scholarly journals Electrode Internal Solution with Biocytin II v1 (protocols.io.bctsiwne)

protocols.io ◽  
2020 ◽  
Author(s):  
Allen Institute
Keyword(s):  
Internal Solution

scholarly journals Indirect Drying and Coking Characteristics of Coking Coal with Soda Residue Additive

Energies ◽  
2021 ◽  
Vol 14 (3) ◽  
pp. 575
Author(s):  
Ze Zhang ◽  
Shuting Zhang
Keyword(s):  
Energy Saving ◽  
Drying Characteristics ◽  
Coking Coal ◽  
Internal Solution ◽  
Active Point ◽  
System A ◽  
Dry Distillation ◽  
Drying Rates ◽  
Process Energy ◽  
Drying Efficiency

To improve indirect drying efficiency, the effect of soda residue on the drying characteristics of coking coal were studied using a self-made indirect drying system. A tube furnace was used in the dry distillation of coal samples with soda residue, and the coke properties were analyzed. The results indicated that the soda residue has a significant influence on the increase in the heating rate of coal samples in the temperature distribution range of 90 to 110 °C. With the addition of 2%, 5%, and 10% soda residue, the drying rates increased by 11.5%, 25.3%, and 37.3%, respectively at 110 °C. The results of dry distillation show that addition of 2%, 5% and 10% soda residue decreases the carbon loss quantity by 4.67, 4.99, and 8.82 g, respectively. The mechanical strength of coke samples satisfies the industrial conditions when the soda residue ratio ranges from 2% to 5%. Soda residue can improve the active point of coke dissolution reaction and inhibit coke internal solution. Economically, coking coal samples mixed with soda residue have an obvious energy saving advantage in the drying process. Energy saving analysis found that it can reduce cost input by 20% than that of the normal drying method.

scholarly journals Membrane capacitance in frog cut twitch fibers mounted in a double vaseline-gap chamber.

1990 ◽  
Vol 96 (2) ◽  
pp. 225-256 ◽  
Author(s):  
W K Chandler ◽  
C S Hui
Keyword(s):  
Plasma Membranes ◽  
Unit Length ◽  
Electrical Measurements ◽  
Tetraethylammonium Chloride ◽  
Internal Solution ◽  
Current Passing ◽  
Longitudinal Resistance ◽  
Small Change ◽  
Internal Longitudinal Resistance ◽  
Earth Potential

In experiments on cut muscle fibers mounted in a double Vaseline-gap chamber, electrical measurements are usually made by measuring the voltage V1(t) in one end pool and by passing current I2(t) from the other end pool to the central pool, which is usually clamped to earth potential. The voltage in the current-passing end pool is denoted by V2(t). This article describes how the value of the holding current, Ih, and the values of delta V2(infinity)/delta V1(infinity) and delta I2(infinity)/delta V1(infinity) that are associated with a small change in V1(t) can be used to estimate the linear cable parameters rm, ri, and re in a cut fiber that has been equilibrated with a Cs-containing internal solution. rm, ri, and re represent, respectively, the resistance of the plasma membranes, the internal longitudinal resistance, and the external longitudinal resistance under the Vaseline seals, all for a unit length of fiber. The apparent capacitance, Capp, of the preparation is defined to equal integral of infinity 0 delta I2,tr(t) dt/delta V1(infinity), in which delta I2,tr(t) represents the transient component of current that is associated with a change in V1(t) of amplitude delta V1(infinity). A method is described to estimate cm, the capacitance of the plasma membranes per unit length of fiber, from Capp and the values of rm, ri, and re. In experiments carried out with a tetraethylammonium chloride (TEA.Cl) solution at 13-14 degrees C in the central pool, cm remained stable for as long as 3-4 h. The values of cm, 0.19 microF/cm on average, and their variation with fiber diameter are similar to published results from intact fibers. This article also describes the different pathways that are taken by the current that flows from the current-passing end pool to the central pool. Approximately two-thirds of delta I2,tr(t) flows across the capacitance of the plasma membranes in the central-pool region. The rest flows either across plasma membranes that are under the two Vaseline seals or directly from the current-passing end pool to the central pool, across the external longitudinal resistance under the Vaseline seal. [There is also a current that flows directly from the voltage-measuring end pool to the central pool but this does not contribute to delta I2,tr(t).]

scholarly journals A New method for ISE construction for methyl orange dyes and using for indirect determination of Amitriptyline Hydrochloried drug

2015 ◽  
Vol 12 (1) ◽  
pp. 188-196
Author(s):  
Baghdad Science Journal
Keyword(s):  
Methyl Orange ◽  
Response Time ◽  
Electrode Surface ◽  
Ion Pair ◽  
New Method ◽  
Ion Selective Electrode ◽  
Selective Electrode ◽  
Internal Solution ◽  
Indirect Determination

A new method for construction ion-selective electrode (ISE) by heating reaction of methyl orange with ammonium reineckate using PVC as plasticizer for determination methyl orange and determination Amitriptyline Hydrochloried drug by formation ion-pair on electrode surface . The characteristics of the electrode and it response as following : internal solution 10-4M , pH (2.5-5) ,temperature (20-30) and response time 2 sec. Calibration response for methyl orange over the concentrationrange 10-3 -10-9 M with R=0.9989 , RSD%=0.1052, D.O.L=0.315X10-9 MEre%=(-0.877- -2.76) , Rec%.=(97.230 -101.711) .

Do neurons from rat neostriatum express both a TTX-sensitive and a TTX-insensitive slow Na+ current?

1995 ◽  
Vol 74 (3) ◽  
pp. 934-941 ◽  
Author(s):  
T. I. Chao ◽  
C. Alzheimer
Keyword(s):  
Slow Inward Current ◽  
Medium Spiny Neurons ◽  
Na Current ◽  
Patch Clamp Technique ◽  
Internal Solution ◽  
Voltage Range ◽  
Spiny Neurons ◽  
Current Voltage ◽  
Relationship Of ◽  
In Cells

1. The properties of a tetrodotoxin (TTX)-sensitive, persistent Na+ current and a purported TTX-insensitive slow Na+ current were studied in acutely isolated neurons from rat neostriatum with the use of the whole cell configuration of the patch-clamp technique. 2. A TTX-sensitive, persistent Na+ current (INaP) was activated positive to -60 mV and reached a peak amplitude of -40 to -120 pA at about -40 mV. As indicated by slow depolarizing voltage ramps, activation of INaP did not require preceding activation of the fast, rapidly inactivating Na+ current. 3. The current-voltage (I-V) relationship of INaP displayed an unexpected inflection after passing through its peak value near -40 mV. Between -40 and -10 mV, INaP declined more rapidly with depolarization than it did at more depolarized potentials. The corresponding conductance (GNaP) peaked at -40 mV and declined to a smaller limiting value at potentials positive to about -10 mV. 4. This behavior is not consistent with the notion that INaP arises solely from a bell-shaped window conductance that results from the overlapping steady-state activation and inactivation curves of the fast Na+ current in a narrow voltage range, nor with the notion that INaP is generated by a single uniform conductance independent of the fast Na+ current. 5. In addition to INaP, a second slow inward current (IS) was evoked when small monovalent cations were omitted from the internal solution. INaP and IS were present both in cells resembling medium spiny neurons and in cells resembling aspiny interneurons. 6. IS was insensitive to TTX (1.2 microM) and the Ca2+ channel blocker, cadmium.(ABSTRACT TRUNCATED AT 250 WORDS)

scholarly journals Evidence for heterogeneous subsarcolemmal Na+ levels in rat ventricular myocytes

2019 ◽  
Vol 316 (5) ◽  
pp. H941-H957 ◽  
Author(s):  
J. Skogestad ◽  
G. T. Lines ◽  
W. E. Louch ◽  
O. M. Sejersted ◽  
I. Sjaastad ◽  
...  
Keyword(s):  
Mathematical Modeling ◽  
Experimental Data ◽  
Cardiac Myocytes ◽  
Ventricular Myocytes ◽  
Homogeneous Model ◽  
Cardiac Contractility ◽  
Channel Activation ◽  
Internal Solution ◽  
Rat Ventricular Myocytes ◽  
Quiescent Cells

The intracellular Na+ concentration ([Na+]) regulates cardiac contractility. Previous studies have suggested that subsarcolemmal [Na+] is higher than cytosolic [Na+] in cardiac myocytes, but this concept remains controversial. Here, we used electrophysiological experiments and mathematical modeling to test whether there are subsarcolemmal pools with different [Na+] and dynamics compared with the bulk cytosol in rat ventricular myocytes. A Na+ dependency curve for Na+-K+-ATPase (NKA) current was recorded with symmetrical Na+ solutions, i.e., the same [Na+] in the superfusate and internal solution. This curve was used to estimate [Na+] sensed by NKA in other experiments. Three experimental observations suggested that [Na+] is higher near NKA than in the bulk cytosol: 1) when extracellular [Na+] was high, [Na+] sensed by NKA was ~6 mM higher than the internal solution in quiescent cells; 2) long trains of Na+ channel activation almost doubled this gradient; compared with an even intracellular distribution of Na+, the increase of [Na+] sensed by NKA was 10 times higher than expected, suggesting a local Na+ domain; and 3) accumulation of Na+ near NKA after trains of Na+ channel activation dissipated very slowly. Finally, mathematical models assuming heterogeneity of [Na+] between NKA and the Na+ channel better reproduced experimental data than the homogeneous model. In conclusion, our data suggest that NKA-sensed [Na+] is higher than [Na+] in the bulk cytosol and that there are differential Na+ pools in the subsarcolemmal space, which could be important for cardiac contractility and arrhythmogenesis. NEW & NOTEWORTHY Our data suggest that the Na+-K+-ATPase-sensed Na+ concentration is higher than the Na+ concentration in the bulk cytosol and that there are differential Na+ pools in the subsarcolemmal space, which could be important for cardiac contractility and arrhythmogenesis. Listen to this article’s corresponding podcast at https://ajpheart.podbean.com/e/heterogeneous-sodium-in-ventricular-myocytes/ .

All-Solid-State pH Sensor Based on Conducting Polymer

2010 ◽  
Vol 93-94 ◽  
pp. 591-594 ◽  
Author(s):  
W. Natedungta ◽  
W. Prissanaroon-Ouajai
Keyword(s):  
Solid State ◽  
Conducting Polymer ◽  
Electrolyte Solution ◽  
Ph Sensor ◽  
Reference Electrode ◽  
Ph Measurement ◽  
Metallic Silver ◽  
Internal Solution ◽  
State Reference ◽  
Ph Electrode

A solid-state (free of internal electrolyte solution) reference electrode based on metallic silver is simply fabricated via a simple electrodeposition from AgNO3. Potentiometry is carried out to study the performance of the solid-state reference electrode in comparison with the commercial Ag/AgCl reference electrode. In addition, the proposed solid-state reference electrode has been integrated with the PPy-modified pH electrode to form an all-solid-state pH sensor, showing the capability of pH measurement. Absence of the internal solution leads to the pH sensor that is convenient to use and maintenance. In addition, the proposed pH sensor is possibly applied to biochemical and medical processes as well as flow infection analysis.

Internal Solution for Calcium Imaging

2013 ◽  
Vol 2013 (12) ◽  
pp. pdb.rec076778-pdb.rec076778
Keyword(s):  
Calcium Imaging ◽  
Internal Solution

scholarly journals Molecular identification of SqKv1A. A candidate for the delayed rectifier K channel in squid giant axon.

1996 ◽  
Vol 108 (3) ◽  
pp. 207-219 ◽  
Author(s):  
J J Rosenthal ◽  
R G Vickery ◽  
W F Gilly
Keyword(s):  
Time Course ◽  
Xenopus Oocytes ◽  
Giant Axon ◽  
K Channel ◽  
Delayed Rectifier ◽  
Giant Fiber ◽  
Western Blots ◽  
Internal Solution ◽  
Giant Axons ◽  
K Currents

We have cloned the cDNA for a squid Kvl potassium channel (SqKv1A). SqKv1A mRNA is selectively expressed in giant fiber lobe (GFL) neurons, the somata of the giant axons. Western blots detect two forms of SqKv1A in both GFL neuron and giant axon samples. Functional properties of SqKv1A currents expressed in Xenopus oocytes are very similar to macroscopic currents in GFL neurons and giant axons. Macroscopic K currents in GFL neuron cell bodies, giant axons, and in Xenopus oocytes expressing SqKv1A, activate rapidly and inactivate incompletely over a time course of several hundred ms. Oocytes injected with SqKv1A cRNA express channels of two conductance classes, estimated to be 13 and 20 pS in an internal solution containing 470 mM K. SqKv1A is thus a good candidate for the "20 pS" K channel that accounts for the majority of rapidly activating K conductance in both GFL neuron cell bodies and the giant axon.

scholarly journals Construction and validation of a homology model of the human voltage-gated proton channel hHV1

2013 ◽  
Vol 141 (4) ◽  
pp. 445-465 ◽  
Author(s):  
Kethika Kulleperuma ◽  
Susan M.E. Smith ◽  
Deri Morgan ◽  
Boris Musset ◽  
John Holyoake ◽  
...  
Keyword(s):  
Structural Model ◽  
Proton Translocation ◽  
External Solution ◽  
Homology Model ◽  
Structural Features ◽  
Proton Channel ◽  
Dimensional Structure ◽  
Internal Solution ◽  
Voltage Gated ◽  
Homology Models

The topological similarity of voltage-gated proton channels (HV1s) to the voltage-sensing domain (VSD) of other voltage-gated ion channels raises the central question of whether HV1s have a similar structure. We present the construction and validation of a homology model of the human HV1 (hHV1). Multiple structural alignment was used to construct structural models of the open (proton-conducting) state of hHV1 by exploiting the homology of hHV1 with VSDs of K+ and Na+ channels of known three-dimensional structure. The comparative assessment of structural stability of the homology models and their VSD templates was performed using massively repeated molecular dynamics simulations in which the proteins were allowed to relax from their initial conformation in an explicit membrane mimetic. The analysis of structural deviations from the initial conformation based on up to 125 repeats of 100-ns simulations for each system reveals structural features consistently retained in the homology models and leads to a consensus structural model for hHV1 in which well-defined external and internal salt-bridge networks stabilize the open state. The structural and electrostatic properties of this open-state model are compatible with proton translocation and offer an explanation for the reversal of charge selectivity in neutral mutants of Asp112. Furthermore, these structural properties are consistent with experimental accessibility data, providing a valuable basis for further structural and functional studies of hHV1. Each Arg residue in the S4 helix of hHV1 was replaced by His to test accessibility using Zn2+ as a probe. The two outermost Arg residues in S4 were accessible to external solution, whereas the innermost one was accessible only to the internal solution. Both modeling and experimental data indicate that in the open state, Arg211, the third Arg residue in the S4 helix in hHV1, remains accessible to the internal solution and is located near the charge transfer center, Phe150.

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