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An opioid-like receptor in the roughskin newt, Taricha granulosaWalthers, Eliza A. 09 May 2002 (has links)
The main objectives of the current study were to obtain the complete cDNA
sequence of an opioid-like receptor from an amphibian, the roughskin newt,
Taricha granulosa, and investigate the receptor's tissue distribution and regulation
following chronic exposure to the glucocorticoid corticosterone (CORT).
Degenerate primers designed in highly conserved regions of characterized
opioid receptors were used to amplify opioid-like receptor fragments from a newt
brain cDNA library. Receptor fragments with high sequence identity to the
orphanin opioid receptor type, also termed the 'opioid receptor-like' (ORL1)
receptor, were selected for 3' and 5' RACE (rapid amplification of cDNA ends)
reactions to obtain the full-length receptor cDNA sequence. By this approach, we
obtained a cDNA sequence that putatively encodes a 368 amino acid protein with
high sequence identity (57%) to the human ORL1 receptor. Therefore, hereafter
we refer to this receptor as the newt ORL1-like (nORL) receptor. The nORL
receptor also has identity with the mammalian kappa (K) opioid receptor at a
number of residues that may enable it to recognize both ORL1- and K- receptor
selective ligands.
The tissue distribution of the nORL receptor was determined by reverse-transcriptase
polymerase chain reaction (PCR). RNA from a variety of tissues was
reverse-transcribed into cDNA using an oligo-dT primer, and the resultant cDNA
was used as template in PCR reactions with nORL receptor-specific primers.
Appropriately sized amplicons were produced in reactions with cDNA template
originating from newt brain, spinal cord, and lungs. No amplification occurred in
reactions with template cDNA from newt spleen, small intestine, heart, liver, sperm
duct, bladder, or kidney.
The regulation of the nORL receptor following chronic exposure to the
glucocorticoid corticosterone was investigated using real-time PCR. Animals were
exposed continuously to CORT for 10 days using surgically implanted Silastic
capsules packed with CORT powder. Control animals received empty Silastic
capsules, or no treatment. The relative quantitation of the nORL receptor
messenger RNA (mRNA) was achieved by real-time PCR, and mRNA levels for
the hormone-treated animals were compared to those of the controls. The same
samples were used for the relative quantitation of intracellular glucocorticoid
receptor (iGR) mRNA. There was no change in the expression of mRNA for the
nORL receptor or the iGR following chronic exposure to CORT as compared to the
controls.
In conclusion, this study provides evidence for an opioid-like receptor in the
roughskin newt that has high sequence identity to the mammalian ORL1 opioid
receptor. To the best of our knowledge, this is the first complete opioid receptor
cDNA sequence obtained for an amphibian. The nORL receptor appears to
principally function in central nervous system (CNS) processes in the newt, as
evidenced by its primary localization to brain and spinal cord. The role of the
nORL receptor in the periphery may be limited to a function in the lungs, and
awaits further investigation. The current study was also the first to investigate the
effects of a stress hormone on the regulation of an opioid receptor in an amphibian.
Our results indicate that chronic exposure to the stress hormone corticosterone does
not impact the levels of nORL receptor or intracellular glucocorticoid receptor
mRNA in the newt spinal cord. / Graduation date: 2003
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Membrane receptors for steroid hormones : pursuing the identity of a membrane glucocorticoid receptor in an amphibian brainEvans, Simon J. 06 May 1999 (has links)
In addition to the well-characterized genomic mechanism of steroid action that uses
intracellular receptors, steroid hormones also signal through nongenomic processes
that use membrane receptors. A membrane receptor for corticosterone (CORT) has
been described in brains of the roughskin newt (Taricha granulosa). This receptor is
believed to be a G-protein coupled receptor because corticosterone binding is inhibited
by guanyl nucleotides and enhanced by Mg�����. The studies described in this thesis use
biochemical, pharmacological and molecular techniques to characterize the newt
neuronal membrane glucocorticoid receptor (mGR) in pursuit of its molecular
identification. The mGR was successfully solubilized from newt neuronal membranes
and conditions were defined that maintained corticosterone binding activity for further
study. The solubilized receptor was partially purified using standard chromatographic
techniques and an immobilized ligand affinity resin (CORT-Sepharose). These
chromatographic studies were combined with the use of a novel photoaffinity ligand
(azido-CORT) to biochemically characterize the mGR protein, finding that it is an
acidic glycoprotein with an apparent molecular weight of 63 kDa and an isoelectric
point of approximately 5.0. Pharmacological studies with mGR showed that a subset
of kappa opioid ligands displaced corticosterone from the receptor binding site with K[subscript i]
values in the nanomolar to low-micromolar range. The interaction of mGR with kappa
opioid ligands was specific because no mu-, delta-, or orphanin-specific opioid ligands
were effective at displacing corticosterone from the receptor. These data suggest that
the newt neuronal mGR may be a kappa-opioid like receptor. Finally, molecular
studies were used to clone a novel newt brain protein, neuronal axonal protein 22
(NAP-22), that was identified in a protein differential display strategy designed to
identify mGR. Studies with the cloned and expressed NAP-22 protein suggest that it is
not the mGR but, instead, may be a mGR-associated protein. These studies provided
new information about the biochemical and pharmacological properties of mGR, and
may have discovered a protein that is associated with the newt neuronal mGR. / Graduation date: 1999
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Rapid effects of corticosterone on stress-related behaviors in an amphibianChiavarini, Katherine E. 29 May 1997 (has links)
In the wild, when an animal is exposed to predators or harsh conditions, the stress
response is often associated with fleeing behaviors, which are seen as increased
locomotor behavior. Handling-stress procedures and intracerebroventricular (icy)
injection of corticotropin-releasing factor (CRF) have both been shown to cause an
increase in locomotor activity in roughskin newts (Taricha granulosa). The present
experiments were designed to determine if icv administration of corticosterone (CORT)
prevents stress-induced locomotor increases in activity, if it prevents CRF-induced
increases in locomotor activity, and if the time-course and pharmacological specificity of
the CORT effects on locomotor activity fit the model for intracellular or membrane
receptors.
In experiment 1, newts which had been injected with CORT or dexamethasone
(DEX) received a standardized handling-stress procedure. Corticosterone administration
was able to suppress the increase in locomotor activity in newts exposed to handling-stress
at 20 minutes after administration. This effect was transient (no longer present at 2
hours after the injection) and not mimicked by DEX, a synthetic glucocorticoid that binds
to intracellular and not membrane receptors. In experiments 2 and 3, either CORT or
DEX was administered in the same icy injection with CRF. CORT suppressed CRF-induced
locomotor activity in some cases, but this action of CORT seems to be context
dependent. Results for DEX-injected newts were confounded the failure of CRF to
induced significant increases in locomotor activity. There was variability in the effect of
CRF on locomotor activity across seasons. Based on time-course and specificity, it
appears that CORT can modulate locomotor activity in newts through mechanisms
involving the membrane receptor. Variability in the effects of CRF on locomotor activity
in newts suggests there may be seasonal differences in responses to stress. / Graduation date: 1998
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Neuroanatomical distribution of androgen and estrogen receptors in the brain of the roughskin newt, Taricha granulosaDavis, Glen Andrew 07 December 1994 (has links)
The gonadal steroids, testosterone and estradiol, are known to be important
modulators of neuronal functions and behaviors in most vertebrate species. These
steroid hormones also elicit changes in neuropeptide synthesis and secretion, alter
specific neurohormone receptor levels, and alter neuronal morphology and
electrophysiology. Many of the actions of androgens and estrogen are mediated by
specific intracellular receptors found in certain regions of the brain. But where are
these neuronal targets for androgens and estrogen found?
The research in this thesis investigates the neuroanatomical distribution of
androgen and estrogen receptors in the brain of a urodele amphibian, the roughskin
newt, Taricha granulosa. Using immunocytochemistry with antibodies against these
receptors, the distribution of both androgen and estrogen receptor-immunoreactive
cells is described in the brain of this species. This study found brain regions that
contain immunoreactive androgen receptors that have not previously been reported in
poikilothermic vertebrates using other techniques.
In addition, the distribution of estrogen receptor-immunoreactive cells in
most brain areas, and the distribution of androgen receptor-immunoreactive cells in
several brain areas, were found to be similar in this amphibian to those described in
studies that employed in vivo autoradiographic techniques in other vertebrate species.
This study suggests that the neuroanatomical distribution of gonadal steroid receptors
is a relatively conserved trait in vertebrates. The widespread distribution of these
receptors in the brain probably reflects the multiple functions that androgens and
estrogen are known to have in the brain. / Graduation date: 1995
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An anatomical and neurophysiological investigation of neural mechanisms in the hindbrain underlying vasotocin and corticosterone effects on a reproductive behavior of roughskin newts (Taricha granulosa)Lewis, Christine M. January 2007 (has links)
Thesis (Ph. D.)--University of Wyoming, 2007. / An interdisciplinary thesis in psychology and neuroscience. Title from PDF title page (viewed on Dec. 5, 2008). Includes bibliographical references.
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The Oligocene Fossil Caudates of Oregon: Classification, Analysis, and Insights on the Paleoecology and Conservation Biology of Pacific NewtsJacisin, John 29 September 2014 (has links)
Newts, abundant worldwide, have unclear pre-Pliocene evolution and phylogenetic relationships. North America has a sporadic pre-Pliocene newt record. Several undescribed fossils can address this lack of information. I built a character matrix of >70 morphological characters for extant newts and two fossil species, Taricha oligocenica and Taricha lindoei. Phylogenetic analyses were used to investigate the relationships of the fossil taxa within newts. The morphology of the fossil taxa was compared with extant North American newts to redescribe the fossil specimens. The past ecology and biogeography of North American fossil newts was compared with their current ecologies and distribution to better understand their evolution and dispersal and to predict possible changes for newts in the face of environmental change. Results indicate that T. oligocenica and T. lindoei are closely-related species nested within Taricha, but their relationships with extant species are unresolved; the genus itself is rooted at least 32 Ma. / 2015-09-29
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Sex-Biased Predation on Taricha by a Novel Predator in Annadel State ParkBrouillette, Amber Noelle 01 December 2008 (has links)
Newts of the genus Taricha have long been studied due to the powerful neurotoxin found in their skin. Tetrodotoxin (TTX) acts by blocking receptors in sodium channels, ultimately resulting in death via asphyxiation. The only documented predators of species in this genus have been snakes of the genus Thamnophis. Recently, predation on Taricha in Ledson Marsh in Annadel State Park, Santa Rosa, CA was discovered. Predation was in the form of laceration or evisceration, and tracking of predation from 1998-2008 showed that it was male-biased. Two species of Taricha were found living sympatrically at this location, the California newt (T. torosa) and the rough-skinned newt (T. granulosa). Fluorometric High Phase Liquid Chromatography (HPLC) analysis was used in order to quantify TTX levels in the skin of ten male and ten female newts of each species. Quantification of TTX was done to determine the influence, if any, that TTX levels may have on sex-biased predation in this population. I predicted that levels of TTX would be greater in females than males, and greater in T. granulosa than T. torosa since very few T. granulosa were preyed upon during the study period. My results indicated that there were significant differences between the sexes, and T. torosa were significantly more toxic than T. granulosa. An in-depth ecological study of relative abundances of both species and identification of the predator are needed at this site to obtain a clear picture of the predator-prey dynamics at Ledson Marsh
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Agricultural impacts on amphibian survival, growth, and distributions /Baker, Nick J. January 1900 (has links)
Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 68-82). Also available on the World Wide Web.
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The Genetics of Colonization in Two Amphibian Species After the 1980 Eruption of Mount St. HelensBakkegard, Kristin Ann 01 December 2008 (has links)
The genetics of colonization is understudied in salamanders but has large conservation implications as new habitats are formed or restored to their previous condition. The 1980 eruption of Mount St. Helens provided a natural experiment to study the genetic effects of a large infrequent environmental disturbance on two species of salamander, Taricha granulosa (Rough-skinned newt) and Ambystoma gracile (Northwestern salamander). Both these species breed in ponds, and are thought to exhibit high breeding site fidelity and low vagility. I designated three treatments based on the effects of the eruption: new ponds (created by the eruption, immigrants only), recovery lakes (in blast zone, survivors plus immigrants), and reference lakes (unaffected by eruption, assumed to represent pre-eruption genetic diversity measures). Salamanders took at least nine years to colonize the new ponds. I studied the population genetics of colonization and recovery using microsatellites and AFLPs (amplified fragment length polymorphisms) to measure genetic diversity, gene flow, and population substructure at Mount St. Helens National Volcanic Monument. Based on population genetics theory and the life history characteristics of these pond-breeding amphibians, I predicted that genetic diversity would be lower in newly colonized ponds compared to recovery or reference sites. I also expected significant levels of population substructuring. Finally, I predicted that because of their lower vagility and large number of neotenes, that A. gracile would have less gene flow and a greater degree of population substructuring than T. granulosa. My predictions were not supported by my data. There was no loss of genetic diversity in new or recovery populations in either species. There was no strong evidence for population substructure by either AMOVA, isolation by distance or principal components analysis. Gene flow (Fst) was high in both species. Taricha granulosa and A. gracile were found to be resistant to a large infrequent environmental disturbance. Loss of genetic variability in new populations cannot automatically be assumed. Predicting dispersal and colonization ability based on the broad category of pond-breeding amphibian is not always reliable.
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Presence and Function of Tetrodotoxin in Terrestrial Vertebrates and InvertebratesStokes, Amber N. 01 August 2013 (has links)
Tetrodotoxin (TTX) is a potent neurotoxin that acts by blocking the pore region of voltage-gated sodium channels in nerve and muscle tissue. This causes paralysis, and often death due to asphyxiation. Interestingly, TTX is found in an array of organisms ranging from bacterial species to vertebrates. Further, TTX is found in both aquatic and terrestrial environments. This range of taxa and environments has led to three common lines of study for ecological research on this toxin: production, predation, and identification of novel TTX bearing taxa. I began my research by also refining a Competitive Inhibition Enzymatic Immunoassay technique for fast, easy, and inexpensive quantification of TTX. I then focused on the three previously mentioned areas of research. Female newts (Taricha granulosa) are known to endow their eggs with TTX in order to protect them from predation. I looked at whether females allocated TTX to their eggs evenly over three years in captivity and compared those levels to TTX levels in eggs directly after capture. I found that eggs had lower levels of TTX following initial capture, but those levels did not change over the next three years. This provides evidence that TTX is endogenously produced in this species. Because of the high levels of TTX in newts, there are few known predators. I observed river otters feeding on newts in a high elevation lake in Oregon. I found that these newts have very low levels of TTX, and that in general high elevation populations in Oregon have low levels of TTX relative to low elevation populations. Finally, I documented TTX in two species of terrestrial flatworm (Bipalium adventitium and Bipalium kewense). Tetrodotoxin has never before been identified in a terrestrial invertebrate species. Further, I found evidence that suggests that TTX is used for both defense and prey capture in these worms. These studies add to our understanding of the evolution of TTX and how it influences interactions between organisms and their biotic and abiotic environments.
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