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Literature DB >> 9164

pH-sensitive glass microelectrodes and intracellular pH measurements.

Abstract

1. Some properties of the open-tipped, uninsulated, pH-sensitive glass microelectrode were examined in several electrical experiments. 2. Based on these observations, technical and theoretical problems were considered for application to the pH measurement in small cells. 3. The intracellular pH, (pH)i, of the epithelial cell in rat duodenum measured was approximately 7.0. A reduction in (pH)i was apparent (about 0.3) with the addition of 20 mM-glucose to the bathing fluid. 4. It was concluded that with certain limitations such uninsulated, open-tipped microelectrodes may be successfully utilized for intracellular pH measurements.

Entities: Chemical Species

Mesh：

Substances：
Glucose

Year: 1976 PMID： 9164 DOI： 10.1007/BF00535650

Source DB: PubMed Journal: Biophys Struct Mech ISSN： 0340-1057

13 in total

3. Electrical properties and active solute transport in rat small intestine. II. Conductive properties of transepithelial routes.

Authors: Y Okada; A Irimajiri; A Inouye
Journal: J Membr Biol Date: 1977-03-08 Impact factor: 1.843

4. The influence of buffer pH, glucose and sodium ion concentration on the acid microclimate in rat proximal jejunum in vitro.

Authors: M L Lucas; F H Lei; J A Blair
Journal: Pflugers Arch Date: 1980-05 Impact factor: 3.657

5. A ratiometric NMR pH sensing strategy based on a slow-proton-exchange (SPE) mechanism.

Authors: L H Perruchoud; M D Jones; A Sutrisno; D B Zamble; A J Simpson; X-A Zhang
Journal: Chem Sci Date: 2015-07-20 Impact factor: 9.825

5 in total

pH-sensitive glass microelectrodes and intracellular pH measurements.

1. SALINE-FILLED MICRO-ELECTRODES IN RELATION TO MEMBRANE POTENTIAL MEASUREMENT IN FRESH-WATER PROTOZOA.

2. INTRACELLULAR PH OF RAT ATRIAL MUSCLE FIBERS MEASURED BY GLASS MICROPIPETTE ELECTRODES.

3. An investigation of the intracellular pH of crab muscle fibres by means of micro-glass and micro-tungsten electrodes.

4. Action potentials from individual elements in cat geniculate and striate cortex.

5. Effects of potassium ions and sodium ions on membrane potential of epithelial cells in rat duodenum.

6. Studies on the origin of the tip potential of glass microelectrode.

7. Intramucosal gastric acid concentration determined by glass microelectrode technique.

8. Measurement of intracellular pH of skeletal muscle with pH-sensitive glass microelectrodes.

9. Glass microelectrodes: the origin and elimination of tip potentials.

10. Intracellular pH of snail neurones measured with a new pH-sensitive glass mirco-electrode.

1. Measurement of Internal pH in Helicobacter pylori by Using Green Fluorescent Protein Fluorimetry.

2. Biological and artificial ion exchangers: electrical measurements with glass microelectrodes.

3. Electrical properties and active solute transport in rat small intestine. II. Conductive properties of transepithelial routes.

4. The influence of buffer pH, glucose and sodium ion concentration on the acid microclimate in rat proximal jejunum in vitro.

5. A ratiometric NMR pH sensing strategy based on a slow-proton-exchange (SPE) mechanism.