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Volumn 530, Issue 1, 2001, Pages 21-33
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GYGD pore motifs in neighbouring potassium channel subunits interact to determine ion selectivity
a a a |
Author keywords
[No Author keywords available]
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Indexed keywords
ASPARTIC ACID;
GLYCYLTYROSYLGLYCYLASPARTIC ACID;
ION;
MEMBRANE PROTEIN;
POTASSIUM CHANNEL;
POTASSIUM ION;
PROTEIN SUBUNIT;
TYROSINE;
UNCLASSIFIED DRUG;
GLYCINE;
AMINO ACID SEQUENCE;
ANIMAL CELL;
ARTICLE;
BACTERIUM;
CELL MEMBRANE STEADY POTENTIAL;
CHANNEL GATING;
CONTROLLED STUDY;
COOPERATION;
CRYSTAL STRUCTURE;
FEMALE;
GENE CONSTRUCT;
GENETIC ENGINEERING;
ION CONDUCTANCE;
ION TRANSPORT;
MULTIGENE FAMILY;
MUTATION;
NONHUMAN;
OOCYTE;
PHYSIOLOGY;
PRIORITY JOURNAL;
PROTEIN DOMAIN;
PROTEIN INTERACTION;
PROTEIN MOTIF;
RAT;
SEQUENCE HOMOLOGY;
TANDEM REPEAT;
XENOPUS LAEVIS;
MEMBRANE STEADY POTENTIAL;
POTASSIUM CONDUCTANCE;
PROTEIN ENGINEERING;
PROTEIN EXPRESSION;
PROTEIN FUNCTION;
PROTEIN LOCALIZATION;
PROTEIN SUBUNIT;
SEQUENCE ANALYSIS;
AMINO ACID MOTIFS;
AMINO ACID SEQUENCE;
ANIMALS;
CELL MEMBRANE PERMEABILITY;
DELAYED RECTIFIER POTASSIUM CHANNELS;
GENETIC ENGINEERING;
ION CHANNEL GATING;
MEMBRANE POTENTIALS;
MOLECULAR SEQUENCE DATA;
OLIGOPEPTIDES;
POTASSIUM CHANNELS;
POTASSIUM CHANNELS, VOLTAGE-GATED;
RATS;
REVERSE TRANSCRIPTASE POLYMERASE CHAIN REACTION;
RNA;
SHAB POTASSIUM CHANNELS;
TYROSINE;
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EID: 0034783033
PISSN: 00223751
EISSN: None
Source Type: Journal
DOI: 10.1111/j.1469-7793.2001.0021m.x Document Type: Article |
Times cited : (42)
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References (38)
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