Ionic strength-dependent structural transition of proteins at electrode surfaces

Cooperative structural transition of PM2 DNA at high ionic strength and its dependence on DNA damages

Nature ◽

10.1038/287363a0 ◽

1980 ◽

Vol 287 (5780) ◽

pp. 363-364 ◽

Cited By ~ 6

Author(s):

Urs Kuhnlein ◽

Siu Sing Tsang ◽

Jane Edwards

Keyword(s):

Ionic Strength ◽

Structural Transition ◽

High Ionic Strength ◽

Dna Damages

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Conformational variation in superhelical deoxyribonucleic acid

Biochemical Journal ◽

10.1042/bj1710281 ◽

1978 ◽

Vol 171 (1) ◽

pp. 281-283 ◽

Cited By ~ 11

Author(s):

A M Campbell

Keyword(s):

Light Scattering ◽

Ionic Strength ◽

Structural Transition ◽

Deoxyribonucleic Acid ◽

Dna Molecules ◽

Experimental Conditions ◽

Low Ionic Strength

Sedimentation experiments have shown that superhelical DNA undergoes a sharp structural transition at low ionic strength. Light-scattering experiments show that this is due to a change in conformation of the DNA rather than to a change in interactions among DNA molecules. The results show that two possible conformations can occur for superhelical DNA under routine experimental conditions and may explain the discrepancies in the number of early unwinding sites exposed by different techniques.

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1-Anilinonaphthalene-8-sulphonate, a fluorescent conformational probe for glutamate dehydrogenase

Biochemical Journal ◽

10.1042/bj1140407 ◽

1969 ◽

Vol 114 (2) ◽

pp. 407-417 ◽

Cited By ~ 61

Author(s):

G. H. Dodd ◽

G. K. Radda

Keyword(s):

Ionic Strength ◽

Glutamate Dehydrogenase ◽

Structural Transition ◽

Enzyme Concentration ◽

Regulatory Mechanisms ◽

Conformational Equilibria ◽

Allosteric Transitions

1. The interaction of 1-anilinonaphthalene-8-sulphonate with ox liver glutamate dehydrogenase was examined. 2. The fluorescence of the dye is enhanced 100-fold on binding. 3. A further enhancement is observed when NADH and GTP are added to the enzyme. 4. By using this property of the dye to measure conformational equilibria in the enzyme the effects of coenzyme, inhibitors, enzyme concentration, ionic strength and pH on the allosteric transitions were studied. 5. GTP and NADH interact with the enzyme in a heterotropic manner. 6. The rate of the structural transition brought about by GTP and NADH is biphasic with half-lives of 34 and 200msec. 7. The relation of these observations to regulatory mechanisms is discussed.

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Protein structural transition at negatively charged electrode surfaces. Effects of temperature and current density

Electrochimica Acta ◽

10.1016/j.electacta.2015.06.009 ◽

2015 ◽

Vol 174 ◽

pp. 356-360 ◽

Cited By ~ 25

Author(s):

Hana Černocká ◽

Veronika Ostatná ◽

Emil Paleček

Keyword(s):

Current Density ◽

Structural Transition ◽

Electrode Surfaces ◽

Effects Of Temperature

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The ionic strength dependence of chromatin folding

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100081966 ◽

1978 ◽

Vol 36 (2) ◽

pp. 220-221

Author(s):

F. Thoma ◽

TH. Koller

Keyword(s):

Electron Microscopy ◽

Electron Microscope ◽

Ionic Strength ◽

Specimen Preparation ◽

Preparation Technique ◽

Carbon Supports ◽

Ionic Strength Dependence ◽

Chromatin Folding ◽

Strength Dependence ◽

Preparation Techniques

Under a variety of electron microscope specimen preparation techniques different forms of chromatin appearance can be distinguished: beads-on-a-string, a 100 Å nucleofilament, a 250 Å fiber and a compact 300 to 500 Å fiber.Using a standardized specimen preparation technique we wanted to find out whether there is any relation between these different forms of chromatin or not. We show that with increasing ionic strength a chromatin fiber consisting of a row of nucleo- somes progressively folds up into a solenoid-like structure with a diameter of about 300 Å.For the preparation of chromatin for electron microscopy the avoidance of stretching artifacts during adsorption to the carbon supports is of utmost importance. The samples are fixed with 0.1% glutaraldehyde at 4°C for at least 12 hrs. The material was usually examined between 24 and 48 hrs after the onset of fixation.

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Conformational Transitions in Escherichia coli Ribosomal RNAs as Visualized by Dedicated STEM

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100102961 ◽

1988 ◽

Vol 46 ◽

pp. 176-177

Author(s):

J.S. Wall ◽

V. Maridiyan ◽

S. Tumminia ◽

J. Hairifeld ◽

M. Boublik

Keyword(s):

Ionic Strength ◽

Three Dimensional ◽

Conformational Transitions ◽

Dark Field ◽

Dimensional Structure ◽

Ribosomal Rnas ◽

Field Mode ◽

Freeze Dried ◽

High Resolution Images ◽

Low Ionic Strength

The high contrast in the dark-field mode of dedicated STEM, specimen deposition by the wet film technique and low radiation dose (1 e/Å2) at -160°C make it possible to obtain high resolution images of unstained freeze-dried macromolecules with minimal structural distortion. Since the image intensity is directly related to the local projected mass of the specimen it became feasible to determine the molecular mass and mass distribution within individual macromolecules and from these data to calculate the linear density (M/L) and the radii of gyration.2 This parameter (RQ), reflecting the three-dimensional structure of the macromolecular particles in solution, has been applied to monitor the conformational transitions in E. coli 16S and 23S ribosomal RNAs in solutions of various ionic strength.In spite of the differences in mass (550 kD and 1050 kD, respectively), both 16S and 23S RNA appear equally sensitive to changes in buffer conditions. In deionized water or conditions of extremely low ionic strength both appear as filamentous structures (Fig. la and 2a, respectively) possessing a major backbone with protruding branches which are more frequent and more complex in 23S RNA (Fig. 2a).

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The three-dimensional structure of frozen-hydrated left- and right-handed forms of bacterial flagellar filaments from an identical serotype

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100143110 ◽

1986 ◽

Vol 44 ◽

pp. 298-299

Author(s):

S. Trachtenberg ◽

D. J. DeRosier

Keyword(s):

Ionic Strength ◽

Basal Body ◽

Three Dimensional ◽

Dimensional Structure ◽

Protein Species ◽

Liquid Environment ◽

Bacterial Flagellum ◽

Left And Right ◽

Rotary Motor ◽

Helical Parameters

The bacterial cell is propelled through the liquid environment by means of one or more rotating flagella. The bacterial flagellum is composed of a basal body (rotary motor), hook (universal coupler), and filament (propellor). The filament is a rigid helical assembly of only one protein species — flagellin. The filament can adopt different morphologies and change, reversibly, its helical parameters (pitch and hand) as a function of mechanical stress and chemical changes (pH, ionic strength) in the environment.

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Convex concave vitreous carbon electrodes, —A comparison among 4 different electrode surfaces

EP Europace ◽

10.1016/s1099-5129(01)80303-2 ◽

2001 ◽

Vol 2 ◽

pp. A74-A74

Keyword(s):

Vitreous Carbon ◽

Carbon Electrodes ◽

Electrode Surfaces

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Adsorption of chlorate and bromate ions on mercury electrodes from constant ionic strength solutions

Journal de Chimie Physique ◽

10.1051/jcp/1988850523 ◽

1988 ◽

Vol 85 ◽

pp. 523-527

Author(s):

M.M. Zuleika ◽

Palhares SILVA ◽

Ernesto Rafael GONZALEZ ◽

Luis Alberto AVACA ◽

Artur de Jesus MOTHEO

Keyword(s):

Ionic Strength ◽

Constant Ionic Strength ◽

Mercury Electrodes

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Antithrombin III Binding to Surface Immobilized Heparin and Its Relation to F Xa Inhibition

Thrombosis and Haemostasis ◽

10.1055/s-0038-1646057 ◽

1987 ◽

Vol 58 (04) ◽

pp. 1064-1067 ◽

Cited By ~ 41

Author(s):

K Kodama ◽

B Pasche ◽

P Olsson ◽

J Swedenborg ◽

L Adolfsson ◽

...

Keyword(s):

Molecular Weight ◽

Ionic Strength ◽

Surface Coating ◽

Antithrombin Iii ◽

Lower Class ◽

Biologically Active ◽

High Affinity ◽

Heparin Coating ◽

Continuous Surface ◽

Approximate Molecular Weight

SummaryThe mode of F Xa inhibition was investigated on a thromboresistant surface with end-point attached partially depoly-merized heparin of an approximate molecular weight of 8000. Affinity chromatography revealed that one fourth of the heparin used in surface coating had high affinity for antithrombin III (AT). The heparin surface adsorbed AT from both human plasma and solutions of purified AT. By increasing the ionic strength in the AT solution the existence of high and low affinity sites could be shown. The uptake of AT was measured and the density of available high and low affinity sites was found to be in the range of 5 HTid 11 pic.omoles/cmf, respectively Thus the estimated density of biologically active high and low ailmity heparm respectively would be 40 and 90 ng/cm2 The heparin coating did not take up or exert F Xa inhibition by itself. With AT adsorbed on both high and low affinity heparin the surface had the capacity to inhibit several consecutive aliquots of F Xa exposed to the surface. When mainly high affinity sites were saturated with AT the inhibition capacity was considerably lower. Tt was demonstrated that the density of AT on both high and low affinity heparin determines the F Xa inhibition capacity whereas the amount of AT on high affinity sites limits the rate of the reaction. This implies that during the inhibition of F Xa there is a continuous surface-diffusion of AT from sites of a lower class to the high affinity sites where the F Xa/AT complex is formed and leaves the surface. The ability of the immobilized heparin to catalyze inhibition of F Xa is likely to be an important component for the thromboresistant properties of a heparin coating with non-compromized AT binding sequences.

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