valuable for guiding emergency physicians to treat these patients immediately. Further strategies are required to reduce the morbidity rate that occurs as a result of Naja atra bite.(AU)

Some aspects of the venom proteome of the Colubridae snake Philodryas olfersii revealed from a Duvernoy's (venom) gland transcriptome.

We investigated the putative toxins of Philodryas olfersii (Colubridae), a representative of a family of snakes neglected in venom studies despite their growing medical importance. Transcriptomic data of the venom gland complemented by proteomic analysis of the gland secretion revealed the presence of major toxin classes from the Viperidae family, including serine proteases, metalloproteases, C-type lectins, Crisps, and a C-type natriuretic peptide (CNP). Interestingly, the phylogenetic analysis of the CNP precursor showed it as a linker between two related precursors found in Viperidae and Elapidae snakes. We suggest that these precursors constitute a monophyletic group derived from the vertebrate CNPs.

Lachesis muta (Viperidae) cDNAs reveal diverging pit viper molecules and scaffolds typical of cobra (Elapidae) venoms: implications for snake toxin repertoire evolution.

Efforts to describe toxins from the two major families of venomous snakes (Viperidae and Elapidae) usually reveal proteins belonging to few structural types, particular of each family. Here we carried on an effort to determine uncommon cDNAs that represent possible new toxins from Lachesis muta (Viperidae). In addition to nine classes of typical toxins, atypical molecules never observed in the hundreds of Viperidae snakes studied so far are highly expressed: a diverging C-type lectin that is related to Viperidae toxins but appears to be independently originated; an ohanin-like toxin, which would be the third member of the most recently described class of Elapidae toxins, related to human butyrophilin and B30.2 proteins; and a 3FTx-like toxin, a new member of the widely studied three-finger family of proteins, which includes major Elapidae neurotoxins and CD59 antigen. The presence of these common and uncommon molecules suggests that the repertoire of toxins could be more conserved between families than has been considered, and their features indicate a dynamic process of venom evolution through molecular mechanisms, such as multiple recruitments of important scaffolds and domain exchange between paralogs, always keeping a minimalist nature in most toxin structures in opposition to their nontoxin counterparts.

Lachesis muta (Viperidae) cDNAs reveal diverging pit viper molecules and scaffolds typical of cobra (Elapidae) venoms Implications for snake toxin repertoire evolution

Efforts to describe toxins from the two major families of venomous snakes (Viperidae and Elapidae) usually reveal proteins belonging to few structural types, particular of each family. Here we carried on an effort to determine uncommon cDNAs that represent possible new toxins from Lachesis muta (Viperidae). In addition to nine classes of typical toxins, atypical molecules never observed in the hundreds of Viperidae snakes studied so far are highly expressed: a diverging C-type lectin that is related to Viperidae toxins but appears to be independently originated; an ohanin-like toxin, which would be the third member of the most recently described class of Elapidae toxins, related to human butyrophilin and B30.2 proteins; and a 3FTx-like toxin, a new member of the widely studied three-finger family of proteins, which includes major Elapidae neurotoxins and CD59 antigen. The presence of these common and uncommon molecules suggests that the repertoire of toxins could be more conserved between families than has been considered, and their features indicate a dynamic process of venom evolution through molecular mechanisms, such as multiple recruitments of important scaffolds and domain exchange between paralogs, always keeping a minimalist nature in most toxin structures in opposition to their nontoxin counterparts.

A new species of slender coralsnake from Colombia, and its clinal an ontogenetic variation (Serpentes, Elapidae: Leptomicrurus).

Leptomicrurus renjifoi is described from tropical semi-deciduous forest of the eastern Colombian Ilanos. It is one of the smallest species in the genus, is most similar to L. scutiventris, and it may be distinguished from known congeners by a combination of color, pattern, and scale characters. Evidence for the recognition of Leptomicrurus is convincing, although its members were recently thought to comprise a closely related assemblage within Micrurus. A supposedly aberrant specimen of L. scutiventris may indicate clinal or ontogenetic variation in pattern.

Lachesis / Lachesis

Le maitre de la brousse, Lachesis muta, est le plus grand representant actuel de la famille des Viperidae; sa taille peut depasser 3,50 metres. Sa systematique vient d'etre revisee recemment. On distinguait autrefois quatre... (AU)