Ion-Atom-Stoss. : Relativistic collisions of structured atomic particles / A. Voitkiv, J. Ulrich
2008
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ion beam assisted deposition. : Integrated optics. volume 1 Modeling, material platforms and fabrication techniques edited by Giancarlo C. Righini, Maurizio Ferrari
Ion bombardment -- Analysis -- Congresses. : Ion beam analysis : incorporating the AINSE Conference on Nuclear Techniques of Analysis : proceedings of the Fifteenth International Conference on Ion Beam Analysis (incorporating the Proceedings of the Twelfth AINSE Conference on Nuclear Techniques of Analysis), Cairns, Australia, 15-20 July 2001 / editors, Robert G. Elliman and Mark C. Ridgway
Ion bombardment -- Handbooks, manuals, etc : Handbook on secondary particle production and transport by high-energy heavy ions : (with CD-ROM) / Takashi Nakamura, Lawrence Heilbronn
Gated, ion-selective glycoproteins that traverse membranes. The stimulus for ION CHANNEL GATING can be due to a variety of stimuli such as LIGANDS, a TRANSMEMBRANE POTENTIAL DIFFERENCE, mechanical deformation or through INTRACELLULAR SIGNALING PEPTIDES AND PROTEINS
Voltage-dependent cell membrane glycoproteins selectively permeable to calcium ions. They are categorized as L-, T-, N-, P-, Q-, and R-types based on the activation and inactivation kinetics, ion specificity, and sensitivity to drugs and toxins. The L- and T-types are present throughout the cardiovascular and central nervous systems and the N-, P-, Q-, & R-types are located in neuronal tissue
Ion Channel Gating -- drug effects : Potassium channels and their modulators : from synthesis to clinical experience / edited by J.M. Evans [and others]
The opening and closing of ion channels due to a stimulus. The stimulus can be a change in membrane potential (voltage-gated), drugs or chemical transmitters (ligand-gated), or a mechanical deformation. Gating is thought to involve conformational changes of the ion channel which alters selective permeability
Cell membrane glycoproteins that are selectively permeable to potassium ions. At least eight major groups of K channels exist and they are made up of dozens of different subunits
Ion channels that specifically allow the passage of SODIUM ions. A variety of specific sodium channel subtypes are involved in serving specialized functions such as neuronal signaling, CARDIAC MUSCLE contraction, and KIDNEY function
Voltage-dependent cell membrane glycoproteins selectively permeable to calcium ions. They are categorized as L-, T-, N-, P-, Q-, and R-types based on the activation and inactivation kinetics, ion specificity, and sensitivity to drugs and toxins. The L- and T-types are present throughout the cardiovascular and central nervous systems and the N-, P-, Q-, & R-types are located in neuronal tissue
Ion Channels -- physiopathology : Membrane receptors, channels, and transporters in pulmonary circulation / Jason X.-J. Yuan, Jeremy P.T. Ward, editors
Cell membrane glycoproteins that are selectively permeable to potassium ions. At least eight major groups of K channels exist and they are made up of dozens of different subunits
1
Ion channels -- Research : Membrane receptors, channels, and transporters in pulmonary circulation / Jason X.-J. Yuan, Jeremy P.T. Ward, editors
Ion channels that specifically allow the passage of SODIUM ions. A variety of specific sodium channel subtypes are involved in serving specialized functions such as neuronal signaling, CARDIAC MUSCLE contraction, and KIDNEY function
1
Ion Channels -- therapeutic use : New strategies in stroke intervention : ionic transporters, pumps, and new channels / edited by Lucio Annunziato
The movement of ions across energy-transducing cell membranes. Transport can be active, passive or facilitated. Ions may travel by themselves (uniport), or as a group of two or more ions in the same (symport) or opposite (antiport) directions
Separation technique in which the stationary phase consists of ion exchange resins. The resins contain loosely held small ions that easily exchange places with other small ions of like charge present in solutions washed over the resins
Separation technique in which the stationary phase consists of ion exchange resins. The resins contain loosely held small ions that easily exchange places with other small ions of like charge present in solutions washed over the resins