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91.
A new mechanism for calcium flux in wheat (Triticum aestivum L.) root cells has been characterized. Membrane vesicles were enriched in plasma membrane using aqueous-polymer two-phase partitioning and incorporated into artificial lipid bilayers, allowing characterization of single channels under voltage-clamp conditions. Membrane marker activities showed 74% and 83% purity in plasma membrane when expressed in terms of membrane area and activity, respectively. Since membrane vesicles obtained by aqueous-polymer two-phase partitioning yield a population of membrane vesicles of regular orientation, and vesicle fusion into planar lipid bilayers occurs in a defined manner, the orientation of the channel upon vesicle incorporation could be determined. Thus ionic activities and potentials could be controlled appropriately on what we propose to be the cytosolic (trans) and extracellular (cis) faces of the channel. The unitary conductance in symmetrical 1 mM CaCl2 was 27±0.4 (pS). The correlation between the theoretical and observed reversal potentials in asymmetrical conditions showed that the channel was highly selective for Ca2+ over Cl–. Experiments simulating physiological ionic conditions showed a PCa
2+/PK
+ of 17–26, decreasing in this range as the extracellular CaCl2 concentration increased from 0.1 to 1 mM. The channel was also permeable to the essential nutrient ions, Mg2+ and Mn2+. The open probability of the channel was strongly dependent on the membrane potential. Inactivation with time was observed at more negative membrane potentials, and was immediately reversed as soon as the membrane potential was decreased. At membrane potentials more negative than -130mV, the channel remained mainly in the closed state, suggesting that in vivo the channel would remain largely closed and would open only upon membrane depolarization. The channel was blocked by micromolar concentrations of extracellular verapamil and trivalent cations, Al3+ being the most effective of those tested. Exposure of the cytosolic and extracellular sides of the channel to inositol 1,4,5-trisphosphate had no effect on the channel activity. We suggest a plasma-membrane origin for the channel as shown by biochemical and electrophysiological evidence, and discuss possible physiological roles of this channel, both in Ca2+ uptake into roots and in signal transduction.Abbreviations IP3
1,4,5-trisphosphate
- PM
plasma membrane
We wish to thank Dr. Christa Niemietz, Dr. Robert Reid and Prof. Andrew Smith for valuable discussions. This work was supported by the Australian Research Council and an OPRS award to M.P. 相似文献
92.
M. Spassova I. R. Mellor A. G. Petrov K. A. Beattie G. A. Codd H. Vais P. N. R. Usherwood 《European biophysics journal : EBJ》1995,24(2):69-76
Nodularin (NODLN), a cyclic pentapeptide hepatotoxin from the cyanobacterium Nodularia spumigena, induces pores in bilayers of diphytanoyl lecithin (DPhL) and in locust muscle membrane. NODLN increases the surface pressure of a DPhL monolayer; except when the surface pressure of the monolayer is high when the toxin causes a reduction of this parameter. NODLN pores exhibit many open conductance states; the higher state probabilities increasing when the transmembrane pressure is increased. The results from these studies are discussed in terms of two models for a NODLN pore, a torroidal model and a barrel-stave model. The edge energy of the NODLN pore of 1.4× 10–12 J/m is determined.Abbreviations NODLN
Nodularin
- MCYST-LR
Microcystin-LR
- ADDA
3-amino-9-methoxy-2,6,8-trimethyl-10-phenyldeca-4,6-dienoic acid
- DPhL
diphytanoyl lecithin
Correspondence to: A. G. Petrov 相似文献
93.
Valeri P. Shcherbakov M. Winklhofer Marianne Hanzlik Nikolai Petersen 《European biophysics journal : EBJ》1997,26(4):319-326
Electron micrographs of magnetotactic bacteria reveal that chains of magnetosomes are often bent. This is surprising inasmuch
as straight chains are actually the most favourable arrangement for magnetonavigation achieving the maximum value of the bacterial
net magnetic moment. In order to answer the question of what causes the chains to bend, we calculated the stability limit
of straight magnetosome chains by taking into account elastic and magnetic forces. For several scenarios, the threshold values
of external forces leading to elastic instability were computed. From our calculations and observations on freeze-dried cells,
we conclude that, under normal conditions, magnetosome chains are straight or only slightly bent, whereas shrinkage during
preparation may cause severe artifacts such as kinks or zig-zag structures in the chains.
Received: 10 February 1997 / Accepted: 9 April 1997 相似文献
94.
将经蔗糖密度梯度离心纯化的菠菜(Spinacea oleracea L.) 叶片类囊体膜微囊泡嵌入平面脂双层(planar lipid bilayers),至少检测到一种K+ 单通道信号, 其电导约为55 pS,具有电压依赖特性,对TEA(tetraethylam m onium chloride)敏感,这一通道的PK+ /PCl- 通透比约为14.9。离子通道的选择性可以在对称的离子条件下测定不同离子的电导,或者在双离子条件下测定反转电位确定,其对单价阳离子的选择顺序为:K+ > Na+ > Li+ > NH+4 > Cs+ 。 相似文献
95.
Surface functionalization allowing repetitive use of optical sensors for real‐time detection of antibody‐bacteria interaction 下载免费PDF全文
Bernhard Schmauss Lorenz Meinel Udo Lorenz Knut Ohlsen Ralf Hellmann Oliver Germershaus 《Journal of biophotonics》2016,9(7):730-737
In this study, sensor surface functionalization allowing the repetitive use of a sensing device was evaluated for antibody‐based detection of living bacteria using an optical planar Bragg grating sensor. To achieve regenerable immobilization of bacteria specific antibodies, the heterobifunctional cross‐linker N‐succinimidyl 3‐(2‐pyridyldithio) propionate (SPDP) was linked to an aminosilanized sensor surface and subsequently reduced to expose sulfhydryl groups enabling the covalent conjugation of SPDP‐activated antibodies via disulfide bonds. The immobilization of a capture antibody specific for Staphylococcus aureus on the sensor surface as well as specific binding of S. aureus could be monitored, highlighting the applicability of optical sensors for the specific detection of large biological structures. Reusability of bacteria saturated sensors was successfully demonstrated by cleaving the antibody along with bound bacteria through reduction of disulfide bonds and subsequent re‐functionalization with activated antibody, resulting in comparable sensitivity towards S. aureus.
96.
Summary Interaction of vesicles from a microsomal fraction of rabbit intestinal smooth muscle with planar bilayers promotes the incorporation of a large conductance potassium-selective channel. The channel conductance fluctuates between two states: closed and open and the fraction of time the channel dwells in the open state is a function of the electric potential difference and the calcium concentrations. This channel seems to correspond to a Ca-activated K channel described by other authors in smooth muscle cells with the patch-clamp technique. Single-channel conductance is a saturating function of the potassium concentration. The relationship between conductance and concentration cannot be described by a hyperbolic function, suggesting multiple occupancy of the channel. The single-channel conductance is 230 pS in symmetrical 0.1m KCl. Current is a linear function of the applied voltage in the range between –100 and +100 mV, at concentrations of 0.1m KCl or higher. At lower concentrations, current-to-voltage curves bend symmetrically to the voltage axis. Sodium, lithium and cesium ions do not pass through the channel and the permeability for Rb is 66% that of potassium. All these alkali cations and Ca2+ block the channel in a voltage-dependent manner. A two-site three-barrier model on Eyring absolute reaction rate theory can account for the conduction and blocking characteristics. 相似文献
97.
Lynn Raymond Stephen L. Slatin Alan Finkelstein Qui-Rong Liu Cyrus Levinthal 《The Journal of membrane biology》1986,92(3):255-268
Summary C-terminal fragments of colicin E1, ranging in mol wt from 14.5 to 20kD, form channels with voltage dependence and ion selectivity qualitatively similar to those of whole E1, placing an upper limit on the channel-forming domain. Under certain conditions, however, the gating kinetics and ion selectivity of channels formed by these different E1 peptides can be distinguished. The differences in channel behavior appear to be correlated with peptide length. Enzymatic digestion with trypsin of membrane-bound E1 peptides converts channel behavior of longer peptides to that characteristic of channels formed by shorter fragments. Apparently trypsin removes segments of protein N-terminal to the channel-forming region, since gating behavior of the shortest fragment is little affected by the enzyme. The success of this conversion depends on the side of the membrane to which trypsin is added and on the state, open or closed, of the channel. Trypsin modifies only closed channels from thecis side (the side to which protein has been added) and only open channels from thetrans side. These results suggest that regions outside the channel-forming domain affect ion selectivity and gating, and they also provide evidence that large protein segments outside the channel-forming domain are translocated across the membrane with channel gating. 相似文献
98.
A 2H-NMR analysis of dihydrosterculoyl-containing lipids in model membranes: structural effects of a cyclopropane ring 总被引:2,自引:0,他引:2
The molecular properties of lipid multilayers of 1-palmitoyl-2-[dideutero]dihydrosterculoyl-sn-glycero-3-phosphocholine (PDSPC) were investigated by means of 2H-NMR. The transition from the liquid-crystalline phase to a more highly ordered phase was found to take place between -10 degrees C and -15 degrees C. The temperature variation of the quadrupolar splittings of specifically dideuterated PDSPC molecules was analyzed in terms of 'segmental' and 'geometrical' order parameters: the lower half of the sn-2 chain (from the site of the cyclopropane ring to the terminal methyl group) was more conformationally disordered than the upper half. The apparently abnormal increase of the quadrupolar splitting of the pro-S deuteron at the C-2' position, with increasing temperature, was attributed to a change in the average orientation of that C-2H bond with respect to the axis of motion, resulting in an increase of the 'geometrical' order parameter, S gamma. The molecular order parameter matrix elements, Sij, of the cyclopropane ring were derived from the experimental SC-2H order parameters using similarity transformations. The matrix S was diagonalized and the molecular order parameter of the cyclopropane ring, Smol (or S*33), was determined by assuming axial symmetry for such matrices associated with molecules in a liquid-crystal medium. A value of Smol = 0.59 +/- 0.04 at 25 degrees C was thus calculated. This value represents a discontinuity in the positional dependence of the molecular order parameter for the sn-2 chain of PDSPC, indicating that the cyclopropane ring provides a rigid barrier separating the lipid bilayer into two regions: an ordered region from the bilayer surface to the site of the cyclopropane ring and a much more disordered region thereafter to the center of the bilayer. 相似文献
99.
Juan Reyes Frank Greco Rene Motais Ramon Latorre 《The Journal of membrane biology》1983,72(1-2):93-103
Summary Phloretin and other neutral phloretin-like molecules are able to decrease the electrostatic potential within neutral lipid bilayers and monolayers. The relationship between the change in the dipole potential and the aqueous concentration of the molecule is well described by a Langmuir isotherm. From the Langmuir isotherm, the apparent dissociation constants (K
D
A
) and the maximum dipole potential change (
max) are obtained for the different phloretin-like molecules tested. Considering the phloretin analogs as derivatives of acetophenone containing two kinds of substituents, one on the benzene ring and another on the carbon chain, it is found that (a)K
D
A
is related to the hydrophobicity of the compound and is also a function of the position of the hydroxyl substituent in the ring; (b) from the dependence ofK
D
A
on the length of the acyl chain, it is estimated that the free-energy change is 650 cal/mole CH2; (c)
max is not a simple function of the dipole moment of the molecule but depends on the substituent on the carbon chain and on the position and number of hydroxyl groups on the benzene ring; (d) phloretin adsorption parameters are a function of membrane lipid composition. The results are discussed in terms of the effect of these compounds on chloride transport in red blood cells. 相似文献
100.
Summary Unitary currents through cGMP-dependent channels of retinal rods are observed following incorporation into planar lipid bilayers of native vesicles from purified rod outer segment membranes washed free of soluble and peripheral proteins. The influence of the concentration of cGMP, inhibitors (cis-diltiazem, tetracaine and Ag+) and divalent cations (Ca2+, Mg2+, and Co2+) on the conductance and open probability of the channel is described, as well as the voltage dependence of these effects. The cGMP dependence suggests the existence of four binding sites for cGMP and reveals that sequential binding of four cGMP molecules corresponds to the opening of four discrete conductance levels. Finally, we provide conclusive evidence that activated G-protein does not directly inactivate the cGMP-dependent channels of bovine retinal rods. 相似文献