Add to ORKGA protein that imitates the sequence of a highly conserved segment predicted to line the pore of dihydropyridine-sensitive L-type calcium channels was designed and synthesized. Single-channel conductance properties were studied in planar lipid bilayers. The synthetic protein emulates the ionic conductance, ionic selectivity, and pharmacological properties of the authentic calcium channel, including the stereospecific action of agonist and antagonist enantiomers of the dihydropyridine BayK 8644. The identified sequence is identical in L-type calcium channels from skeletal muscle and isoforms of cardiac muscle, brain, and aorta. It is plausible that this structural motif represents the molecular blueprint for the pore-forming structure of vol...
AbstractL-type Ca2+ channels are characterized by their unique sensitivity to organic Ca2+ channel m...
AbstractL-type voltage-gated calcium channels (VGCCs) are multisubunit membrane proteins that regula...
Voltage-dependent calcium (Ca2+) channels control a variety of physiological functions, such as exci...
To identify sequence‐specific motifs associated with the formation of an ionic pore, we systematical...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The molecular biology of Ca2+ channels has its origins in the biochemical characterization of the sk...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
Voltage-gated calcium channels (VGCCs) manage the electrical signaling of cells by allowing the sele...
Grove et al. have demonstrated L-type Ca2+ channel activity of a synthetic channel peptide (SCP) com...
The molecular biology of Ca2+ channels has its origins in the biochemical characterization of the sk...
Grove et al. have demonstrated L-type Ca2+ channel activity of a synthetic channel peptide (SCP) com...
The single channel conductance of the dihydropyridine (DHP)-sensitive calcium channel from rabbit sk...
AbstractThe sequences of the highly conserved S4 regions of voltage-sensitive ion channels were used...
AbstractL-type Ca2+ channels are characterized by their unique sensitivity to organic Ca2+ channel m...
AbstractL-type voltage-gated calcium channels (VGCCs) are multisubunit membrane proteins that regula...
Voltage-dependent calcium (Ca2+) channels control a variety of physiological functions, such as exci...
To identify sequence‐specific motifs associated with the formation of an ionic pore, we systematical...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The molecular biology of Ca2+ channels has its origins in the biochemical characterization of the sk...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
The high-voltage-activated calcium channel is a multimeric protein complex containing 1, 2/δ, β, and...
Voltage-gated calcium channels (VGCCs) manage the electrical signaling of cells by allowing the sele...
Grove et al. have demonstrated L-type Ca2+ channel activity of a synthetic channel peptide (SCP) com...
The molecular biology of Ca2+ channels has its origins in the biochemical characterization of the sk...
Grove et al. have demonstrated L-type Ca2+ channel activity of a synthetic channel peptide (SCP) com...
The single channel conductance of the dihydropyridine (DHP)-sensitive calcium channel from rabbit sk...
AbstractThe sequences of the highly conserved S4 regions of voltage-sensitive ion channels were used...
AbstractL-type Ca2+ channels are characterized by their unique sensitivity to organic Ca2+ channel m...
AbstractL-type voltage-gated calcium channels (VGCCs) are multisubunit membrane proteins that regula...
Voltage-dependent calcium (Ca2+) channels control a variety of physiological functions, such as exci...