Echinostome infection in green frogs (Rana clamitans) is stage and age dependent

The increasing threat of emerging infectious diseases in both wildlife and humans has spurred interest in the causes of disease emergence, including the role of anthropogenic change. A prior field study of infection patterns in amphibians suggests that echinostome infection may be an emerging disease of green frogs Rana clamitans living in urbanized environments. We examined the impact of echinostome infection on green frog tadpoles at a wide range of developmental stages (Gosner stage 25–39). Echinostome infection was associated with green frog mortality rates of up to 40% in an early developmental stage, and none in later developmental stages. Tadpoles exposed to higher echinostome doses exhibited higher edema rates, a potential sign of compromised renal function. Histopathological analysis further supported the hypothesis that echinostome-induced tadpole mortality resulted from compromised renal function. Given that the timing of highest cercarial shedding can coincide with the most vulnerable stages of green frog tadpole development, echinostomes could significantly impact green frog survival in nature.     

野生棘胸蛙消化器官蛋白酶的分布及酶活力

本研究在不同p H和温度条件下以离体方式对野生棘胸蛙(Quasipaa spinosa)不同消化器官的蛋白酶活力进行了分析。结果表明,食道、胃、胰的蛋白酶活力受到酶体系p H的显著影响(P0.05),且随p H升高呈现典型的单峰型活力曲线。食道和胃的蛋白酶活力在p H为1.5时达到峰值,胰的酶活力在p H为9.6时达到峰值,而肠道酶活力在p H为7.4时达到峰值。各消化器官蛋白酶活力具有明显的温度依赖性(P0.05),酶活力随温度升高也均呈典型的单峰型活力曲线,不同消化器官的最大酶活力温度分别为,食道50℃、胃50℃、胰45℃、前肠45℃、后肠45℃、直肠45℃。在最大酶活力的p H和30℃条件下,各消化器官蛋白酶活力由高到低依次为胰、食道、胃、直肠、前肠、后肠。由此可见,蛋白酶在棘胸蛙消化系统的分布具有明确的规律性,且不同来源的蛋白酶需要在特定p H和温度下才能表现出最大的反应活性。     

Two novel antimicrobial peptides from skin secretions of the frog,Rana nigrovittata

Two novel antimicrobial peptides with similarity to brevinin‐2 family are purified and characterized from the skin secretions of the frog, Rana nigrovittata. Their amino acid sequences were determined as GAFGNFLKGVAKKAGLKILSIAQCKLSGTC (brevinin‐2‐RN1) and GAFGNFLKGVAKKAGLKILSIAQCKLFGTC (brevinin‐2‐RN2), respectively, by Edman degradation. Different from brevinin‐2, which is composed of 33 amino acid residues (aa), both brevinin‐2‐RN1 and ‐RN2 contain 30 aa. Five cDNA sequences (Genbank accession numbers, EU136465‐9) encoding precursors of brevinin‐2‐RN1 and ‐RN2 were screened from the skin cDNA library of R. nigrovittata. These precursors are composed of 72 aa including a predicted signal peptide, an acidic spacer peptide, and a mature brevinin‐2‐RN. Both brevinin‐2‐RN1 and ‐RN2 showed strong antimicrobial activities against gram‐positive and gram‐negative bacteria and fungi. The current work identified and characterized two novel antimicrobial peptides with unique primary structure. Copyright © 2010 European Peptide Society and John Wiley & Sons, Ltd.     

Ontogeny, phylogeny, and morphology in anuran larvae: morphometric analysis of cranial development and evolution in Rana tadpoles (Anura: Ranidae)

Comparative studies of chondrocranial morphology in larval anurans are typically qualitative in nature, focusing primarily on discrete variation or gross differences in the size or shape of individual structures. Detailed data on chondrocranial allometry are currently limited to only two species, Rana sylvatica and Bufo americanus. This study uses geometric morphometric and multivariate statistical analyses to examine interspecific variation in both larval chondrocranial shape and patterns of ontogenetic allometry among six species of Rana. Variation is interpreted within the context of hypothesized phylogenetic relationships among these species. Canonical variates analyses of geometric morphometric datasets indicate that species can be clearly discriminated based on chondrocranial shape, even when whole ontogenies are included in the analysis. Ordinations and cluster analyses based on chondrocranial shape data indicate the presence of three primary groupings (R. sylvatica; R. catesbeiana + R. clamitans; and R. palustris + R. pipiens + R. sphenocephala), and patterns of similarity closely reflect phylogenetic relationships. Analysis of chondrocranial allometry reveals that some patterns are conserved across all species (e.g., most measurements scale with negative allometry, those associated with the posterior palatoquadrate tend to scale with isometry or positive allometry). Ontogenetic scaling along similar allometric trajectories, lateral transpositions of individual trajectories, and variable allometric relationships all contribute to shape differences among species. Overall patterns of similarity among ontogenetic trajectories also strongly reflect phylogenetic relationships. Thus, this study demonstrates a tight link between ontogeny, phylogeny, and morphology, and highlights the importance of including both ontogenetic and phylogenetic data in studies of chondrocranial evolution in larval anurans.     

两种蛙Sox基因的PCR-SSCP分析

采用PCR技术,以参考人SRI,基因HMG-box的保守区序列而设计一对特异引物,扩增了黑斑蛙和金线蛙的Sox基因。结果两种蛙的雌雄个体均扩增出217bp的基因片段,与人对照相同。对扩增产物进行SSCP分析显示,两种蛙雌雄个体间的单链迁移率相同,两种蛙之间差异较小,而与人有较大差异。测序表明,两种蛙的Sox序列之间以及与各类物种的Sox基因都有非常高的相似性,充分显示出Sox基因在系统进化上的高度保守性。     

Viability of glycerol-preserved and cryopreserved anuran skin

Summary Anurans are important animal models for studying the effects of anthropogenic chemical contamination of the environment. Two-compartment Teflon flow-through diffusion cells can be used to study percutaneus absorption of xenobiotics across harvested skin. However, such an approach currently necessitates that skin be harvested just before experimentation, a requirement that calls for the continuous growth and housing of living animals. The ability to preserve and store skin would allow more efficient use of animals and more flexibility in experimental design. To this end, we examined the viability of harvested anuran skin stored under various protocols consistent with current practices of mammalian skin preservation. Skin from the American bullfrog maintained 80–85% viability after 28 d, whereas viability of skin from the marine toad was only maintained for 7–10 d.     

The choice of oviposition site and the effects of density and oviposition timing on survivorship in<Emphasis Type="Italic"> Rana japonica</Emphasis>

In species that lack parental care and whose larvae are restricted to a given space throughout development, choice of egg-laying or reproductive sites often greatly influences fitness. Furthermore, reproductive success of individuals may be affected not only by conditions of the breeding area but also by the time when they start to breed, because intraspecific variation in the timing of breeding may result in asymmetric competition between larvae. We addressed these issues in an experimental and field study of the Japanese brown frog, Rana japonica. We tested whether the survival success of larvae decreased with an increase in the number of deposited egg masses and with a greater delay in oviposition. We found that the number of egg masses and timing of oviposition together significantly predicted larval survival per clutch. Moreover, we observed the natural oviposition of R. japonica to examine the prediction that if the density of larvae and the timing of oviposition affect survivorship of larvae, R. japonica will avoid depositing eggs in pools in which egg masses have already been deposited. We found that for small pools only, R. japonica tended to favor oviposition at unoccupied pools (those lacking egg masses and larvae) in the spawning season. For large pools, however, adults favored those already occupied by egg masses in the spawning period. The density of egg masses and tadpoles or the timing of oviposition may have less effect on spawning or the survival of tadpoles in large pools than in small pools.