Showing 1261 - 1270 of 2039 Items
Erratum: Measurement of the Tau lepton electronic branching fraction (Physical Review Letters (1993) 71, 20, (3395-3396))
Date: 1993-12-01
Creator: D. S. Akerib
B. Barish
M. Chadha
D. F. Cowen
G., Eigen
J. S. Miller
J. Urheim
A. J. Weinstein
D. Acosta
G. Masek
B. Ong
H. Paar
M. Sivertz
A. Bean
J. Gronberg
R. Kutschke
S. Menary
R. J. Morrison
H. N. Nelson
J. D. Richman
H. Tajima
D. Schmidt
D. Sperka
M. S. Witherell
M. Procario
S. Yang
M. Daoudi
W. T. Ford
D. R. Johnson
K. Lingel
M. Lohner
Access: Open access
Similarities and differences in circuit responses to applied Gly 1 -SIFamide and peptidergic (Gly 1 -SIFamide) neuron stimulation
Date: 2019-03-01
Creator: Dawn M. Blitz
Andrew E. Christie
Aaron P. Cook
Patsy S. Dickinson
Michael P., Nusbaum
Access: Open access
- Similarities and differences in circuit responses to applied Gly 1 -SIFamide and peptidergic (Gly 1 -SIFamide) neuron stimulation. J Neurophysiol 121: 950 –972, 2019. First published January 16, 2019; doi:10.1152/jn.00567.2018.—Microcircuit modulation by peptides is well established, but the cellular/synaptic mechanisms whereby identified neurons with identified peptide transmitters modulate microcircuits remain unknown for most systems. Here, we describe the distribution of GYRKPPFNGSIFamide (Gly 1 -SIFamide) immunoreactivity (Gly 1 -SIFamide-IR) in the stomatogastric nervous system (STNS) of the crab Cancer borealis and the Gly 1 -SIFamide actions on the two feeding-related circuits in the stomatogastric ganglion (STG). Gly 1 -SIFamide-IR localized to somata in the paired commissural ganglia (CoGs), two axons in the nerves connecting each CoG with the STG, and the CoG and STG neuropil. We identified one Gly 1 -SIFamide-IR projection neuron innervating the STG as the previously identified modulatory commissural neuron 5 (MCN5). Brief (~10 s) MCN5 stimulation excites some pyloric circuit neurons. We now find that bath applying Gly 1 -SIFamide to the isolated STG also enhanced pyloric rhythm activity and activated an imperfectly coordinated gastric mill rhythm that included unusually prolonged bursts in two circuit neurons [inferior cardiac (IC), lateral posterior gastric (LPG)]. Furthermore, longer duration (±30 s) MCN5 stimulation activated a Gly 1 -SIFamide-like gastric mill rhythm, including prolonged IC and LPG bursting. The prolonged LPG bursting decreased the coincidence of its activity with neurons to which it is electrically coupled. We also identified local circuit feedback onto the MCN5 axon terminals, which may contribute to some distinctions between the responses to MCN5 stimulation and Gly 1 -SIFamide application. Thus, MCN5 adds to the few identified projection neurons that modulate a well-defined circuit at least partly via an identified neuropeptide transmitter and provides an opportunity to study peptide regulation of electrical coupled neurons in a functional context. NEW & NOTEWORTHY Limited insight exists regarding how identified peptidergic neurons modulate microcircuits. We show that the modulatory projection neuron modulatory commissural neuron 5 (MCN5) is peptidergic, containing Gly 1 -SIFamide. MCN5 and Gly 1 -SIFamide elicit similar output from two well-defined motor circuits. Their distinct actions may result partly from circuit feedback onto the MCN5 axon terminals. Their similar actions include eliciting divergent activity patterns in normally coactive, electrically coupled neurons, providing an opportunity to examine peptide modulation of electrically coupled neurons in a functional context.
AMGSEFLamide, a member of a broadly conserved peptide family, modulates multiple neural networks in Homarus americanus
Date: 2019-01-01
Creator: Patsy S. Dickinson
Evyn S. Dickinson
Emily R. Oleisky
Cindy D. Rivera
Meredith E., Stanhope
Elizabeth A. Stemmler
J. Joe Hull
Andrew E. Christie
Access: Open access
- Recent genomic/transcriptomic studies have identified a novel peptide family whose members share the carboxyl terminal sequence –GSEFLamide. However, the presence/identity of the predicted isoforms of this peptide group have yet to be confirmed biochemically, and no physiological function has yet been ascribed to any member of this peptide family. To determine the extent to which GSEFLamides are conserved within the Arthropoda, we searched publicly accessible databases for genomic/transcriptomic evidence of their presence. GSEFLamides appear to be highly conserved within the Arthropoda, with the possible exception of the Insecta, in which sequence evidence was limited to the more basal orders. One crustacean in which GSEFLamides have been predicted using transcriptomics is the lobster, Homarus americanus. Expression of the previously published transcriptome-derived sequences was confirmed by reverse transcription (RT)-PCR of brain and eyestalk ganglia cDNAs; mass spectral analyses confirmed the presence of all six of the predicted GSEFLamide isoforms – IGSEFLamide, MGSEFLamide, AMGSEFLamide, VMGSEFLamide, ALGSEFLamide and AVGSEFLamide – in H. americanus brain extracts. AMGSEFLamide, of which there are multiple copies in the cloned transcripts, was the most abundant isoform detected in the brain. Because the GSEFLamides are present in the lobster nervous system, we hypothesized that they might function as neuromodulators, as is common for neuropeptides. We thus asked whether AMGSEFLamide modulates the rhythmic outputs of the cardiac ganglion and the stomatogastric ganglion. Physiological recordings showed that AMGSEFLamide potently modulates the motor patterns produced by both ganglia, suggesting that the GSEFLamides may serve as important and conserved modulators of rhythmic motor activity in arthropods.
Characterization of the mature form of a β-defensin-like peptide, Hoa-D1, in the lobster Homarus americanus
Date: 2018-09-01
Creator: Giap H. Vu
Daniel Do
Cindy D. Rivera
Patsy S. Dickinson
Andrew E., Christie
Elizabeth A. Stemmler
Access: Open access
- We report on the characterization of the native form of an American lobster, Homarus americanus, β-defensin-like putative antimicrobial peptide, H. americanus defensin 1 (Hoa-D1), sequenced employing top-down and bottom-up peptidomic strategies using a sensitive, chip-based nanoLC-QTOF-MS/MS instrument. The sequence of Hoa-D1 was determined by mass spectrometry; it was found to contain three disulfide bonds and an amidated C-terminus. The sequence was further validated by searching publicly-accessible H. americanus expressed sequence tag (EST) and transcriptome shotgun assembly (TSA) datasets. Hoa-D1, SYVRScSSNGGDcVYRcYGNIINGAcSGSRVccRSGGGYamide (with c representing a cysteine participating in a disulfide bond), was shown to be related to β-defensin-like peptides previously reported from Panulirus japonicas and Panulirus argus. We found Hoa-D1 in H. americanus hemolymph, hemocytes, the supraoesophageal ganglion (brain), eyestalk ganglia, and pericardial organ extracts, as well as in the plasma of some hemolymph samples. Using discontinuous density gradient separations, we fractionatated hemocytes and localized Hoa-D1 to hemocyte sub-populations. While Hoa-D1 was detected in semigranulocytes and granulocytes using conventional proteomic strategies for analysis, the direct analysis of cell lysates exposed evidence of Hoa-D1 processing, including truncation of the C-terminal tyrosine residue, in the granulocytes, but not semigranulocytes. These measurements demonstrate the insights regarding post-translational modifications and peptide processing that can be revealed through the MS analysis of intact peptides. The identification of Hoa-D1 as a widely-distributed peptide in the lobster suggests the possibility that it may be pleiotropic, with functions in addition to its proposed role as an antimicrobial molecule in the innate immune system.
Comparison between the fCCZ4 and BSSN formulations of Einstein equations in spherical polar coordinates
Date: 2015-01-01
Creator: N. Sanchis-Gual
P.J. Montero
J.A. Font
E. Müller
T.W., Baumgarte
Access: Open access
Pheromones enhance somatosensory processing in newt brains through a vasotocin-dependent mechanism
Date: 2008-07-22
Creator: R. R. Thompson
P. S. Dickinson
J. D. Rose
K. A. Dakin
G. M., Civiello
A. Segerdahl
R. Bartlett
Access: Open access
- We tested whether the sex pheromones that stimulate courtship clasping in male roughskin newts do so, at least in part, by amplifying the somatosensory signals that directly trigger the motor pattern associated with clasping and, if so, whether that amplification is dependent on endogenous vasotocin (VT). Female olfactory stimuli increased the number of action potentials recorded in the medulla of males in response to tactile stimulation of the cloaca, which triggers the clasp motor reflex, as well as to tactile stimulation of the snout and hindlimb. That enhancement was blocked by exposing the medulla to a V1a receptor antagonist before pheromone exposure. However, the antagonist did not affect medullary responses to tactile stimuli in the absence of pheromone exposure, suggesting that pheromones amplify somatosensory signals by inducing endogenous VT release. The ability of VT to couple sensory systems together in response to social stimulation could allow this peptide to induce variable behavioural outcomes, depending on the immediate context of the social interaction and thus on the nature of the associated stimuli that are amplified. If widespread in vertebrates, this mechanism could account for some of the behavioural variability associated with this and related peptides both within and across species. © 2008 The Royal Society.
Collapse of a magnetized star to a black hole
Date: 2003-01-01
Creator: T.W. Baumgarte
S.L. Shapiro
Access: Open access
Long-term maintenance of channel distribution in a central pattern generator neuron by neuromodulatory inputs revealed by decentralization in organ culture
Date: 2001-09-15
Creator: Adi Mizrahi
Patsy S. Dickinson
Peter Kloppenburg
Valerie Fénelon
Deborah J., Baro
Ronald M. Harris-Warrick
Pierre Meyrand
John Simmers
Access: Open access
- Organotypic cultures of the lobster (Homarus gammarus) stomatogastric nervous system (STNS) were used to assess changes in membrane properties of neurons of the pyloric motor pattern-generating network in the long-term absence of neuromodulatory inputs to the stomatogastric ganglion (STG). Specifically, we investigated decentralization-induced changes in the distribution and density of the transient outward current, IA, which is encoded within the STG by the shal gene and plays an important role in shaping rhythmic bursting of pyloric neurons. Using an antibody against lobster shal K+ channels, we found shal immunoreactivity in the membranes of neuritic processes, but not somata, of STG neurons in 5 d cultured STNS with intact modulatory inputs. However, in 5 d decentralized STG, shal immunoreactivity was still seen in primary neurites but was likewise present in a subset of STG somata. Among the neurons displaying this altered shal localization was the pyloric dilator (PD) neuron, which remained rhythmically active in 5 d decentralized STG. Two-electrode voltage clamp was used to compare IA in synaptically isolated PD neurons in long-term decentralized STG and nondecentralized controls. Although the voltage dependence and kinetics of IA changed little with decentralization, the maximal conductance of IA in PD neurons increased by 43.4%. This increase was consistent with the decentralization-induced increase in shal protein expression, indicating an alteration in the density and distribution of functional A-channels. Our results suggest that, in addition to the short-term regulation of network function, modulatory inputs may also play a role, either directly or indirectly, in controlling channel number and distribution, thereby maintaining the biophysical character of neuronal targets on a long-term basis.
Characterization of plexinA and two distinct semaphorin1a transcripts in the developing and adult cricket Gryllus bimaculatus
Date: 2020-03-01
Creator: Hadley W. Horch
Sara B. Spicer
Isabel I.C. Low
Colby T. Joncas
Eleanor D., Quenzer
Hikmah Okoya
Lisa M. Ledwidge
Harrison P. Fisher
Access: Open access
- Guidance cues act during development to guide growth cones to their proper targets in both the central and peripheral nervous systems. Experiments in many species indicate that guidance molecules also play important roles after development, though less is understood about their functions in the adult. The Semaphorin family of guidance cues, signaling through Plexin receptors, influences the development of both axons and dendrites in invertebrates. Semaphorin functions have been extensively explored in Drosophila melanogaster and some other Dipteran species, but little is known about their function in hemimetabolous insects. Here, we characterize sema1a and plexA in the cricket Gryllus bimaculatus. In fact, we found two distinct predicted Sema1a proteins in this species, Sema1a.1 and Sema1a.2, which shared only 48% identity at the amino acid level. We include a phylogenetic analysis that predicted that many other insect species, both holometabolous and hemimetabolous, express two Sema1a proteins as well. Finally, we used in situ hybridization to show that sema1a.1 and sema1a.2 expression patterns were spatially distinct in the embryo, and both roughly overlap with plexA. All three transcripts were also expressed in the adult brain, mainly in the mushroom bodies, though sema1a.2 was expressed most robustly. sema1a.2 was also expressed strongly in the adult thoracic ganglia while sema1a.1 was only weakly expressed and plexA was undetectable.
Entanglement sharing among quantum particles with more than two orthogonal states
Date: 2002-01-01
Creator: Kenneth A. Dennison
William K. Wootters
Access: Open access
- The entanglement sharing among quantum particles was discussed in a system consisting of n d-dimensional quantum particles. The entanglement between each pair was attempted to get optimized. A three particles system was also considered and results showed that the particles shared a greater fraction of their entanglement capacity as the dimension d increased.