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1.
Sandra Wegert John Caprio 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1991,168(2):201-211
1. Receptor sites for different amino acids in the facial taste system of the channel catfish, Ictalurus punctatus, were determined from in vivo electrophysiological cross-adaptation experiments. 2. Relatively independent receptor sites were indicated for L-proline, D-proline, D-arginine, L-histidine and L-lysine, as well as those previously reported for L-alanine, L-arginine and D-alanine. 3. The functional isolation of two nerve twigs that were more responsive to D-alanine than to L-alanine or to other test stimuli provided further evidence for the existence of D-alanine sites that are independent from those to L-alanine. 4. Under all cross-adaptation regimes, the taste responses to the majority of test stimuli were reduced. Various possible mechanisms accounting for this generalized reduction in action potential activity during adaptation are discussed. 相似文献
2.
Weckström W. Järvilehto M. Kouvalainen E. Järvilehto P. 《European biophysics journal : EBJ》1985,12(3):173-179
Intracellular responses from blowfly photoreceptor cells were recorded at various temperatures in order to study the behaviour of the transduction system, with particular reference to spectral sensitivity. with decreased temperature the V-log I functions showed a reduction in amplitude and the responses showed a slowed time course. For double peaked spectral sensitivity function the UV or 350 nm peak was much less dependent on temperature than the peak in the visible region. The higher UV-sensitivity is interpreted in terms of the sensitizing pigment theory to indicate changes in the effectiveness of energy transfer between the two chromophores. 相似文献
3.
The effects of iontophoretically applied human pancreatic growth hormone-releasing factor (hpGRF), peptide histidine isoleucine (PHI-27), and somatostatin (SS) on the extracellular activity of single cells in the hypothalamus, thalamus, and cortex of the rat brain were studied in urethane-anesthetized, male rats. Neurons with membrane sensitivity to hpGRF, PHI-27, and SS were present in each brain region. Although neurons excited by these peptides were encountered in thalamus and hypothalamus, depression of neuronal firing was the predominant response observed. Overall, the neurons responding to hpGRF also possessed membrane sensitivity to PHI-27, whereas, the hpGRF sensitive neurons appeared to be more divided as to their ability to respond to SS. The results clearly demonstrate that hpGRF and PHI-27 are capable of affecting the membrane excitability of neurons in several brain regions. The distribution of neurons sensitive to hpGRF suggests that hypothalamic GRF, in addition to its well documented role in the regulation of pituitary growth hormone secretion, may subserve other physiological events in the rat central nervous system as a neurotransmitter and/or neuromodulator. 相似文献
4.
R. Krattenmacher Rosita Voigt W. Clauss 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1990,160(2):161-165
Summary Transepithelial electrogenic Na transport (INa) was investigated in the colon of the frog Xenopus laevis with electrophysiological methods in vitro. The short circuit current (Isc) of the voltage-clamped tissue was 24.2±1.8 A·cm-2 (n=10). About 60% of this current was generated by electrogenic Na transport. Removal of Ca2+ from the mucosal Ringer solution stimulated INa by about 120%. INa was not blockable by amiloride (0.1 mmol·l-1), a specific Na-channel blocker in epithelia, but a fully and reversible inhibition was achieved by mucosal application of 1 mmol·l-1 lanthanum (La3-). No Na-self-inhibition was found, because INa increased linearly with the mucosal Na concentration. A stimulation of INa by antidiuretic hormones was not possible. The analysis of fluctuations in the short circuit current (noise analysis) indicated that Na ions pass the apical cell membrane via a Ca-sensitive ion channel. The results clearly demonstrate that in the colon of Xenopus laevis Na ions are absorbed through Ca-sensitive apical ion channels. They differ considerably in their properties and regulation from the amiloride-sensitive Na channel which is typically found in the colon of vertebrates.Abbreviations
G
T
transepithelial conductance
-
I
sc
short circuit current
-
I
Na
transepithelial Na-current
-
m
mucosal
-
s
serosal
-
PDS
power density spectrum
-
f
frequency
-
f
c
corner frequency of the Lorentzian component of the PDS
-
S(f)
power density of the Lorentzian component of the PDS
- So
plateau value of the Lorentzian component of the PDS 相似文献
5.
Ion channels are found in most plant membranes. They catalyse the rapid passive uniport of particular ions with varying selectivity. Planar lipid-bilayer (PLB) techniques have been developed to study the electrical activities of single ion channels in well-defined lipid and aqueous environments. They greatly facilitate both the biophysical and biochemical characterisation of ion channels and complement both conventional impaling electrode and membrane-patch voltage-clamping (patch-clamping) electrophysiological techniques applied in vivo. Bilayers can be formed across the end of patch-clamp pipettes or across apertures in specifically designed chambers. Ion channels in native membranes and purified, genetically altered or synthetic ion channels, proteins and peptides can all be studied in PLBs. The main applications of PLBs are (1) to study ion channels in membranes inaccessible to patch-clamp electrodes, (2) to provide a functional assay system during channel-protein purification and (3) to investigate the relationship between the molecular structure of ion channels and their conductance properties. In the present article we describe the techniques available for reconstitution and analysis of ion channels in PLBs and discuss how the PLB technique has been, and may be, useful to the study of plant ion channels. 相似文献
6.
J. R. Riesgo-Escovar C. Woodard J. R. Carlson 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1994,175(6):687-693
We describe the kinetics of odorant response in the maxillary palp of Drosophila, and show that the rate of recovery from odorant stimulation is affected by mutation of the rdgB (retinal degeneration B) gene. We use immunocytochemistry to confirm that the rdgB gene product is expressed in the maxillary palp. rdgB has recently been shown to encode a protein with Ca2+-binding sites and sequence similarity to rat brain phosphatidylinositol transfer protein; it is located near the rhabdomeric membranes in photoreceptor cells, where it has been suggested to play a role in membrane transport. The delay in recovery kinetics that we observe in olfactory tissue may reflect a defect in membrane restoration at the conclusion of the olfactory transduction cascade. The use of common molecules in the physiology of two olfactory organs, and in both visual and olfactory physiology, is discussed.Abbreviations
EAG
electroantennogram
-
EPG
electropalpogram
-
ERG
electroretinogram
-
norpA
no receptor potential A
-
PBS
phosphate buffered saline
-
rdgB
retinal degeneration B
-
PI
phosphatidylinositol 相似文献
7.
K. Hager A. Hazama H. M. Kwon D. D. F. Loo J. S. Handler E. M. Wright 《The Journal of membrane biology》1995,143(2):103-113
The two-microelectrode voltage clamp technique was used to examine the kinetics and substrate specificity of the cloned renal Na+/myo-inositol cotransporter (SMIT) expressed in Xenopus oocytes. The steady-state myo-inositol-induced current was measured as a function of the applied membrane potential (V
m
), the external myo-inositol concentration and the external Na+ concentration, yielding the kinetic parameters: K
0.5
MI
, K
0.5
Na
, and the Hill coefficient n. At 100 mM NaCl, K
0.5
MI
was about 50 m and was independent of V
m
. At 0.5 mm
myo-inositol, K
0.5
Na
ranged from 76 mm at V
m
=–50 mV to 40 mm at V
m
=–150 mV. n was voltage independent with a value of 1.9±0.2, suggesting that two Na+ ions are transported per molecule of myo-inositol. Phlorizin was an inhibitor with a voltage-dependent apparent K
I
of 64 m at V
m
=–50 mV and 130 m at V
m
= –150 mV. To examine sugar specificity, sugar-induced steady-state currents (at V
m
=–150 mV) were recorded for a series of sugars, each at an external concentration of 50 mm. The substrate selectivity series was myo-inositol, scyllo-inositol > l-fucose > l-xylose > l-glucose, d-glucose, -methyl-d-glucopyranoside > d-galactose, d-fucose, 3-O-methyl-d-glucose, 2-deoxy-d-glucose > d-xylose. For comparison, oocytes were injected with cRNA for the rabbit intestinal Na+/glucose cotransporter (SGLT1) and sugar-induced steady-state currents (at V
m
=–150 mV) were measured. For oocytes expressing SGLT1, the sugar selectivity was: d-glucose, -methyl-d-glucopyranoside, d-galactose, d-fucose, 3-O-methyl-d-glucose > d-xylose, l-xylose, 2-deoxy-d-glucose > myo-inositol, l-glucose, l-fucose. The ability of SMIT to transport glucose and SGLT1 to transport myo-inositol was independently confirmed by monitoring the Na+-dependent uptake of 3H-d-glucose and 3H-myo-inositol, respectively. In common with SGLT1, SMIT gave a relaxation current in the presence of 100 mm Na+ that was abolished by phlorizin (0.5 mm). This transient current decayed with a voltage-sensitive time constant between 10 and 14 msec. The presteady-state current is apparently due to the reorientation of the cotransporter protein in the membrane in response to a change in V
m
. The kinetics of SMIT is accounted for by an ordered six-state nonrapid equilibrium model.
Present address: W.M. Keck Biotechnology Resource Laboratory, Boyer Center for Molecular Medicine, Rm, 305A, Yale University, 295 Congress Ave., New Haven, Connecticut 06536-0812
Present address: National Institute for Physiological Sciences, Department of Cell Physiology, Okazaka, 444, JapanContributed equally to this workWe thank John Welborn for the HPLC analysis of the sugar substrates. This work was supported by grants from the National Institutes of Health DK19567, DK42479 and NS25554. 相似文献
8.
K.D. Clark T.M. Hennessey D.L. Nelson R.R. Preston 《The Journal of membrane biology》1997,157(2):159-167
Paramecium tetraurelia responds to extracellular GTP (≥ 10 nm) with repeated episodes of prolonged backward swimming. These backward swimming events cause repulsion from the stimulus
and are the behavioral consequence of an oscillating membrane depolarization. Ion substitution experiments showed that either
Mg2+ or Na+ could support these responses in wild-type cells, with increasing concentrations of either cation increasing the extent of
backward swimming. Applying GTP to cells under voltage clamp elicited oscillating inward currents with a periodicity similar
to that of the membrane-potential and behavioral responses. These currents were also Mg2+- and Na+-dependent, suggesting that GTP acts through Mg2+-specific (I
Mg) and Na+-specific (I
Na) conductances that have been described previously in Paramecium. This suggestion is strengthened by the finding that Mg2+ failed to support normal behavioral or electrophysiological responses to GTP in a mutant that specifically lacks I
Mg (``eccentric'), while Na+ failed to support GTP responses in ``fast-2,' a mutant that specifically lacks I
Na. Both mutants responded normally to GTP if the alternative cation was provided. As I
Mg and I
Na are both Ca2+-dependent currents, the characteristic GTP behavior could result from oscillations in intracellular Ca2+ concentration. Indeed, applying GTP to cells in the absence of either Mg2+ or Na+ revealed a minor inward current with a periodicity similar to that of the depolarizations. This current persisted when known
voltage-dependent Ca2+ currents were blocked pharmacologically or genetically, which implies that it may represent the activation of a novel purinergic-receptor–coupled
Ca2+ conductance.
Received: 28 October 1996/Revised: 24 December 1996 相似文献
9.
J.-P. Bénitah J.R. Balser E. Marban G.F. Tomaselli 《The Journal of membrane biology》1997,155(2):121-131
Extracellular acidosis affects both permeation and gating of the expressed rat skeletal muscle Na+ channel (μ1). Reduction of the extracellular pH produced a progressive decrease in the maximal whole-cell conductance and
a depolarizing shift in the whole-cell current-voltage relationship. A smaller depolarizing shift in the steady-state inactivation
curve was observed. The pK of the reduction of maximal conductance was 6.1 over the pH range studied. An upper limit estimate
of the pK of the shift of the half-activation voltage was 6.1. The relative reduction in the maximal whole-cell conductance
did not change with higher [Na+]
o
. The conductance of single fenvalerate-modified Na+ channels was reduced by extracellular protons. Although the single-channel conductance increased with higher [Na+]
o
, the maximal conductances at pH 7.6, 7.0 and 6.0 did not converge at [Na+]
o
up to 280 mm, inconsistent with a simple electrostatic effect. A model incorporating both Na+ and H+ binding in the pore and cation binding to a Gouy-Chapman surface charge provided a robust fit to the single-channel conductance
data with an estimated surface charge density of 1e−/439?2. Neither surface charge nor proton block alone suffices to explain the effects of extracellular acidosis on Na+ channel permeation; both effects play major roles in mediating the response to extracellular pH.
Received: 14 May 1996/Revised: 19 September 1996 相似文献
10.
The gating and conduction properties of a channel activated by intracellular Na+ were studied by recording unitary currents in inside-out patches excised from lobster olfactory receptor neurons. Channel
openings to a single conductance level of 104 pS occurred in bursts. The open probability of the channel increased with increasing
concentrations of Na+. At 210 mm Na+, membrane depolarization increased the open probability e-fold per 36.6 mV. The distribution of channel open times could
be fit by a single exponential with a time constant of 4.09 msec at −60 mV and 90 mm Na+. The open time constant was not affected by the concentration of Na+, but was increased by membrane depolarization. At 180 mm Na+ and −60 mV, the distribution of channel closed times could be fit by the sum of four exponentials with time constants of
0.20, 1.46, 8.92 and 69.9 msec, respectively. The three longer time constants decreased, while the shortest time constant
did not vary with the concentration of Na+. Membrane depolarization decreased all four closed time constants. Burst duration was unaffected by the concentration of
Na+, but was increased by membrane depolarization. Permeability for monovalent cations relative to that of Na+ (P
X
/P
Na
), calculated from the reversal potential, was: Li+ (1.11) > Na+ (1.0) > K+ (0.54) > Rb+ (0.36) > Cs+ (0.20). Extracellular divalent cations (10 mm) blocked the inward Na+ current at −60 mV according to the following sequence: Mn2+ > Ca2+ > Sr2+ > Mg2+ > Ba2+. Relative permeabilities for divalent cations (P
Y
/P
Na
) were Ca2+ (39.0) > Mg2+ (34.1) > Mn2+ (15.5) > Ba2+ (13.8) > Na+ (1.0). Both the reversal potential and the conductance determined in divalent cation-free mixtures of Na+ and Cs+ or Li+ were monotonic functions of the mole fraction, suggesting that the channel is a single-ion pore that behaves as a multi-ion
pore when the current is carried exclusively by divalent cations. The properties of the channel are consistent with the channel
playing a role in odor activation of these primary receptor neurons.
Received: 17 September 1996/Revised: 15 November 1996 相似文献