Ann F. McCue scite author profile

N-type calcium channels are omega-conotoxin (omega-CgTx)-sensitive, voltage-dependent ion channels involved in the control of neurotransmitter release from neurons. Multiple subtypes of voltage-dependent calcium channel complexes exist, and it is the alpha 1 subunit of the complex that forms the pore through which calcium enters the cell. The primary structures of human neuronal calcium channel alpha 1B subunits were deduced by the characterization of overlapping complementary DNAs. Two forms (alpha 1B-1 and alpha 1B-2) were identified in human neuroblastoma (IMR32) cells and in the central nervous system, but not in skeletal muscle or aorta tissues. The alpha 1B-1 subunit directs the recombinant expression of N-type calcium channel activity when it is transiently co-expressed with human neuronal beta 2 and alpha 2b subunits in mammalian HEK293 cells. The recombinant channel was irreversibly blocked by omega-CgTx but was insensitive to dihydropyridines. The alpha 1B-1 alpha 2b beta 2-transfected cells displayed a single class of saturable, high-affinity (dissociation constant = 55 pM) omega-CgTx binding sites. Co-expression of the beta 2 subunit was necessary for N-type channel activity, whereas the alpha 2b subunit appeared to modulate the expression of the channel. The heterogeneity of alpha 1B subunits, along with the heterogeneity of alpha 2 and beta subunits, is consistent with multiple, biophysically distinct N-type calcium channels.

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Primary Structure of the γ Subunit of the DHP-Sensitive Calcium Channel from Skeletal Muscle

Jay

Ellis

McCue

et al. 1990

Science

257

116

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Affinity-purified, polyclonal antibodies to the gamma subunit of the dihydropyridine (DHP)-sensitive, voltage-dependent calcium channel have been used to isolate complementary DNAs to the rabbit skeletal muscle protein from an expression library. The deduced primary structure indicates that the gamma subunit is a 25,058-dalton protein that contains four transmembrane domains and two N-linked glycosylation sites, consistent with biochemical analyses showing that the gamma subunit is a glycosylated hydrophobic protein. Nucleic acid hybridization studies indicate that there is a 1200-nucleotide transcript in skeletal muscle but not in brain or heart. The gamma subunit may play a role in assembly, modulation, or the structure of the skeletal muscle calcium channel.

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Human neuronal voltage-dependent calcium channels: Studies on subunit structure and role in channel assembly

Brust¹,

Simerson²,

McCue³

et al. 1993

Neuropharmacology

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Rapid comparison of the cytochrome c₃ gene from nine strains of Desulfovibrio vulgaris using polymerase chain reaction amplification

Kwoh¹,

Vedvick²,

McCue³

et al. 1993

Can. J. Microbiol.

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Polymerase chain reaction amplification was used to compare different regions of the cytochrome c3 gene from nine strains of Desulfovibrio vulgaris, to examine homology within the species. Six 30-base polymerase chain reaction primers and three probes were synthesized on the basis of the published nucleic acid sequence of the cytochrome c3 gene from D. vulgaris, NCIMB 8303. Amplifications were performed on genomic DNA isolated from NCIMB 8303 as well as eight other strains. Six strains, NCIMB 8302, 8305, 8306, 8311, 11779, and DSM 2119, showed amplification products of equal size and quantity to those of strain 8303. Two other strains, NCIMB 8456 and DSM 1744, either showed reduced levels or no detectable amplification products. These results were confirmed by hybridization of amplified DNA to radiolabeled probes specific for each product. DNA sequencing of a 145-bp polymerase chain reaction fragment from strains NCIMB 8302, 8303, 11779, and DSM 2119 revealed complete sequence homology between these strains, whereas slight differences were seen with strain NCIMB 8456. Amino acid sequencing of the first 20 residues of cytochrome c3 purified from strains NCIMB 8456 and 8303 also showed differences in the two proteins. In contrast to the results obtained with strain NCIMB 8456, limited homology was observed between the first 20 amino acid residues of cytochrome c3 from strain DSM 1744 and strain NCIMB 8303.

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Ann F. McCue

Structure and functional expression of α1, α2, and β subunits of a novel human neuronal calcium channel subtype

Structure and Functional Expression of an ω-Conotoxin-Sensitive Human N-Type Calcium Channel

Primary Structure of the γ Subunit of the DHP-Sensitive Calcium Channel from Skeletal Muscle

Human neuronal voltage-dependent calcium channels: Studies on subunit structure and role in channel assembly

Rapid comparison of the cytochrome c₃ gene from nine strains of Desulfovibrio vulgaris using polymerase chain reaction amplification

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Ann F. McCue

Structure and functional expression of α1, α2, and β subunits of a novel human neuronal calcium channel subtype

Structure and Functional Expression of an ω-Conotoxin-Sensitive Human N-Type Calcium Channel

Primary Structure of the γ Subunit of the DHP-Sensitive Calcium Channel from Skeletal Muscle

Human neuronal voltage-dependent calcium channels: Studies on subunit structure and role in channel assembly

Rapid comparison of the cytochrome c3 gene from nine strains of Desulfovibrio vulgaris using polymerase chain reaction amplification

Contact Info

Product

Resources

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Rapid comparison of the cytochrome c₃ gene from nine strains of Desulfovibrio vulgaris using polymerase chain reaction amplification