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21.
22.
The muscle chloride channel ClC-1 has a double-barreled appearance that is differentially affected in dominant and recessive myotonia 总被引:7,自引:0,他引:7
Single-channel recordings of the currents mediated by the muscle Cl- channel, ClC-1, expressed in Xenopus oocytes, provide the first direct evidence that this channel has two equidistant open conductance levels like the Torpedo ClC-0 prototype. As for the case of ClC-0, the probabilities and dwell times of the closed and conducting states are consistent with the presence of two independently gated pathways with approximately 1.2 pS conductance enabled in parallel via a common gate. However, the voltage dependence of the common gate is different and the kinetics are much faster than for ClC-0. Estimates of single-channel parameters from the analysis of macroscopic current fluctuations agree with those from single-channel recordings. Fluctuation analysis was used to characterize changes in the apparent double-gate behavior of the ClC-1 mutations I290M and I556N causing, respectively, a dominant and a recessive form of myotonia. We find that both mutations reduce about equally the open probability of single protopores and that mutation I290M yields a stronger reduction of the common gate open probability than mutation I556N. Our results suggest that the mammalian ClC-homologues have the same structure and mechanism proposed for the Torpedo channel ClC-0. Differential effects on the two gates that appear to modulate the activation of ClC-1 channels may be important determinants for the different patterns of inheritance of dominant and recessive ClC-1 mutations. 相似文献
23.
Atomic resolution analysis of the catalytic site of an aspartic proteinase and an unexpected mode of binding by short peptides 下载免费PDF全文
Erskine PT Coates L Mall S Gill RS Wood SP Myles DA Cooper JB 《Protein science : a publication of the Protein Society》2003,12(8):1741-1749
The X-ray structures of native endothiapepsin and a complex with a hydroxyethylene transition state analog inhibitor (H261) have been determined at atomic resolution. Unrestrained refinement of the carboxyl groups of the enzyme by using the atomic resolution data indicates that both catalytic aspartates in the native enzyme share a single negative charge equally; that is, in the crystal, one half of the active sites have Asp 32 ionized and the other half have Asp 215 ionized. The electron density map of the native enzyme refined at 0.9 A resolution demonstrates that there is a short peptide (probably Ser-Thr) bound noncovalently in the active site cleft. The N-terminal nitrogen of the dipeptide interacts with the aspartate diad of the enzyme by hydrogen bonds involving the carboxyl of Asp 215 and the catalytic water molecule. This is consistent with classical findings that the aspartic proteinases can be inhibited weakly by short peptides and that these enzymes can catalyze transpeptidation reactions. The dipeptide may originate from autolysis of the N-terminal Ser-Thr sequence of the enzyme during crystallization. 相似文献
24.
亲和力是影响改型单链抗体应用于临床的重要因素之一.利用巨型引物PCR定点诱变方法,设计并化学合成出两组含多个突变位点的简并引物,在第一轮PCR中使用简并引物分别扩增出含突变碱基的两条特异性的DNA片段,即巨型引物,将其经琼脂糖凝胶电泳分离纯化后,作为3′和5′的两端引物应用于第二轮PCR反应中.通过改变标准PCR反应条件,调整引物与模板的浓度,扩增出特异性较强的目的DNA条带.PCR产物经回收后,进行DNA测序.测序结果表明利用该方法扩增得到特异的抗CD3改型单链抗体的突变体库. 相似文献
25.
Replacement of non-exchangeable protons by deuterons has become a standard tool in structural studies of proteins on the order of 30–40 kDa to overcome problems arising from rapid 1H and 13C transverse relaxation. However, 1H nuclei are required at exchangeable sites to maintain the benefits of proton detection. Protein expression in D2O-based media containing deuterated carbon sources yields protein deuterated in all positions. Subsequent D/H-exchange is commonly used to reintroduce protons in labile positions. Since this strategy may fail for large proteins with strongly inhibited exchange we propose to express the protein in fully deuterated algal lysate medium in 100% H2O. As a side-effect partial C protonation occurs in a residue-type dependent manner. Samples obtained by this protocol are suitable for complementary 1HN- and 1H-based triple resonance experiments allowing complete backbone resonance assignments in cases where back-exchange of amide protons is very slow after expression in D2O and refolding of chemically denatured protein is not feasible. This approach is explored using a 35-kDa protein as a test case. The degree of C protonation of individual amino acids is determined quantitatively and transverse relaxation properties of 1HN and 15N nuclei of the partially deuterated protein are investigated and compared to the fully protonated and perdeuterated species. Based on the deviations of assigned chemical shifts from random coil values its solution secondary structure can be established. 相似文献
26.
A Simple Mathematical Model of Second-Messenger Mediated Slow Excitatory Postsynaptic Potentials 总被引:3,自引:0,他引:3
Bertrand PP Thomas EA Kunze WA Bornstein JC 《Journal of computational neuroscience》2000,8(2):127-142
We have developed a novel and simple mathematical model of a slow excitatory postsynaptic potential (EPSP) based on an abstraction of the processes of activation, inactivation, and summation of a cAMP, protein kinase A (PKA)-dependent second-messenger cascade. The model describes the activation of receptors, G-proteins, and production of cAMP as the first stage and uses first-order, non-rate-limited kinetics. The second stage corresponds to the release of active, PKA catalytic subunit and can use first- or higher-order kinetics. The third stage represents simple phosphorylation of ion channels and is limited by the number of channels available. The decay of each stage is based on first-order, mass-action kinetics. These equations and some variations were solved numerically and values of the parameters were determined by fitting to a variety of experimental data from myenteric neurons of the guinea-pig ileum. The model produced a slow EPSP with a nonlinear stimulus-response relationship that resulted from the underlying kinetics of the signaling cascade. This system of equations is suitable for incorporation into a large-scale computer simulation, and the methodology should be generalizable to other pathways. 相似文献
27.
SUMMARY
1. We previously showed that actin is transported in an unassembled form with its associated proteins actin depolymerizing factor, cofilin, and profilin. Here we examine the specific activities of radioactively labeled tubulin and neurofilament proteins in subcellular fractions of the chicken sciatic nerve following injection of L-[35S]methionine into the lumbar spinal cord.2. At intervals of 12 and 20 days after injection, nerves were cut into 1-cm segments and separated into Triton X-100-soluble and particulate fractions. Analysis of the fractions by high-resolution two-dimensional gel electrophoresis, immunoblotting, fluorography, and computer densitometry showed that tubulin was transported as a unimodal wave at a slower average rate (2–2.5 mm/day) than actin (4–5 mm/day). Moreover, the specific activity of soluble tubulin was five times that of its particulate form, indicating that tubulin is transported in a dimeric or small oligomeric form and is assembled into stationary microtubules.3. Neurofilament triplet proteins were detected only in the particulate fractions and transported at a slower average rate (1 mm/day) than either actin or tubulin.4. Our results indicate that the tubulin was transported in an unpolymerized form and that the neurofilament proteins were transported in an insoluble, presumably polymerized form. 相似文献
28.
豚鼠主动脉前庭自发性慢反应电位去极离子流的初步分析 总被引:15,自引:3,他引:12
为研究主动脉前庭自发慢反应电位的去极离充性质,利用豚鼠的离体以及心脏,常规玻璃微电极细胞内记录方法和离子通道组断剂,观测最大舒张电位(MDP)、0相除极幅度(APA)、0相最大除极速度(Vmax)、4个自动除极速度(VDD)、复极50%(APD50)和90%(APD90)的时间以及自发放电频率(RPF)。结果发现:⑴0.5μmol/L尼索地平(Nis)可使该慢电位的APA、Vmax、VDD明显减小 相似文献
29.
30.
The apoplastic pH of guard cells probably acidifies in response to light, since light induces proton extrusion by both guard
cells and epidermal leaf cells. From the data presented here, it is concluded that these apoplastic pH changes will affect
K+ fluxes in guard cells of Arabidopsis thaliana (L.) Heynh. Guard cells of this species were impaled with double-barrelled microelectrodes, to measure the membrane potential
(Em) and the plasma-membrane conductance. Guard cells were found to exhibit two states with respect to their Em, a depolarized and a hyperpolarized state. Apoplastic acidification depolarized Em in both states, though the origin of the depolarization differed for each state. In the depolarized state, the change in
Em was the result of a combined pH effect on instantaneously activating conductances and on the slow outward rectifying K+ channel (s-ORC). At a more acidic apoplastic pH, the current through instantaneously activated conductances became more inwardly
directed, while the maximum conductance of s-ORC decreased. The effect on s-ORC was accompanied by an acceleration of activation
and deactivation of the channel. Experiments with acid loading of guard cells indicated that the effect on s-ORC was due to
a lowered intracellular pH, caused by apoplastic acidification. In the hyperpolarized state, the pH-induced depolarization
was due to a direct effect of the apoplastic pH on the inward rectifying K+ channel. Acidification shifted the threshold potential of the channel to more positive values. This effect was accompanied
by a decrease in activation times and an increase of deactivation times, of the channel. From the changes in Em and membrane conductance, the expected effect of acidification on K+ fluxes was calculated. It was concluded that apoplastic acidification will increase the K+-efflux in the depolarized state and reduce the K+-influx in the hyperpolarized state.
Received: 28 April 1997 / Accepted: 10 November 1997 相似文献