Noise analysis of the quinine-induced current in frog taste receptor cells

Annals of the New York Academy of Sciences

Volumn 855, Issue , 1998, Pages 148-149

  Tsunenari, Takashi ^a   Kaneko, Akimichi ^a  

^a KEIO UNIVERSITY SCHOOL OF MEDICINE   (Japan)

Author keywords

[No Author keywords available]

Indexed keywords

CALCIUM ION; CATION CHANNEL; QUININE;

ANIMAL CELL; CONDUCTANCE; CONFERENCE PAPER; CONTROLLED STUDY; FOURIER TRANSFORMATION; FROG; MEMBRANE CURRENT; NOISE; NONHUMAN; PATCH CLAMP; POTASSIUM CURRENT; SPECTROMETRY; TASTE BUD; VARIANCE; VOLTAGE CLAMP;

ANIMALIA; ANURA; CINCHONA PUBESCENS; LORENTZIA; RANA CATESBEIANA;

EID: 0032452087     PISSN: 00778923     EISSN: None     Source Type: Book Series    
DOI: 10.1111/j.1749-6632.1998.tb10557.x     Document Type: Conference Paper

References (5)

1. 1. Tsunenari, T. et al. 1996. A quinine-activated cationic conductance in vertebrate taste receptor cells. J. Gen. Physiol. 108: 515-523.
2. 2. Avenet, P., F. Hofmann & B. Lindemann. 1988. Transduction in taste receptor cells requires cAMP-dependent protein kinase. Nature 331: 351-354.
3. 2+-dependent and -independent K+ channels throughout receptive and basolateral membranes of bullfrog taste cells. Pflügers Arch. 429: 285-290.
4. 4. Fujiyama, R., T. Miyamoto & T. Sato. 1993. Non-selective cation channel in bullfrog taste cell membrane. NeuroReport 5: 11-13.
5. 5. Kolesnikov, S. S. & R. F. Margolskee. 1995. A cyclic-nucleotide-suppressible conductance activated by transducin in taste cells. Nature 376: 85-88.