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1.
钾通道在大鼠支气管平滑肌张力调控中作用的研究 总被引:8,自引:1,他引:8
目的:探讨延迟整流钾通道(Kv),高电导钙激活钾通道(BKCa)和ATP敏感钾通道(KATP)在大鼠支气管平滑肌张力调控中的作用。方法:以特异性钾通道阻断剂为工具,采用体外等长张力测定观察钾通道对静息和收缩状态下支气管张力的影响。结果:(1)KV阻断剂4-aminopyridine(4-AP)诱发大鼠支气管平滑肌产生浓度依赖性收缩反应,而BKCa阻断剂tetraethylammonium(TEA)和KATP阻断剂glibenclamide(Glib)对其无影响。(2)去除上皮对4-AP诱发大鼠支气管平滑肌收缩反应无影响,而钙通道阻断剂nifedipine对其有显著抑制效应。(3)在0.1mmol/L组胺或50mmol/L KCl诱发支气管平滑肌收缩之前或之后,加入TEA(1,5mmol/L)或0.1mmol/L 4-AP均显著增强二者诱发的收缩反应;而Glib(10μmol/L)对其无明显影响。结论:Kv参与大鼠支气管平滑肌静息张力的调控,而BKCa和KATP对其无影响。Kv和BKCa的关闭增强组胺及高浓度钾离子诱发大鼠离体支气管产生的收缩张力。 相似文献
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Satomi Tanimoto Tohru Nakazawa Yoshihisa Kudo Masaaki Morisawa 《Molecular reproduction and development》1994,39(4):409-414
Flux of K+ and changes in intracellular Ca2+ in the sperm of salmonid fishes were measured with spectrophotometry, ion electrode, microscopic fluorometry, and radioisotope accumulation. Release of K+ occurred at the initiation of sperm motility which is induced by decrease in external K+ and the K+ efflux and sperm motility were inhibited by K+ channel blockers. Intracellular Ca2+ increased within a short period in K+- free condition, and the accumulation of 45Ca in sperm cells was higher in motile sperm than that in immotile sperm. The efflux of K+ and the increase in intracellular Ca2+ were suppressed when external K+ concentration increased, i.e., sperm remained immotile. These results suggest that efflux of K+ through K+ channel and subseqent increase in intracellular Ca2+ are prerequisite for the initiation of sperm motility. © 1994 Wiley-Liss, Inc. 相似文献
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Ion environment and ionic fluxes through membrane are thought to be important in the spermatozoa's maturation, capacitation, and the initiating process of gamete interaction. In this work, the membrane proteins isolated from human sperm plasma membrane were reconstituted into planar lipid bilayers via fusion, and the ion channels activities were observed under voltage clamp mode. In cis 200 // trans 100 mM KCl solution, a TEA-sensitive cation-selective channel with a unit conductance of 40 pS was recorded. In a gradient of 200//100 mM NaCl solutions, a Na+-selective channel with a unit conductance of 26 pS was recorded. In both cases, reversal potential was about −18 mV, which is close to the predicated value of a perfect Nernst K+ or Na+ electrode. In 50//10 mM CaCl2 solution, a cation channel activity with a unit conductance of 40 pS and reversal potential of about −20 mV was usually observed. In 200//100 mM NMDG(N-methyl-D-glucamine)-Cl solution, where the cation ions were substituted with NMDG, a 30-pS anion-selective channel activity was also detected. The variety in the types of ion channels observed in human spermatozoa plasma membrane suggests that ion channels may play a range of different roles in sperm physiology and gamete interaction. Mol. Reprod. Dev. 50:354–360, 1998. © 1998 Wiley-Liss, Inc. 相似文献
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Charybdotoxin (ChTX), a 4.3 kDa polypeptide toxin from the venom of the scorpion Leiurus quinquestriatus, blocks both a Ca-activated K channel (IC50 ≈ 15 nM) and a Ca-independent voltage-gated K channel (IC50 ≈ 40 nM) in rat brain synaptosomes. These results indicate that in this preparation ChTX is not specific for the Ca-activated K channel and suggest that there may be structural homology among the toxin-binding sites on various types of K channels. 相似文献
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Piechotta PL Rapedius M Stansfeld PJ Bollepalli MK Ehrlich G Erhlich G Andres-Enguix I Fritzenschaft H Decher N Sansom MS Tucker SJ Baukrowitz T 《The EMBO journal》2011,30(17):3607-3619
Two-pore domain (K2P) potassium channels are important regulators of cellular electrical excitability. However, the structure of these channels and their gating mechanism, in particular the role of the bundle-crossing gate, are not well understood. Here, we report that quaternary ammonium (QA) ions bind with high-affinity deep within the pore of TREK-1 and have free access to their binding site before channel activation by intracellular pH or pressure. This demonstrates that, unlike most other K(+) channels, the bundle-crossing gate in this K2P channel is constitutively open. Furthermore, we used QA ions to probe the pore structure of TREK-1 by systematic scanning mutagenesis and comparison of these results with different possible structural models. This revealed that the TREK-1 pore most closely resembles the open-state structure of KvAP. We also found that mutations close to the selectivity filter and the nature of the permeant ion profoundly influence TREK-1 channel gating. These results demonstrate that the primary activation mechanisms in TREK-1 reside close to, or within the selectivity filter and do not involve gating at the cytoplasmic bundle crossing. 相似文献
6.
Johansson I Wulfetange K Porée F Michard E Gajdanowicz P Lacombe B Sentenac H Thibaud JB Mueller-Roeber B Blatt MR Dreyer I 《The Plant journal : for cell and molecular biology》2006,47(2):269-281
Plant outward-rectifying K+ channels mediate K+ efflux from guard cells during stomatal closure and from root cells into the xylem for root-shoot allocation of potassium (K). Intriguingly, the gating of these channels depends on the extracellular K+ concentration, although the ions carrying the current are derived from inside the cell. This K+ dependence confers a sensitivity to the extracellular K+ concentration ([K+]) that ensures that the channels mediate K+ efflux only, regardless of the [K+] prevailing outside. We investigated the mechanism of K+-dependent gating of the K+ channel SKOR of Arabidopsis by site-directed mutagenesis. Mutations affecting the intrinsic K+ dependence of gating were found to cluster in the pore and within the sixth transmembrane helix (S6), identifying an 'S6 gating domain' deep within the membrane. Mapping the SKOR sequence to the crystal structure of the voltage-dependent K+ channel KvAP from Aeropyrum pernix suggested interaction between the S6 gating domain and the base of the pore helix, a prediction supported by mutations at this site. These results offer a unique insight into the molecular basis for a physiologically important K+-sensory process in plants. 相似文献
7.
Abstract
In higher plants, potassium channels of the Shaker family have been shown to play crucial roles in the uptake of K+ from the soil solution and subsequent transport of this ion at the cell, tissue, and organ levels. In the model plant Arabidopsis thaliana, this family is composed of nine members, which are the best characterized among plant channels at the protein, gene, and
functional property levels. Plant Shaker channels share a common structure: a hydrophobic core composed of six transmembrane
segments, a long cytoplasmic C-terminal region harboring a putative cyclic nucleotide binding domain, and a KHA domain. Many channels also contain an ankyrin domain between the putative cyclic nucleotide binding domain and the KHA domain. The analysis of 44 Shaker channels from plants revealed a five-group classification. The members of each group share
high sequence and structure similarities. This grouping also correlates with the diversification of the functional properties
of the proteins, as members of an individual group have roughly the same electrophysiological characteristics. Analysis of
the intron positions showed that the gene structures are also quite well conserved within the five groups. A correlation linking
the evolution of the sequences and the positioning of the introns was established. Finally, a moss sequence provided additional
clues about the hypothetical structure of an ancestor of the present channels and suggested that the diversification of plant
Shaker channels happened before the separation of monocots and dicots and after the separation of bryophytes and tracheophytes. 相似文献
8.
葛根素对豚鼠心室肌细胞钾离子通道的影响 总被引:20,自引:0,他引:20
目的 :观察葛根素对豚鼠单个心室肌细胞钾离子通道的影响。方法 :采用内面向外膜片钳单通道记录技术。结果 :葛根素 2 0 μmol/L ,4 0 μmol/L ,80 μmol/L对单个心肌细胞钾离子通道的开放概率 (P0 )有抑制作用 ,在 80μmol/L时 ,P0 值从 0 .86 7± 0 .13降至 0 .0 19± 0 .0 1,与用药前比较有显著差异 (n =5 ,P <0 .0 1)。结论 :葛根素能抑制心肌细胞钾离子通道是其抗心律失常的分子机制 相似文献
9.
Most K+ channels in plants are structurally classified into the Shaker family named after the shaker K+ channel in Drosophila. Plant K+ channels function in many physiological processes including osmotic regulation and K+ nutrition. An outwardly rectifying K+ channel, SKOR, mediates the delivery of K+ from stelar cells to the xylem in the roots, a critical step in the long-distance distribution of K+ from roots to the upper parts of the plant. Here we report that SKOR channel activity is strictly dependent on intracellular K+ concentrations. Activation by K+ did not affect the kinetics of voltage dependence in SKOR, indicating that a voltage-independent gating mechanism underlies the K+ sensing process. Further analysis showed that the C-terminal non-transmembrane region of the SKOR protein was required for this sensing process. The intracellular K+ sensing mechanism couples SKOR activity to K+ nutrition status in the 'source cells', thereby establishing a supply-based unloading system for the regulation of K+ distribution. 相似文献
10.
Xue Feng Wenxing Liu Cheng‐Wei Qiu Fanrong Zeng Yizhou Wang Guoping Zhang Zhong‐Hua Chen Feibo Wu 《Plant biotechnology journal》2020,18(8):1683-1696
Plant K+ uptake typically consists low—affinity mechanisms mediated by Shaker K+ channels (AKT/KAT/KC) and high‐affinity mechanisms regulated by HAK/KUP/KT transporters, which are extensively studied. However, the evolutionary and genetic roles of both K+ uptake mechanisms for drought tolerance are not fully explored in crops adapted to dryland agriculture. Here, we employed evolutionary bioinformatics, biotechnological and electrophysiological approaches to determine the role of two important K+ transporters HvAKT2 and HvHAK1 in drought tolerance in barley. HvAKT2 and HvHAK1 were cloned and functionally characterized using barley stripe mosaic virus‐induced gene silencing (BSMV‐VIGS) in drought‐tolerant wild barley XZ5 and agrobacterium‐mediated gene transfer in the barley cultivar Golden Promise. The hallmarks of the K+ selective filters of AKT2 and HAK1 are both found in homologues from strepotophyte algae, and they are evolutionarily conserved in strepotophyte algae and land plants. HvAKT2 and HvHAK1 are both localized to the plasma membrane and have high selectivity to K+ and Rb+ over other tested cations. Overexpression of HvAKT2 and HvHAK1 enhanced K+ uptake and H+ homoeostasis leading to drought tolerance in these transgenic lines. Moreover, HvAKT2‐ and HvHAK1‐overexpressing lines showed distinct response of K+, H+ and Ca2+ fluxes across plasma membrane and production of nitric oxide and hydrogen peroxide in leaves as compared to the wild type and silenced lines. High‐ and low‐affinity K+ uptake mechanisms and their coordination with H+ homoeostasis play essential roles in drought adaptation of wild barley. These findings can potentially facilitate future breeding programs for resilient cereal crops in a changing global climate. 相似文献
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Neurons are an extremely diverse group of excitable cells with a wide variety of morphologies including complex dendritic trees and very long axons. The electrical properties of neurons depend not only on the types of ion channels and receptors expressed, but also on where these channels are located in the cell. Two extreme examples that illustrate the subcellular polarized nature of neurons and the tight regulation of ion channel localization can be seen at the axon initial segment and the node of Ranvier. The axon initial segment is important for initiation of action potentials in the axon, whereas the node of Ranvier is required for the rapid, faithful and efficient propagation of action potentials along the axon. Given the similarity of their functions it is not surprising that nearly every protein component of the axon initial segment is also found at the node. However, there is one very important difference between these two sites: nodes require extrinsic, glial-derived factors in order to form, whereas the axon initial segment is intrinsically determined by the neuron. This mini-review discusses recent results that have begun to clarify the intrinsic and extrinsic mechanisms underlying formation of nodes and axon initial segments, and poses several important unanswered questions regarding their unique mechanisms of formation. 相似文献
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通过对4个不同钾营养效率的烤烟品种的根皮层细胞质膜内向跨膜钾电流进行全细胞记录,研究钾营养效率不同的烤烟基因型的钾离子通道的特性。结果表明,NC89的电流密度(pA/pF)最高,约为-80;其次是农大202及净叶黄,其电流密度分别为-60及-50;NC2326的电流密度在四个基因型中最小,大约-40。结果表明,烤烟根皮层细胞质膜跨膜内向钾电流的大小,与基因型对K+亲和力及吸收能力的大小,以及烤烟基因型钾营养效率高低有着密切的关系,可以作为一个比较可靠的参考鉴定指标,指导K+营养高效的基因型的筛选与鉴定。 相似文献
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A prominent regulatory property of plant shaker-type K+ channels is the 'rundown' that causes channel closure upon membrane excision from the cell, implicating intracellular factor(s) in maintaining channel activity. One such factor has been identified as hydrolysable ATP-Mg although the mechanism for ATP function remains unknown. Here we report identification of phosphatidylinositol (PI) phosphates (PIPs) as essential regulators for the voltage-dependent and -independent activation of plant shaker-type channels such as SKOR, an outward rectifying K+ channel. Inhibition of PI kinase activity abolished the function of ATP-Mg in restoration of rundown channel activity, demonstrating that PIPs production by PI kinases and ATP-Mg underlies ATP-induced activation of the rundown channel. We also identified aluminum block as a common feature of the plant shaker-type channels and provided evidence that aluminum block of these channels may result from Al interaction with PIPs. 相似文献
19.
Ischemic preconditioning (IPC) is the phenomenon whereby brief periods of ischemia have been shown to protect the myocardium against a sustained ischemic insult. The result of IPC may be manifest as a marked reduction in infarct size, myocardial stunning, or incidence of arrhythmias. While many substances and pathways have been proposed to play a role in the signal transduction mediating the cardioprotective effect of IPC, overwhelming evidence indicates an intimate involvement of the ATP-sensitive potassium channel (KATP channel) in this process. Initial hypotheses suggested that the surface or sarcolemmal KATP (sarcKATP ) channel mediated the cardioprotective effects of IPC. However, much research has subsequently supported a major role for the mitochondrial KATP channel (mitoKATP ) as the one involved in IPC-mediated cardioprotection. This review presents evidence to support a role for the sarcKATP or the mitoKATP channel as either triggers and/or downstream mediators in the phenomenon of IPC. 相似文献
20.
Using the patch-clamp technique K+ channels could be observed in the plasma membrane of protoplasts from pollen grains of Lilium longiflorum. With depolarizing membrane potentials the open probability of the different K+ channels increased. Two K+ channel populations occurring occasionally had a single channel conductance of 120 pS and 42 pS, respectively. The most often observed K+ channel had a single channel conductance of 19 pS which showed an increase of channel activity with increasing free cytoplasmic Ca2+ concentration. This channel population might be involved in the pathway of endogenous transcellular K+ currents which are activated during pollen tube tip extension. 相似文献