Tae-Seong Lee

Overview

Explore the profile of Tae-Seong Lee including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 6

Citations 147

Followers 0

Related Specialties

Pharmacology

Physiology

Biochemistry

Top 10 Co-Authors

Katsushige Ono

Toshihiko Kaku

Tetsuo Hadama

Andrea Welling

Franz Hofmann

Norbert Klugbauer

Thomas Kleppisch

Shinji Miyamoto

Sven Moosmang

Makoto Arita

Published In

Pharmacology

Jpn J Physiol

J Biol Chem

FASEB J

J UOEH

Affiliations

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Recent Articles

Distinction between steady-state inactivation and voltage-dependent facilitation in L-type Ca2+ channel alpha1c and alpha1c/beta subunits

Lee T, Ono K, Miyamoto S, Hadama T, Arita M

J UOEH . 2006 Sep; 28(3):277-86. PMID: 16981404

The L-type Ca2+ channel has a unique kinetic property known as voltage-dependent facilitation. Many researchers have repeatedly investigated the mechanism in response to the voltage-dependent facilitation since the first observation...

Actions of mibefradil, efonidipine and nifedipine block of recombinant T- and L-type Ca channels with distinct inhibitory mechanisms

Lee T, Kaku T, Takebayashi S, Uchino T, Miyamoto S, Hadama T, et al.

Pharmacology . 2006 Aug; 78(1):11-20. PMID: 16899990

We compared detailed efficacy of efonidipine and nifedipine, dihydropyridine analogues, and mibefradil using recombinant T- and L-type Ca2+ channels expressed separately in mammalian cells. All these Ca2+ channel antagonists blocked...

Calmodulin kinase II is involved in voltage-dependent facilitation of the L-type Cav1.2 calcium channel: Identification of the phosphorylation sites

Lee T, Karl R, Moosmang S, Lenhardt P, Klugbauer N, Hofmann F, et al.

J Biol Chem . 2006 Jul; 281(35):25560-7. PMID: 16820363

Calcium-dependent facilitation of L-type calcium channels has been reported to depend on the function of calmodulin kinase II. In contrast, the mechanism for voltage-dependent facilitation is not clear. In HEK...

Voltage-dependent and frequency-independent inhibition of recombinant Cav3.2 T-type Ca2+ channel by bepridil

Uchino T, Lee T, Kaku T, Yamashita N, Noguchi T, Ono K

Pharmacology . 2005 Apr; 74(4):174-81. PMID: 15855830

Effects of bepridil on the low voltage-activated T-type Ca2+ channel (CaV3.2) current stably expressed in human embryonic kidney (HEK)-293 cells were examined using patch-clamp techniques. Bepridil potently inhibited ICa,T with...

An essential role of Cav1.2 L-type calcium channel for urinary bladder function

Wegener J, Schulla V, Lee T, Koller A, Feil S, Feil R, et al.

FASEB J . 2004 May; 18(10):1159-61. PMID: 15132976

Mice deficient in the smooth muscle Cav1.2 calcium channel (SMACKO, smooth muscle alpha1c-subunit calcium channel knockout) have a severely reduced micturition and an increased bladder mass. L-type calcium current, protein,...

The gating and conductance properties of Cav3.2 low-voltage-activated T-type calcium channels

Kaku T, Lee T, Arita M, Hadama T, Ono K

Jpn J Physiol . 2003 Oct; 53(3):165-72. PMID: 14529577

Calcium channels are essential for excitation-contraction coupling and pacemaker potentials in cardiac muscle cells. Whereas L-type Ca(2+) channels have been extensively studied, T-type channels have been poorly characterized in cardiac...