共查询到20条相似文献,搜索用时 15 毫秒
1.
Y. Sugawara 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1989,164(5):589-596
| 1. | The electrogenic Na-K pump activity was studied in thePlotosus electroreceptor. Single ampullae (sensory epithelium) were dissected free, and mounted over an air gap at the ampullary duct, to electrically isolate the receptor activity for current- and voltage-clamp experiments. |
| 2. | After equilibration in K-free saline, the bathing medium around the ampulla was exchanged to test saline. Under current-clamp, 4 mM K saline induced reversible hyperpolarization of about 13 mV. Under voltage-clamp, the 4 mM saline induced an outward current of about 10 nA. |
| 3. | Both responses were suppressed by ouabain, with a half suppression at 1.5×10–7 M for current, which suggested involvement of ionic pumps. In the K-free saline, ouabain alone induced no response. |
| 4. | The current response to high K saline was always outward, and was dependent on K concentration. In the presence of ouabain, high K saline as high as 40 mM, ten times the standard K, induced no inward current, which suggested little contribution of K conductance to the responses. |
| 5. | The outward current responses were induced, also dose-dependently, by various alkali metal cations. The apparent dissociation constants were 6.8, 1.2, 21.7, and 85.1 mM for K, Rb, Cs, and Li, suggesting their potency in the order of Rb>K> Cs>Li. |
| 6. | Thus, the hyperpolarization and outward current responses were due to an electrogenic NaK pump in the basal face of the sensory epithelium. The Na-K pump seems to be responsible, to a certain extent, for maintenance of the negative DC potential in the standard 4 mM K saline, which supplies an outward current to bias the sensory epithelium in situ. |
2.
John C. Montgomery John A. Macdonald Gary D. Housley 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1988,163(6):827-833
| 1. | Non-visual sensory systems are likely to be important in antarctic fish since these fish inhabit an area where low light levels occur for long periods. This study was undertaken to examine the suitability of the lateral line system for prey detection. |
| 2. | Recordings were made from afferent fibres of the anterior lateral line in the antarctic fishPagothenia borchgrevinki. |
| 3. | A vibrating probe was used to stimulate the lateral line at a range of frequencies between 10 and 100 Hz. |
| 4. | Most units responded best at a stimulus frequency of 40 Hz. Below the best frequency the response typically declined steeply and at higher frequencies it was usually better sustained. |
| 5. | Crustacea identified as major components of the diet ofPagothenia borchgrevinki were individually attached to a force transducer to determine the vibrations produced by swimming movements. |
| 6. | The Fourier amplitude spectra of swimming crustaceans exhibited prominent low frequency peaks at 3–6 Hz and higher frequency peaks in the 30–40 Hz range. |
| 7. | It is concluded that the overlap in the frequency response characteristics of the anterior lateral line and the frequencies produced by crustacean prey clearly establishes the suitability of the lateral line for prey detection. |
| 8. | In several instances recordings were made from fish primary afferent neurons responding to a swimming amphipod. These recordings confirm that crustacean swimming is indeed a potent natural stimulus of the lateral line system. |
3.
Paul Dureus Dahla Louis Anthony V. Grant Thomas V. Bilfinger George B. Stefano 《Cellular and molecular neurobiology》1993,13(5):541-546
| 1. | In a concentration-dependent manner neuropeptide Y was found to be a potent inhibitor of the spontaneous activation of human granulocytes and macrophages as well asMytilus edulis immunocytes. |
| 2. | Neuropeptide Y also inhibited the chemotaxic response of these immunocytes to the chemoattractant f-MLP. |
| 3. | Incubation of both the human and the invertebrate immunocytes in f-MLP (10–9 M) causes activation as noted by random locomotion (chemokinesis). Neuropeptide Y also blocked f-MLP-induced chemokinesis. |
| 4. | The results suggest that neuropeptide Y may, in addition to other functions, serve as an endogenous regulator of immunocyte function. |
4.
Rainer Voigt Jelle Atema 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1992,171(5):673-683
| 1. | We determined the spectral tuning properties of 47 chemoreceptor cells of the antenna of Homarus americanus to amino acids and other compounds. Tests with 17 single compounds at 10-4 M showed 40 of 47 cells responded best to hydroxyproline, 4 cells to taurine and 3 cells to betaine. Mean tuning breadth (H-metric) doubled with 10 fold increase in concentration. |
| 2. | In hydroxyproline-best cells the mean threshold for hydroxyproline (Hyp) was found between 10-7 M and 10-8 M. An equimolar mixture of the 17 compounds generated a shallower stimulus-response function with thresholds similar to Hyp function (mixture suppression). Hyp-best cells were relatively narrowly tuned, often with arginine or leucine as second best stimuli. |
| 3. | Thus, physiologically the second antenna of H. americanus is a major chemoreceptor organ. It is more than any of the 5 chemoreceptor organs studied so far dominated by a single best-cell type (Hyp). Receptor cell composition of antennae resembles that of antennules more than legs or maxillipeds. Hyp-best cells in antennae and lateral antennules have similar tuning spectra. |
| 4. | Our cell tuning studies argue for independent receptors for all amino acids tested. We conclude that diversity of receptor cell tuning is created by cell-specific blends of receptors. At the organ level, differences in organ tuning result from different blends of receptor cells. |
5.
J. Pernberg H. Machemer 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1989,164(4):551-562
| 1. | Properties of the membrane currents ofDidinium nasutum have been investigated under voltage clamp in different solutions and after deciliation. |
| 2. | Theearly transient Ca2+ inward current activates in a voltage-dependent manner. Inactivation is both Ca2+ -dependent and voltage-dependent. |
| 3. | Alate Ca2+ current rises with time to peak > 50 ms and decays in the order of seconds. |
| 4. | Activation and inactivation of the late Ca2+ current is voltage-dependent. |
| 5. | The delayed outward current is activated by voltage. The kinetics of this K+ current, but not its amplitude, are enhanced in the presence of intracellular EGTA. |
| 6. | The two voltage-dependent Ca2+ channels are located in the cilia, whereas all K+ channels are restricted to the somatic membrane. |
6.
Yasuo Nakaoka Hans Machemer 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1990,166(3):401-406
| 1. | Coupling mechanisms between ciliary beating and the membrane potential in Paramecium were investigated under voltage clamp applying intracellular pressure injection of cAMP, cGMP and Ca-EGTA buffer. Ciliary responses following step changes in membrane potential were recorded by high-speed video on magnetic tape. |
| 2. | Injections of cAMP and cGMP up to millimolar concentrations caused no detectable changes in the frequency voltage relationship. A minor effect was that the ciliary reorientation towards the anterior cell end (reversal) tended to be inhibited with depolarization up to 10 mV. |
| 3. | Injection of Ca2+ into the cell clamped at the resting potential caused a transient anteriad ciliary reorientation and a simultaneous increase in the beating frequency. |
| 4. | Injection of EGTA (to buffer Ca2+ below 10–8 M) was ineffective in relation to frequency for several minutes. After this time, hyperpolarization- and depolarization activated frequency responses of EGTA-injected cells were increasingly inhibited. The ciliary reorientation following depolarization was not affected by EGTA. |
| 5. | A posterior contraction of the cell diameter was noticed upon membrane hyperpolarization. The contraction coincided in time with the increase in beating frequency. |
| 6. | The results support the view that the voltage-dependent augmentation of the ciliary beating rate is not directly mediated by an intracellular increase in either cAMP or cGMP. |
| 7. | The role of Ca2+ as intracellular messenger in the ciliary and somatic compartments is discussed. |
7.
W. C. Michel L. M. Lubomudrov 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1995,177(2):191-199
| 1. | The specificity and sensitivity of the olfactory organ of adult zebrafish, Danio rerio, to selected amino acid, bile acid, and steroid odorants were characterized using the electro-olfactogram recording technique. The olfactory organ was responsive to 28 of the 29 odorants tested. |
| 2. | All of the 100 M amino acid and bile acid stimulants elicited a negative-going response that was significantly greater than the response to the artificial freshwater control. The general pattern of relative stimulatory effectiveness established for the amino acid stimuli was neutral amino acids > basic amino acids > acidic amino acids > imino acids. The general pattern of relative stimulatory effectiveness of 100 M bile acid stimuli was taurine-conjugated bile acids > glycineconjugated bile acids non-conjugated bile acids. The responses to the most stimulatory bile acid odorants were up to 40% larger than the responses to the most stimulatory amino acid odorants. |
| 3. | The response threshold for cysteine and taurocholic acid, the most stimulatory of the amino acid and bile acid stimuli tested, was approximately 10-8 M. Females are significantly more sensitive to these odorants than males. |
8.
Vesna A. Eterović Richard M. Hann P. A. Ferchmin Abimael D. Rodriguez Lian Li Yung-Hui Lee Mark G. McNamee 《Cellular and molecular neurobiology》1993,13(2):99-110
| 1. | Three cyclic diterpenoids isolated from gorgonians of theEunicea genus and characterized as eupalmerin acetate (EUAC), 12,13-bisepieupalmerin (BEEP), and eunicin (EUNI) were found to be pharmacologically active on the nicotinic acetylcholine receptor (AChR). |
| 2. | The receptor from the BC3H-1 muscle cell line was expressed inXenopus laevis oocytes and studied with a two-electrode voltage clamp apparatus. |
| 3. | All three compounds reversibly inhibited ACh-induced currents, with IC50's from 6 to 35µM. ACh dose-response curves suggested that his inhibition was noncompetitive. The cembranoids also increased the rate of receptor desensitization. |
| 4. | Radioligand-binding studies using AChR-rich membranes fromTorpedo electric organ indicated that all three cembranoids inhibited high-affinity [3H]phencyclidine binding, with IC50's of 0.8, 11.6, and 63.8µM for EUNI, EUAC, and BEEP, respectively. The cembranoids at a 100µM concentration did not inhibit [-125I]bungarotoxin binding to either membrane-bound or solubilized AChR. |
| 5. | It is concluded that these compounds act as noncompetitive inhibitors of peripheral AChR. |
9.
Makoto Kurokawa Kiyoaki Kuwasawa 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1988,162(4):533-541
| 1. | The excitatory and inhibitory influences on the gill ofAplysia Juliana, which are mediated by the branchial nerve, were studied by means of electrophysiological techniques. Excitatory and inhibitory pathways in the nerve were stimulated simultaneously or selectively. |
| 2. | The branchial nerve was found to contain both excitatory and inhibitory pathways which did not contain synapses in the branchial ganglion. The excitatory pathways caused longitudinal shortening of the gill along the efferent branchial vessel and the inhibitory pathways were modulatory, depressing the longitudinal shortening. |
| 3. | Branchial nerve stimulation elicited two types of excitatory junctional potential (EJP), which were not mediated by the branchial ganglion, in a muscle cell of the efferent branchial vessel. One type was attributed to the central motor neuron and the other type to a motor neuron which is probably situated in the neural plexus of the gill periphery. |
| 4. | Four inhibitory pathways from the central nervous system to the gill were found. |
| 5. | Inhibitory junctional potentials (IJPs) recorded from muscle cells of the efferent branchial vessel in response to branchial nerve stimulation did not have monosynaptic characteristics. It is thought that inhibitory motor neurons which were activated by the branchial nerve might exist at the neural plexus of the gill. |
| 6. | A single EJP which has been induced by a stimulus pulse applied to the excitatory pathway of the branchial nerve may be depressed in an all-or-none manner by a stimulus pulse applied to the inhibitory pathway, if this is done within a distinct short period prior to or after the stimulus inducing the EJP. This indicates that the central motor neuron receives presynaptic inhibition at its periphery. |
| 7. | The motor neurons of the neural plexus seem to receive inhibitory innervation. Suppression of endogenous EJPs in the efferent vessel persisted for a long period even after cessation of stimulation. |
| 8. | A certain branchioganglionic neuron (BGN) was found to receive inhibitory postsynaptic potential (IPSP) inputs from the branchial nerve. |
| 9. | The multimodality of both the excitatory and the inhibitory pathways in the branchial nerve may explain the compound neural modulations of gill movements. |
10.
| 1. | The effects of three barbiturates and the local anesthetic procaine on the ion channel function of mouse nicotinic acetylcholine receptor (nAChR) muscle subtype expressed inXenopus laevis oocytes were examined by whole-cell voltage-clamp technique. |
| 2. | A concentration-response curve for the specific nicotinic agonist dimethylphenylpiperazinium iodide (DMPP) was first determined. This agonist produced increasing whole-cell currents up to a concentration of 100µM (EC50 = 13µM), then decreased responses at higher concentrations. |
| 3. | The barbiturates (amobarbital, secobarbital, pentobarbital) and procaine produced reversible inhibition of DMPP-induced currents at clinically used concentrations. The two classes of drugs differed in the voltage dependence of the inhibition: procaine-induced inhibition was increased at more negative transmembrane holding potentials (-90 vs. -45 mV); whereas amobarbital-induced inhibition did not vary at different transmembrane potentials. |
| 4. | Mutant forms of the nAChR, containing single amino acid changes in the M2 regions of and subunits, showed increased sensitivity to procaine but no change in sensitivity to amobarbital-induced inhibition. |
| 5. | These electrophysiologic studies provide further evidence that barbiturates and local anesthetics produce inhibition of the nAChR at different sites. |
11.
M. Laska R. Hudson 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1993,173(2):249-256
In a task designed to simulate olfactory-guided foraging, the ability of squirrel monkeys to discriminate an artificial 12-component odorant from 3-, 6-, 9- or 11- component submixtures was investigated. A combination of factors was found to contribute to the animals' performance:
相似文献
| 1. | Discriminability generally decreased as the number of components in the submixture increased. |
| 2 | Submixtures did not contribute equally to mixture perception, and one component in particular (cineole) disproportionately influenced stimulus discriminability. |
| 3. | Interactive effects between submixtures resulted in marked deviations from the general pattern of discriminability. |
| 4. | Changes in the relative concentration of submixtures could also influence discriminability. |
| 5. | Finally, individual differences in responsiveness to particular stimuli were apparent. |
12.
Paola F. Borroni Jelle Atema 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1988,164(1):67-74
| 1. | The self-adapting effects of chemical backgrounds on the response of primary chemoreceptor cells to superimposed stimuli were studied using lobster (Homarus americanus) NH4 receptor cells. |
| 2. | These receptors responded for several seconds to the onset of the backgrounds, and then returned to their initial level of spontaneous activity (usually zero). The strongest response always occurred only during the steepest concentration change; the response then decayed back to zero or to the earlier spontaneous firing level, while the background concentration was still rising, and remained silent during the entire time that the background was maintained constant (20–30 min) (Fig. 2). |
| 3. | Exposure to constant self-adapting backgrounds eliminated the responses of NH4 receptor cells to stimuli of concentration lower than the background, and reduced the responses to all higher stimulus concentrations tested by a nearly equal amount. This resulted in a parallel shift of the stimulus-response function to the right along the abscissa (Figs. 3 and 4). |
| 4. | Since the response threshold was completely re-set by adaptation to backgrounds, NH4 receptors seem to function mostly as detectors of relative rather than absolute stimulus intensity across their entire dynamic range: the response to a given stimulus-to-background ratio remained the same over 3 log step increases of background concentration (Fig. 6). |
| 5. | As in other sensory modalities, a parallel shift of response functions appears to be an important property of chemoreceptor cells, allowing for this sensory system to function over a wider stimulus intensity range than the instantaneous dynamic range of individual receptor cells. |
13.
Morten Buhl Jørgensen Barbara Schmitz Jakob Christensen-Dalsgaard 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1991,168(2):223-232
| 1. | We used laser vibrometry and free field sound stimulation to study the frequency responses of the eardrum and the lateral body wall of awake male Eleutherodactylus coqui. |
| 2. | The eardrum snowed one of two distinct frequency responses depending on whether the glottis was open (GO response) or closed (GC response) during the measurement. |
| 3. | The lateral body wall vibrated with a maximum amplitude close to that of the eardrum and in the same frequency range. |
| 4. | Covering the frog's body wall with vaseline reduced the vibration amplitude of the GC response by up to 15 dB. |
| 5. | When a closed sound delivery system was used to stimulate a local area of the body wall the eardrum also showed one of two types of responses. |
| 6. | These results suggest that sound is transmitted via the lung cavity to the internal surface of the eardrum. This lung input has a significant influence on the vibrations of the eardrum even when the glottis is closed. |
| 7. | The vibration amplitude of the eardrum changed with the angle of sound incidence. The directionality was most pronounced in a narrow frequency range between the two main frequencies of the conspecific advertisement call. |
14.
Heiner Römer 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1976,109(1):101-122
| 1. | The reactions of tympanic nerve fibers ofLocusta migratoria were recorded by glass microelectrodes in the metathoracic ganglion. |
| 2. | The units were classified by frequency-, intensity-, and directional characteristics as well as by their response pattern. The response to speciesspecific song is compared with the response to song ofEphippiger ephippiger. |
| 3. | The physiological properties lead to a classification into three types of low-frequency neurons (characteristic frequency 3.5–4 kHz; 4kHz; 5.5–6 kHz) and one type of high-frequency neuron (12–20 kHz). This is similar to other species (Gray, 1960, Michelsen, 1971). |
| 4. | Intensity-coding is done by sharp rising intensity characteristics and by different absolute thresholds of the units. |
| 5. | There is a marked directional sensitivity with some differences between LF and HF units. In the low frequency range the tympanal organ seems to react as a pressure gradient receiver; for high frequencies another mechanism is discussed. |
| 6. | No filtering of species-specific song takes place at the level of the receptor cells. |
15.
Ted W. Simon Donald H. Edwards 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1990,166(6):745-755
The caudal photoreceptors (CPRs) of crayfish (Procambarus clarkii) can trigger walking and abdominal movements by their response to light.
相似文献
| 1. | In a restrained, inverted crayfish, illumination of A6 evoked a CPR discharge followed by leg movements and bursting from the abdominal tonic flexor (TF) motoneurons. Intracellular electrical stimulation of a single CPR at high frequency (80 Hz) evoked similar responses. |
| 2. | Responses only occurred when a single CPR axon was driven at 60 Hz or more and outlasted the stimulus. |
| 3. | CPR stimulation also excites the pattern-initiating network (Moore and Larimer 1987) in the abdomen. |
| 4. | The axon of the CPR projects from ganglion A6 to the brain. Terminal branches occur in the subesophageal ganglion and the brain. A small descending interneuron is dye-coupled to CPR in the subesophageal ganglion. |
| 5. | In animals with cut circumesophageal connectives, the CPRs can evoke walking and the abdominal motor pattern. |
| 6. | The relationship of the abdominal motor pattern to walking is altered by restraint and/or inversion. In freely moving crayfish, the cyclic abdominal motor pattern is only observed with backward walking. In restrained, inverted crayfish, the motor pattern occurs with both forward or backward walking. |
16.
Kenro Tazaki Tohkichi Miyazaki 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1991,168(2):265-279
| 1. | Muscles of the posterior cardiac plate (pcp) and pyloric regions in the stomach of Squilla are innervated by motoneurons located in the stomatogastric ganglion (STG). The pattern of innervation of various muscles in these regions was determined using electrophysiological methods. |
| 2. | The dilator muscles are singly or doubly innervated by the pyloric dilator neurons (PDs). The constrictor muscles are singly or doubly innervated by the pcp neuron (PCP) or the pyloric neurons (PYs). These muscles are sequentially activated by pcp-pyloric motor outputs produced by the PCP, PY, and PD. All muscles can generate an all-or-nothing spike. |
| 3. | The constrictor muscles generate spikes followed by depolarizing afterpotentials which lead to a sustained depolarization with repetitive spikes. The PYs can entrain rhythmic spike discharges of these muscles. |
| 4. | The spike of muscles remains unchanged by bath application of tetrodotoxin (10-7 M) to suppress neuronal impulse activities, but it is blocked by Mn2+ (10 mM). |
| 5. | The constrictor muscle isolated from the STG displays an endogenous property of spontaneous membrane oscillation that produces a train of spikes. Brief depolarizing or hyperpolarizing stimuli can trigger or terminate an oscillatory potential, respectively, and reset the subsequent rhythm. |
| 6. | The possible functions of myogenicity under the control of discharges of motoneurons in the pyloric constrictor neuromuscular system are discussed. |
17.
Expression and reconstitution of biologically active human acetylcholinesterase fromEscherichia coli
Meir Fischer Avner Ittah Ilana Liefer Marian Gorecki 《Cellular and molecular neurobiology》1993,13(1):25-38
| 1. | Authentic human acetylcholinesterase (AChE) was expressed inEscherichia coli under regulation of the constitutivedeo promoter or the thermoinduciblePL promoter. |
| 2. | To facilitate expression in the prokaryotic system, recombinant human AChE (rhAChE) cDNA was modified at the N terminus by oligonucleotide substitutions in order to replace some of the GC-rich regions by AT. These modifications did not alter the amino acid sequence but resulted in ample production of the protein. |
| 3. | rhAChE accumulated in the cells and reached a level of 10% of total bacterial proteins. A partially purified inactive recombinant protein was recovered from inclusion bodies. |
| 4. | Active rhAChE was obtained after solubilization, folding, and oxidation, although the recovery of the active enzyme was low. A 20- to 40-fold increase in enzymatically active rhAChE was achieved by replacing Cys580 by serine. |
| 5. | The recombinant enzyme analogue was indistinguishable from native AChE isolated from erythrocytes in terms of substrate specificity and inhibitor selectivity. |
18.
Yasuo Nakaoka 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1989,165(5):637-641
| 1. | Paramecium bursaria was stimulated by a light spot of 10–15 m diameter, and the photosensitive site was searched by recording responses in swimming behavior and in membrane potential. |
| 2. | Local stimulation to the anterior half of the cell caused an avoiding response. |
| 3. | Stimulation to the cells deciliated by ethanol treatment elicited a depolarization of the membrane potential. |
| 4. | Local stimulation to the anteroventral portion elicited a depolarization, but stimulation to the dorsal side induced no change in the membrane potential. |
| 5. | The action spectrum of depolarization elicited by local stimulation to the anteroventral surface showed two main peaks at 420 nm and 560 nm, corresponding to those of light stimulation of the whole cell. |
| 6. | It is concluded that a photosensitive site exists on the anteroventral surface ofParamecium, in particular within the oral groove of the cell. This local photosensitivity is discussed with respect to the mating reaction. |
19.
R. Garcia F. Gaillard J. -C. Jacquenod 《Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology》1988,162(4):443-451
Ipsilateral retino-tecto-tectal (IRTT) units were recorded extracellularly in the rostral optic tectum of the frog (Rana esculenta). The activity of 79 superficial units (II type) was quantified in response to black disks of various sizes, moved vertically at various angular velocities and against a white background. The contrast ¦C¦ was constant during the experiments. Neuronal activity was analysed by two methods, yielding identical results:
The results show that qualitatively and quantitatively, the properties of I1 units are very similar to R1–R2 (sustained) ganglion cells. 相似文献
| (1) | I1 units responded transiently to moving and movement gated stationary stimuli; these units did not seem to be directionally sensitive nor responsive to changes in background illumination. Fifty-three % of units had a low spontaneous activity. |
| (2) | A power function relating mean firing frequency (¯R) and angular velocity (v) was established in the majority (78%) of units. The exponent and the constantk were 0.44–0.8 and 8.9–20, respectively. |
| (3) | The relationship between¯R and stimulus diameter (D) was best expressed by a logarithmic function. The maximum response occurred forD= 2–4. The optimal stimulus diameter was found to be independent of stimulus velocity. |
| (4) | When stimulated repetitively under steady conditions, I1 units showed about 10% fluctuations in mean response, which seemed to increase with stimulus diameter. |
20.
Conclusions
This work was supported byKBN grant no. 7 A203 013 07. 相似文献
| (1) | The aminoesters inhibit glucose-stimulated proton extrusion by yeast cells. |
| (2) | The inhibitory activity depends on aliphatic carbon chain length. |
| (3) | The inhibition of proton extrusion is concentration-dependent. |
| (4) | The aminoesters stimulate quinacrine accumulation in vacuoles of yeast cells so they should possess affinities for lysosomes. |