Neurobiology of Seasonal Life-history Transitions

Lucas, Ashley Rae

03 September 2015

Many animals exhibit seasonal changes in life-history stages, and these seasonal transitions are often accompanied by dramatic switches in behavior. While the neuroendocrine mechanisms that regulate such behavioral transitions are poorly understood, arginine vasotocin (AVT) and neuropeptide Y (NPY) are excellent candidates because they regulate reproductive and feeding behavior, respectively. In this study, I asked if seasonal changes in AVT and/or NPY are concomitant with spring migration away from the breeding grounds, as male and female red-sided garter snakes (Thamnophis sirtalis parietalis) are transitioning from reproductive to non-reproductive behavior during this time. To address this question, I collected male and female snakes in different migratory stages during the spring and fall. Brains were processed for AVT and NPY immunohistochemistry and the total number of immunoreactive (-ir) cells quantified for each individual. As predicted, males had significantly more AVT-ir cells in the preoptic area and bed nucleus of the stria terminalis, brain regions important for courtship behavior, during the spring mating season compared to the fall. Females had significantly more AVT-ir cells in the preoptic area during the spring compared to the fall and, surprisingly, did not exhibit seasonal changes in NPY. In contrast, males had significantly more NPY-ir cells in the cortex, a region important for spatial memory, and in the posterior hypothalamus during the fall compared to the spring, which likely reflects increased feeding behavior during the summer foraging period. Neither AVT- nor NPY-ir cell number varied significantly with migratory status, indicating that seasonal changes in these neuropeptides are not directly related to migration. I then asked if the observed seasonal changes in AVT and NPY in males and females are related to the transition from reproductive to non-reproductive states. Compared to courting males, non-courting males had significantly more AVT-ir cells in the supraoptic nucleus and more NPY-ir cells in the cortex. AVT- and NPY-ir cells did not differ between unmated and mated females. Collectively, my results suggest that AVT and NPY play a role in regulating seasonal transitions in male reproductive behavior, rather than regulating migration per se. Further, these data indicate that both AVT and NPY are regulating reproductive behavior differently in males versus females. These data provide the framework for future studies examining the mechanisms regulating transitions between reproductive, migratory and foraging behaviors.

Biological rhythms

Neuropeptide Y

Immunohistochemistry

Biology

Neuroscience and Neurobiology

Analysis of parametric gaits and control of non-parametric gaits of snake robots / ヘビ型ロボットのパラメトリックな運動の解析およびノンパラメトリックな運動の制御

Ryo, Ariizumi

23 March 2015

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第18942号 / 工博第3984号 / 新制||工||1614(附属図書館) / 31893 / 京都大学大学院工学研究科機械理工学専攻 / (主査)教授 松野 文俊, 教授 椹木 哲夫, 教授 藤本 健治 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

snake robot

parameter tuning

front-unit following

heading control

500

Clonagem, expressão e estudo de alguns cDNAs codificando proteínas estruturalmente relacionadas às alfa neurotoxinas da glândula de veneno da cobra coral Micrurus corallinus (Serpentes, Elapidae). / Cloning, expression and study of some cDNAs codifying proteins structurally related to the alpha neurotoxins of the venom gland from coral snake Micrurus corallinus (Serpentes, Elapidae).

Silva, Alvaro Rossan de Brandão Prieto da

28 January 2002

De uma biblioteca de cDNA da glândula de veneno da cobra coral brasileira Micrurus corallinus foi isolada uma seqüência denominada NXH8. Esta seqüência de cDNA apresenta similaridade estrutural com a família de toxinas de serpentes em 'três dígitos' ricas em pontes dissulfeto. A subclasse melhor conhecida nesta família, são as alfa neurotoxinas. Uma outra seqüência distinta, denominada NXH1 e suas isoformas NXH3 e NXH7, foram isoladas anteriormente. Pertencem à mesma família de toxinas e estão presentes na mesma biblioteca. Alguns resultados da caracterização de NXH1, são utilizados neste estudo, em comparação com NXH8. Algumas características estruturais tornam a seqüência NXH8 diferente da classe usual das alfa neurotoxinas, vindo a constituir possivelmente uma nova subclasse da família. A proteína NXH8 foi expressa em diversos vetores de expressão em Escherichia coli. A proteína recombinante, expressa pelo vetor pRSET C - NXH8 foi utilizada para imunizar camundongos. O soro contra NXH8, assim como o soro anti - elapídico do Instituto Butantan, reconhece a toxina recombinante em ELISA e Western blot. O soro anti - NXH8 detecta apenas uma banda do veneno de M. corallinus em Western blot, mas apresenta reatividade cruzada com componentes do veneno de alguns elapídeos neotropicais e do velho mundo. Em contraste, dados anteriores demonstraram que o soro anti - NXH1 é específico para um componente único do veneno de M. corallinus. O veneno de M. corallinus tem alfa neurotoxinas que bloqueiam o receptor pós - sináptico nicotínico de acetilcolina nas membranas do músculo esquelético de ratos. O soro anti - NXH8 é capaz de impedir a ligação de componentes do veneno bruto a esses receptores. Já o soro contra NXH1 não apresenta a mesma capacidade inibitória. Isto indica que NXH8 tem afinidade pelo receptor nicotínico muscular de acetilcolina, ou que NXH8 compartilha de um epítopo neutralizante presente também nas alfa neurotoxinas do veneno da cobra coral M. corallinus. / A cDNA sequence encoding a putative new toxin, NXH8, was isolated from the cDNA library constructed from the venom gland of the Brazilian coral snake, Micrurus corallinus. This sequence shows a structural similarity with the snake toxin family known as 'three-fingered' toxins, a family of toxins with approximately 60 to 70 amino acids and usually 4 to 5 disulfide bonds. Irrespective of whether these proteins are functionally different, their amino acid sequences can be readily aligned, using 8 half-cystines as conserved elements, suggesting the presence of common structural features. The best known subclass of three-finger-type toxins are the curaremimetic toxins, also called alpha-neurotoxins, found in most venoms from Elapid and Sea snakes. Another toxin with a distinct sequence, known as NXH1 and its isoforms NXH3 and NXH7 had been previously isolated. They belong to the same family of toxins and were characterized from the same cDNA library. In the present study, a comparative biochemical, pharmacological and structural analyses of NXH1 and NXH8 were described. Few structural characteristics of NXH8 seem to indicate that it differs from the usual class of alpha – neurotoxins, belonging, possibly, to a new subclass of 'three-finger' toxins. The NXH8 protein was expressed in various E. coli expression vectors and the resulted recombinant toxin from pRSETC-NXH8 plasmid was used as a "toxoid" for mice immunization. The anti - NXH8 sera, as well as the anti – elapid sera from the Butantan Institute, recognized the recombinant toxin by both ELISA and Western blot assays. In contrast to the claim that anti - NXH1 sera is specific to one component of M. corallinus’s venom, the anti – NXH8 sera show cross reactivity to venom of some Neotropical and Old World elapids. The M. corallinus's venom contains alpha – toxins, which inhibit post-synaptic nicotinic acetylcholine receptor of neonatal rat skeletal muscle membrane. The anti - NXH8 serum was capable of blocking the binding of the components of the crude venom to these receptors. In contrast, the anti – NXH1 serum did not show this inhibitory effect. This indicates that either NXH8 presents affinity for muscular nicotinic acetylcholine receptor or it shares a neutralizing epitope also present in M. corallinus’s alpha – neurotoxins.

biologia molecular

cobra coral

coral snake

Elapidae

Micrurus corallinus

molecular biology

neurotoxinas

neurotoxins

recombinant toxins

serpentes

snake venom

toxinas recombinantes

toxinologia

toxinology

veneno de serpente

Chronobiology of garter snakes : environmental and hormonal mechanisms mediating hibernation and reproduction

Lutterschmidt, Deborah I.

12 June 2006

Graduation date: 2006 / Most vertebrates exhibit seasonality in many life history traits. Such seasonal rhythms are temporally organized via the transduction of environmental cues (e.g., photoperiod, temperature) into appropriate endocrine signals. However, among ectothermic vertebrates that undergo continuous winter dormancy, temperature is the only environmental cue available for synchronizing seasonal rhythms. Most intriguing is that in species where reproduction occurs immediately following spring emergence, the associated changes in neurophysiology and behavior that accompany reproduction likely occur during winter dormancy. The purpose of this dissertation research was to explore the mechanisms by which temperature cues affect the chronobiology and seasonal reproduction of red-sided garter snakes (Thamnophis sirtalis parietalis). Because of their roles in circadian organization and energy balance, melatonin and corticosterone are likely hormonal components of these time-keeping systems. I first characterized the interactions between melatonin and corticosterone to better understand the hormonal mechanisms facilitating temperature-induced reproduction. Melatonin and corticosterone additively inhibit reproductive behavior during the spring mating season. Experimental manipulations with a serotonin receptor antagonist suggest the mechanism underlying these effects involves a serotonin-regulated system. Although melatonin does not influence corticosterone responses to capture stress, capture stress significantly increases melatonin concentrations. To investigate the functional significance of these interactions in regulating temperature-induced reproduction, I measured body temperatures of snakes as well as circadian melatonin and corticosterone cycles during winter dormancy and spring emergence using a combination of field and laboratory experiments. Surprisingly, an increase in body temperature is not necessary for emergence from winter dormancy. Rather, critically low temperatures may serve as a zeitgeber entraining an endogenous circannual cycle that regulates emergence. Decreased environmental temperatures, in the absence of changing photoperiod cues, modulate circadian melatonin and corticosterone rhythms during hibernation. Such temperature-induced changes in hormone rhythms may facilitate seasonal reproductive behavior following spring emergence. Furthermore, a phase-shift in corticosterone rhythms during the mating season may regulate the seasonal transition between reproductive and non-reproductive states in red-sided garter snakes. Such studies investigating the environmental and hormonal mechanisms underlying time-keeping systems may provide valuable insight into the potential impact of environmental perturbations (e.g., climate change) on seasonal rhythms in physiology and behavior.

Melatonin

Corticosterone

Circadian

Stress

Courtship behavior

Temperature

Hibernation

Garter snakes

Red-sided garter snake -- Reproduction

Melatonin -- Physiological effect

Corticosterone -- Physiological effect

Investigations on the Reptilian Spectacle

van Doorn, Kevin

January 2012

The eyes of snakes and most geckos, as well as a number of other disparate squamate taxa, are shielded beneath a layer of transparent integument referred to as the “reptilian spectacle.” Derived from the embryonic fusion of palpebral tissues, the spectacle contains a number of specializations of the skin to benefit vision while still allowing it to function as the primary barrier to the environment. For example, in nearly all species that possess it, it is markedly thinned compared to the surrounding integument and its keratinized scale is optically transparent. While the spectacle may thus seem ideally adapted to vision in allowing the eyes to be always unoccluded, it does have a few drawbacks. One such drawback is its vascularity, the implications of which are still not fully understood, but are explored herein. As no recent synthesis exists of the body of knowledge on reptilian spectacles, the first chapter of this thesis consists of a review of spectacle anatomy, physiology, adaptive significance and evolution to help put into context the following chapters that present original research. The second chapter describes the dynamics of blood flow through the spectacle vasculature of colubrid snakes, demonstrating three main points: (1) that the spectacle vasculature exhibits cycles of regular dilation and constriction, (2) that the visual perception of a threat induces vasoconstriction of its vessels, and (3) that spectacle vessels remain dilated throughout the renewal phase. The implications of these points are discussed. The third chapter describes the spectral transmittance of the shed spectacle scale, the only keratinized structure in the animal kingdom to contribute to the dioptric apparatus of the eye, as well as its thickness. Spectacle scale transmittance and thickness was found to differ dramatically between snakes and geckos and found in snakes to vary between families. The adaptive significance of the observed variation is discussed. The fourth chapter describes biochemical analyses of the shed spectacle scales of snakes and geckos and compares their composition to other scales in the integument. Spectacle scales were found to differ significantly from other scales in their keratin composition, and gecko spectacle scales in particular were found to lack ß keratin, that hard corneous protein thought to be common to all reptile scales. The concluding chapter will discuss where this research has brought the state of our knowledge on the spectacle and offers thoughts on potentially useful avenues for further research.

reptilian spectacle

spectral transmittance

spectral transmission

keratin

beta keratin

snake

gecko

blood flow

coachwhip snake

Masticophis flagellum

ß keratin

vascular dynamics

Vision Science and Biology

Investigations on the Reptilian Spectacle

van Doorn, Kevin

January 2012

The eyes of snakes and most geckos, as well as a number of other disparate squamate taxa, are shielded beneath a layer of transparent integument referred to as the “reptilian spectacle.” Derived from the embryonic fusion of palpebral tissues, the spectacle contains a number of specializations of the skin to benefit vision while still allowing it to function as the primary barrier to the environment. For example, in nearly all species that possess it, it is markedly thinned compared to the surrounding integument and its keratinized scale is optically transparent. While the spectacle may thus seem ideally adapted to vision in allowing the eyes to be always unoccluded, it does have a few drawbacks. One such drawback is its vascularity, the implications of which are still not fully understood, but are explored herein. As no recent synthesis exists of the body of knowledge on reptilian spectacles, the first chapter of this thesis consists of a review of spectacle anatomy, physiology, adaptive significance and evolution to help put into context the following chapters that present original research. The second chapter describes the dynamics of blood flow through the spectacle vasculature of colubrid snakes, demonstrating three main points: (1) that the spectacle vasculature exhibits cycles of regular dilation and constriction, (2) that the visual perception of a threat induces vasoconstriction of its vessels, and (3) that spectacle vessels remain dilated throughout the renewal phase. The implications of these points are discussed. The third chapter describes the spectral transmittance of the shed spectacle scale, the only keratinized structure in the animal kingdom to contribute to the dioptric apparatus of the eye, as well as its thickness. Spectacle scale transmittance and thickness was found to differ dramatically between snakes and geckos and found in snakes to vary between families. The adaptive significance of the observed variation is discussed. The fourth chapter describes biochemical analyses of the shed spectacle scales of snakes and geckos and compares their composition to other scales in the integument. Spectacle scales were found to differ significantly from other scales in their keratin composition, and gecko spectacle scales in particular were found to lack ß keratin, that hard corneous protein thought to be common to all reptile scales. The concluding chapter will discuss where this research has brought the state of our knowledge on the spectacle and offers thoughts on potentially useful avenues for further research.

reptilian spectacle

spectral transmittance

spectral transmission

keratin

beta keratin

snake

gecko

blood flow

coachwhip snake

Masticophis flagellum

ß keratin

vascular dynamics

Vision Science and Biology

A influencia da heparina em baixa concentração sobre a miotoxicidade do veneno de Bothrops jararacussu e bothropstoxina da heparina -I / The influence of heparin at a low concentration agaist the myotoxicity of Bothrops jararacussu and bothropstoxin-I

Ferreira, Sandro Rostelato, 1982-

27 July 2007

Orientadores: Lea Rodrigues Simioni, Yoko Oshima Franco / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciencias Medicas / Made available in DSpace on 2018-08-09T01:04:42Z (GMT). No. of bitstreams: 1 Ferreira_SandroRostelato_M.pdf: 1413633 bytes, checksum: 6030097384697994f16895f8fb1a4c92 (MD5) Previous issue date: 2007 / Resumo: O veneno de Bothrops jararacussu (Bjssu) e sua miotoxina bothropstoxina-I (BthTX-I), induzem neurotoxicidade e miotoxicidade. Como o tratamento com o antiveneno é pouco eficaz contra a miotoxicidade, muitos estudos têm sido realizados utilizando substâncias que neutralizem a atividade miotóxica induzida pelo veneno, entre elas, a heparina. Os objetivos deste trabalho foram: 1) verificar o efeito da heparina sobre a miotoxicidade induzida pelo veneno e toxina, utilizando-se uma baixa concentração de heparina, porém capaz de impedir o bloqueio neuromuscular e, 2) esclarecer o papel protetor da heparina contra Bjssu. Controles foram realizados com antiveneno botrópico (AVB) comercial ou solução nutritiva de Tyrode ou salina. Para avaliar a neurotoxicidade empregou-se técnica miográfica convencional em preparações nervo frênico-diafragma de camundongos (in vitro) e nervo ciático poplíteo externo-tibial anterior de ratos (in vivo); para avaliar a miotoxicidade in vitro empregou-se a técnica histológica (microscopia óptica) e in vivo a dosagem bioquímica da creatinoquinase (CK); para avaliar o papel protetor da heparina empregou-se a protamina, um antagonista farmacológico. Os resultados obtidos in vitro mostraram que a resposta contrátil de 12 ± 2% (n=6) frente à incubação com Bjssu (40 µg/mL) por 120 min foi aumentada para 79,6 ± 5,9% (n=6) quando pré-incubado com heparina (5 UI/mL) e 68,3 ± 6,2% (n=6) quando pré-incubado com AVB (120 µL/mL); na mesma situação a BthTX-I (2,9 µM) passou de 5 ± 1,3% (n=8) para 78,8 ± 6,8% (n=8) com heparina e 62,3 ± 6,1% (n=6) com AVB. A média da quantificação do dano morfológico (leitura de três diferentes observadores) mostrou que o veneno provocou lesões de 27% e a toxina de 40%, que passaram para níveis de 5% e 9%, respectivamente, quando tratadas com heparina e 11% e 3% quando com AVB. Os pré-tratamentos não apresentaram diferença significativa em relação ao controle Tyrode. Os resultados in vivo (em ratos) mostraram que as mesmas concentrações de veneno e toxina utilizadas nos ensaios in vitro não provocaram alterações na resposta contrátil; contudo, quando injetados no músculo gastrocnêmio de camundongos, apresentaram níveis plasmáticos de CK (U/L) de: 1454 ± 185 (Bjssu, n=6) diminuindo (P<0,05) para 236 ± 40 (com heparina, n=6) e 47 ± 5 (com AVB, n=6); 1531 ± 166 (BthTX-I, n=5) diminuindo (P<0,05) para 900 ± 149 (com heparina, n=5) e 935 ±135 (com AVB, n=5). A adição de protamina (0,8 UI/mL) aos 15 minutos de incubação da mistura heparina + veneno causou o bloqueio neuromuscular característico do veneno em preparações in vitro. Conclui-se que a heparina é mais eficaz (mas pode ser totalmente bloqueada pela protamina) que o AVB quanto a sua capacidade de impedir a neurotoxicidade in vitro causada por Bjssu e BthTX-I, e que nas mesmas concentrações a heparina demonstrou nenhuma neurotoxicidade in vivo (ratos) e que ela é tão eficiente quanto o AVB na miotoxicidade in vitro, mas menos eficaz in vivo em relação ao veneno bruto / Abstract: Bothrops jararacussu venom (Bjssu) and its myotoxin bothropstoxin-I (BthTX-I) induce neurotoxicity and myotoxicity. Since the treatment with the antivenom is weakly efficient against the myotoxicity, many reports concentrate on studies utilizing substances that neutralize the myotixicity activity induced by the venom, including heparin. The objectives of this work were: 1) to examine the effect of heparin on the myotoxicity induced by venom and toxin, using a low heparin concentration, capable to prevent the neuromuscular blockade and, 2) to examine the protective role of heparin against Bjssu. Control experiments were performed with commercial bothropic antivenom (CBA), Tyrode solution or saline. To examine the neurotoxicity, a conventional myoghraphic technique was used in studies with mouse phrenic nerve-diaphragm preparations (in vitro) and rat popliteal external nerve/muscle anterior tibialis (in vivo). Histological technique (light microscopy) and biochemical measurement of creatine kinase (CK) were used to examine the myotoxicity in vitro e in vivo, respectively. Protamine (a pharmaceutical antagonist) was used to evaluate the protective role of heparin. The results in vitro showed that the twitch-tension of 12 ± 2% in the presence of Bjssu (40 µg/mL; n=6) after 120 min was increased to 79.6 ± 5.9% when preincubated with heparin (5 UI/ml; n=6) and 68.3 ± 6.2% when preincubated with CBA (120 µL/mL; n=6). Similarly, the BthTX-I (2.9 µM) - induced responses amounted to 5 ± 1.3% (n=8) and 78.8 ± 6.8% with heparin (n=8) and 62.3 ± 6.1% with CBA (n=6). The quantification of morphological changes showed that the venom induced a damage of 27% and the toxin of 40%, which were reduced to 5% and 9%, when treated with heparin and 11% and 3% with CBA, respectively. The pre-treatment did not cause significant differences compared to Tyrode solution. The results in vivo showed that the same concentrations of venom and toxin utilized in in vitro assays did not induce alteration in twitch-tension. However, when injected in mouse gastrocnemius muscle, plasma levels of CK (U/l) of 1454 ± 185 (in the presence of Bjssu, n=6) were decreased to 236 ± 40 (heparin, n=6) and 47 ± 5 (CBA, n=6). Similarly, a value of 1531 ± 166 in the presence of BthTX-I (n=5) was decreased to 900 ± 149 (heparin, n=5) and 935 ±135 (CBA, n=5). The addition of protamine (0.8 UI/ml) at 15 min incubation of the mixture heparin+venom, induced a neuromuscular blockade similar to the venom in in vitro preparations. We conclude that heparin is more efficient (although totally antagonized by protamine) than CBA with respect to the in vitro neurotoxicity induced by Bjssu and BthTX-I, which did not cause myotoxicity in vivo (rats). Heparin is as efficient as CBA in myotoxicity in vitro, but less efficient in vivo compared to the crude venom / Mestrado / Mestre em Farmacologia

Bothrops

Venenos de serpentes

Heparina

Veneno

Mordeduras de cobra

Agentes neurotoxicos

Junção neuromuscular

Antivenenos

Bothrops

Snake venoms

Heparin

Venoms

Snake bites

Neurotoxic agents

Neuromuscular junction

Antivenom

Clonagem, expressão e estudo de alguns cDNAs codificando proteínas estruturalmente relacionadas às alfa neurotoxinas da glândula de veneno da cobra coral Micrurus corallinus (Serpentes, Elapidae). / Cloning, expression and study of some cDNAs codifying proteins structurally related to the alpha neurotoxins of the venom gland from coral snake Micrurus corallinus (Serpentes, Elapidae).

Alvaro Rossan de Brandão Prieto da Silva

28 January 2002

De uma biblioteca de cDNA da glândula de veneno da cobra coral brasileira Micrurus corallinus foi isolada uma seqüência denominada NXH8. Esta seqüência de cDNA apresenta similaridade estrutural com a família de toxinas de serpentes em 'três dígitos' ricas em pontes dissulfeto. A subclasse melhor conhecida nesta família, são as alfa neurotoxinas. Uma outra seqüência distinta, denominada NXH1 e suas isoformas NXH3 e NXH7, foram isoladas anteriormente. Pertencem à mesma família de toxinas e estão presentes na mesma biblioteca. Alguns resultados da caracterização de NXH1, são utilizados neste estudo, em comparação com NXH8. Algumas características estruturais tornam a seqüência NXH8 diferente da classe usual das alfa neurotoxinas, vindo a constituir possivelmente uma nova subclasse da família. A proteína NXH8 foi expressa em diversos vetores de expressão em Escherichia coli. A proteína recombinante, expressa pelo vetor pRSET C - NXH8 foi utilizada para imunizar camundongos. O soro contra NXH8, assim como o soro anti - elapídico do Instituto Butantan, reconhece a toxina recombinante em ELISA e Western blot. O soro anti - NXH8 detecta apenas uma banda do veneno de M. corallinus em Western blot, mas apresenta reatividade cruzada com componentes do veneno de alguns elapídeos neotropicais e do velho mundo. Em contraste, dados anteriores demonstraram que o soro anti - NXH1 é específico para um componente único do veneno de M. corallinus. O veneno de M. corallinus tem alfa neurotoxinas que bloqueiam o receptor pós - sináptico nicotínico de acetilcolina nas membranas do músculo esquelético de ratos. O soro anti - NXH8 é capaz de impedir a ligação de componentes do veneno bruto a esses receptores. Já o soro contra NXH1 não apresenta a mesma capacidade inibitória. Isto indica que NXH8 tem afinidade pelo receptor nicotínico muscular de acetilcolina, ou que NXH8 compartilha de um epítopo neutralizante presente também nas alfa neurotoxinas do veneno da cobra coral M. corallinus. / A cDNA sequence encoding a putative new toxin, NXH8, was isolated from the cDNA library constructed from the venom gland of the Brazilian coral snake, Micrurus corallinus. This sequence shows a structural similarity with the snake toxin family known as 'three-fingered' toxins, a family of toxins with approximately 60 to 70 amino acids and usually 4 to 5 disulfide bonds. Irrespective of whether these proteins are functionally different, their amino acid sequences can be readily aligned, using 8 half-cystines as conserved elements, suggesting the presence of common structural features. The best known subclass of three-finger-type toxins are the curaremimetic toxins, also called alpha-neurotoxins, found in most venoms from Elapid and Sea snakes. Another toxin with a distinct sequence, known as NXH1 and its isoforms NXH3 and NXH7 had been previously isolated. They belong to the same family of toxins and were characterized from the same cDNA library. In the present study, a comparative biochemical, pharmacological and structural analyses of NXH1 and NXH8 were described. Few structural characteristics of NXH8 seem to indicate that it differs from the usual class of alpha – neurotoxins, belonging, possibly, to a new subclass of 'three-finger' toxins. The NXH8 protein was expressed in various E. coli expression vectors and the resulted recombinant toxin from pRSETC-NXH8 plasmid was used as a "toxoid" for mice immunization. The anti - NXH8 sera, as well as the anti – elapid sera from the Butantan Institute, recognized the recombinant toxin by both ELISA and Western blot assays. In contrast to the claim that anti - NXH1 sera is specific to one component of M. corallinus’s venom, the anti – NXH8 sera show cross reactivity to venom of some Neotropical and Old World elapids. The M. corallinus's venom contains alpha – toxins, which inhibit post-synaptic nicotinic acetylcholine receptor of neonatal rat skeletal muscle membrane. The anti - NXH8 serum was capable of blocking the binding of the components of the crude venom to these receptors. In contrast, the anti – NXH1 serum did not show this inhibitory effect. This indicates that either NXH8 presents affinity for muscular nicotinic acetylcholine receptor or it shares a neutralizing epitope also present in M. corallinus’s alpha – neurotoxins.

biologia molecular

cobra coral

Elapidae

Micrurus corallinus

neurotoxinas

serpentes

toxinas recombinantes

toxinologia

veneno de serpente

coral snake

molecular biology

neurotoxins

recombinant toxins

snake venom

toxinology

Simulační modelování a řízení hadům podobných robotů / Simulační modelování a řízení hadům podobných robotů

Motyčková, Paulína

January 2021

This paper deals with the design of a robotic snake, its assembly, simulation using CoppeliaSim, and the testing of various methods for the control of robotic snakes (Serpentinoid, CPG). For individual control methods, the influence of selected parameters on the signals controlling the motorized joints of the robotic snake is observed, and their influence on the speed and energy consumption of the given mechanism is described.

ENVIRONMENTAL ASSOCIATIONS OF OPHIDIOMYCES OPHIODIICOLA PRESENCE, THE CAUSITIVE AGENT OF SNAKE FUNGAL DISEASE

Nicholas Gerald Friedeman (12469515)

27 April 2022

<p>  </p> <p>Emerging pathogenic fungi have become a topic of conservation concern due to declines seen in several host taxa. One newly emerging fungal pathogen, <em>Ophidiomyces ophiodiicola</em>, has been well documented as the causative agent of Snake Fungal Disease (SFD). SFD has been found in a variety of snake species across the United States, including the Eastern Massasauga (<em>Sistrurus catenatus</em>), a federally threatened rattlesnake species. Most work to date has involved detecting SFD for diagnosis of infection through direct sampling from snakes. Attempts to detect <em>O. ophiodiicola</em> in the environment to better understand its distribution, seasonality, and habitat associations are lacking. I collected topsoil and ground water samples from four macrohabitat types in northern Michigan at a site where SFD infection has been seen in Eastern Massasauga. I used a quantitative PCR (qPCR) assay targeting the internal transcribed spacer region (ITS) developed for diagnosis of SFD after extracting DNA from samples. <em>Ophidiomyces</em> DNA was successfully detected in topsoil, with minimal to no detection in groundwater samples. The frequency in which <em>Ophidiomyces</em> was detected in a sample did not differ between habitats, but samples grouped seasonally showed higher detection occurring during mid-summer. Investigation of the correlation of environmental parameters on <em>Ophidiomyces</em> occurrence recovered no relationships. Our data suggests that season has some effect on the presence of <em>Ophidiomyces</em>. Differences between habitats may exist but are likely more dependent on the time of sampling and currently uninvestigated soil parameters. These findings build on our understanding of <em>Ophidiomyces</em> ecology and epidemiology and inform where snakes like the Eastern Massasauga may be encountering the fungal pathogen. Furthermore, they assist with developing conservation practices aimed at reducing <em>O. ophiodiicola </em>exposure in imperiled snake species. </p>

Microbiology

Molecular Biology

Microbial Ecology

Mycology

Snake

Snake Fungal Disease

Fungal Disease

environmental sample analysis

Quantitative PCR (qPCR)

Environmental Association Analysis