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Reconstitution of β-adrenergic regulation of CaV1.2: Rad-dependent and Rad-independent protein kinase A mechanisms. , Katz M., Proc Natl Acad Sci U S A. May 25, 2021; 118 (21):
Disease-associated HCN4 V759I variant is not sufficient to impair cardiac pacemaking. , Erlenhardt N., Pflugers Arch. December 1, 2020; 472 (12): 1733-1742.
All four subunits of HCN2 channels contribute to the activation gating in an additive but intricate manner. , Sunkara MR., J Gen Physiol. September 3, 2018; 150 (9): 1261-1271.
Conformational Flip of Nonactivated HCN2 Channel Subunits Evoked by Cyclic Nucleotides. , Thon S., Biophys J. December 1, 2015; 109 (11): 2268-76.
Brain-derived neurotrophic factor inhibits neuromuscular junction maturation in a cAMP-PKA-dependent way. , Song W., Neurosci Lett. March 30, 2015; 591 8-12.
Cyclic AMP inhibits neuromuscular junction maturation mediated by intracellular Ca2+. , Song W., Neurosci Lett. March 4, 2015; 589 104-9.
Optogenetic manipulation of cGMP in cells and animals by the tightly light-regulated guanylyl-cyclase opsin CyclOp. , Gao S., Nat Commun. January 19, 2015; 6 8046.
The cAMP-binding Popdc proteins have a redundant function in the heart. , Brand T., Biochem Soc Trans. April 1, 2014; 42 (2): 295-301.
Association with the auxiliary subunit PEX5R/ Trip8b controls responsiveness of HCN channels to cAMP and adrenergic stimulation. , Zolles G., Neuron. June 25, 2009; 62 (6): 814-25.
Schwann cells promote synaptogenesis at the neuromuscular junction via transforming growth factor-beta1. , Feng Z., J Neurosci. September 24, 2008; 28 (39): 9599-609.
Neurotrophin 3 induces structural and functional modification of synapses through distinct molecular mechanisms. , Je HS., J Cell Biol. December 18, 2006; 175 (6): 1029-42.
Differential effects of neurotrophins and schwann cell-derived signals on neuronal survival/growth and synaptogenesis. , Peng HB ., J Neurosci. June 15, 2003; 23 (12): 5050-60.
Molecular determinants of cAMP-mediated regulation of the Na+-Ca2+ exchanger expressed in human cell lines. , He LP., J Physiol. May 1, 2003; 548 (Pt 3): 677-89.
Molecular characterization of regenerated cardiomyocytes derived from adult mesenchymal stem cells. , Fukuda K., Congenit Anom (Kyoto). March 1, 2002; 42 (1): 1-9.
Modulation of protein kinase A activation by fibronectin matrix proteins at developing neuromuscular synapses in Xenopus laevis cell cultures. , Liou HH., Mol Pharmacol. August 1, 2001; 60 (2): 348-54.
The control of gut motility. , Olsson C., Comp Biochem Physiol A Mol Integr Physiol. March 1, 2001; 128 (3): 481-503.
Heterologous facilitation of G protein-activated K(+) channels by beta-adrenergic stimulation via cAMP-dependent protein kinase. , Müllner C., J Gen Physiol. May 1, 2000; 115 (5): 547-58.
Spontaneous acetylcholine secretion from developing growth cones of Drosophila central neurons in culture: effects of cAMP-pathway mutations. , Yao WD., J Neurosci. April 1, 2000; 20 (7): 2626-37.
A novel molecular determinant for cAMP-dependent regulation of the frog heart Na+-Ca2+ exchanger. , Shuba YM., J Biol Chem. July 24, 1998; 273 (30): 18819-25.
KVLQT channels are inhibited by the K+ channel blocker 293B. , Bleich M., Pflugers Arch. August 1, 1997; 434 (4): 499-501.
Inhibition of IKs in guinea pig cardiac myocytes and guinea pig IsK channels by the chromanol 293B. , Busch AE., Pflugers Arch. October 1, 1996; 432 (6): 1094-6.
Cystic fibrosis gene encodes a cAMP-dependent chloride channel in heart. , Hart P., Proc Natl Acad Sci U S A. June 25, 1996; 93 (13): 6343-8.
Regulation of postsynaptic responses by calcitonin gene related peptide and ATP at developing neuromuscular junctions. , Lu B ., Can J Physiol Pharmacol. July 1, 1995; 73 (7): 1050-6.
CGRP-induced activation of KATP channels in follicular Xenopus oocytes. , Guillemare E., Pflugers Arch. October 1, 1994; 428 (5-6): 604-9.
Potentiation of acetylcholine responses in Xenopus embryonic muscle cells by dibutyryl cAMP. , Fu WM., Pflugers Arch. December 1, 1993; 425 (5-6): 439-45.
Development of calcitonin gene-related peptide ( CGRP) immunoreactivity in relationship to the formation of neuromuscular junctions in Xenopus myotomal muscle. , Peng HB ., J Comp Neurol. December 22, 1989; 290 (4): 533-43.