Papers associated with cacna1g

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	Membrane potential drives the exit from pluripotency and cell fate commitment via calcium and mTOR., Sempou E, Kostiuk V, Zhu J, Cecilia Guerra M, Tyan L, Hwang W, Camacho-Aguilar E, Caplan MJ, Zenisek D, Warmflash A, Owens NDL, Khokha MK., Nat Commun. November 5, 2022; 13 (1): 6681.
	Calcium Signaling in Vertebrate Development and Its Role in Disease., Paudel S, Sindelar R, Saha M., Int J Mol Sci. October 30, 2018; 19 (11):
	Differential zinc permeation and blockade of L-type Ca2+ channel isoforms Cav1.2 and Cav1.3., Park SJ, Min SH, Kang HW, Lee JH., Biochim Biophys Acta. October 1, 2015; 1848 (10 Pt A): 2092-100.
	Ca-α1T, a fly T-type Ca2+ channel, negatively modulates sleep., Jeong K, Lee S, Seo H, Oh Y, Jang D, Choe J, Kim D, Lee JH, Jones WD., Sci Rep. January 12, 2015; 5 17893.
	The role of voltage-gated calcium channels in neurotransmitter phenotype specification: Coexpression and functional analysis in Xenopus laevis., Lewis BB, Miller LE, Herbst WA, Saha MS., J Comp Neurol. August 1, 2014; 522 (11): 2518-31.
	Complex modulation of Ca(v)3.1 T-type calcium channel by nickel., Nosal OV, Lyubanova OP, Naidenov VG, Shuba YM., Cell Mol Life Sci. May 1, 2013; 70 (9): 1653-61.
	Structural determinants of the high affinity extracellular zinc binding site on Cav3.2 T-type calcium channels., Kang HW, Vitko I, Lee SS, Perez-Reyes E, Lee JH, Lee JH., J Biol Chem. January 29, 2010; 285 (5): 3271-81.
	Tarantula toxin ProTx-I differentiates between human T-type voltage-gated Ca2+ Channels Cav3.1 and Cav3.2., Ohkubo T, Yamazaki J, Kitamura K., J Pharmacol Sci. January 1, 2010; 112 (4): 452-8.
	Cloning and characterization of voltage-gated calcium channel alpha1 subunits in Xenopus laevis during development., Lewis BB, Wester MR, Miller LE, Nagarkar MD, Johnson MB, Saha MS., Dev Dyn. November 1, 2009; 238 (11): 2891-902.
	Five different profiles of dihydropyridines in blocking T-type Ca(2+) channel subtypes (Ca(v)3.1 (alpha(1G)), Ca(v)3.2 (alpha(1H)), and Ca(v)3.3 (alpha(1I))) expressed in Xenopus oocytes., Furukawa T, Nukada T, Namiki Y, Miyashita Y, Hatsuno K, Ueno Y, Yamakawa T, Isshiki T., Eur J Pharmacol. June 24, 2009; 613 (1-3): 100-7.
	Molecular identity and functional properties of a novel T-type Ca2+ channel cloned from the sensory epithelia of the mouse inner ear., Nie L, Zhu J, Gratton MA, Liao A, Mu KJ, Nonner W, Richardson GP, Yamoah EN., J Neurophysiol. October 1, 2008; 100 (4): 2287-99.
	Activation of protein kinase C augments T-type Ca2+ channel activity without changing channel surface density., Park JY, Kang HW, Moon HJ, Huh SU, Jeong SW, Soldatov NM, Lee JH., J Physiol. December 1, 2006; 577 (Pt 2): 513-23.
	Roles of molecular regions in determining differences between voltage dependence of activation of CaV3.1 and CaV1.2 calcium channels., Li J, Stevens L, Klugbauer N, Wray D., J Biol Chem. June 25, 2004; 279 (26): 26858-67.
	Multiple structural elements contribute to the slow kinetics of the Cav3.3 T-type channel., Park JY, Kang HW, Jeong SW, Lee JH, Lee JH., J Biol Chem. May 21, 2004; 279 (21): 21707-13.
	Inactivation determinants in segment IIIS6 of Ca(v)3.1., Marksteiner R, Schurr P, Berjukow S, Margreiter E, Perez-Reyes E, Hering S., J Physiol. November 15, 2001; 537 (Pt 1): 27-34.
	Molecular characterization of two members of the T-type calcium channel family., Perez-Reyes E, Lee JH, Cribbs LL., Ann N Y Acad Sci. April 30, 1999; 868 131-43.

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