Matches in DBpedia 2016-04 for { <http://wikidata.dbpedia.org/resource/Q2487620> ?p ?o }
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- Q2487620 abstract "T-type calcium channels are low-voltage activated calcium channels that open during membrane depolarization. These channels aid in mediating calcium influx into cells after an action potential or depolarizing signal. The entry of calcium into various cells has many different physiological responses associated with it. Within cardiac and smooth muscle cells voltage-gated calcium channel activation initiates contraction directly by allowing the cytosolic calcium concentration to increase. Not only are T-type calcium channels known to be present within cardiac and smooth muscle, but also are present in many neuronal cells within the central nervous system. Different experimental studies within the 1970s allowed for the distinction of T-type calcium channels (transient opening calcium channels) from the already well-known L-type calcium channels (Long-Lasting calcium channels). The new T-type channels were much different from the L-type calcium channels due to their ability to be activated by more negative membrane potentials, had small single channel conductance, and also were unresponsive to calcium antagonist drugs that were present. These distinct calcium channels are generally located within the brain, peripheral nervous system, heart, smooth muscle, bone, and endocrine system.The distinct structures of T-type calcium channels are what allow them to conduct in these manners, consisting of a primary α1 subunit. The α1 subunit of T-type channels is the primary subunit that forms the pore of the channel, and allows for entry of calcium.T-type calcium channels function to control the pace-making activity of the SA Node within the heart and relay rapid action potentials within the thalamus. These channels allow for continuous rhythmic bursts that control the SA Node of the heart.Pharmacological evidence of T-type calcium channels suggest that they play a key role in diseases such as absence epilepsy, diabetes, and several forms of cancer. Further research is continuously occurring to better understand these distinct channels, as well as create drugs to select for these channels.".
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- Q2487620 chromosome "16".
- Q2487620 chromosome "17".
- Q2487620 chromosome "22".
- Q2487620 entrezgene "8911".
- Q2487620 entrezgene "8912".
- Q2487620 hgncid "1394".
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- Q2487620 hgncid "1396".
- Q2487620 omim "604065".
- Q2487620 omim "607904".
- Q2487620 omim "608230".
- Q2487620 refseq "NM_001003406".
- Q2487620 refseq "NM_001005407".
- Q2487620 refseq "NM_018896".
- Q2487620 symbol "CACNA1G".
- Q2487620 symbol "CACNA1H".
- Q2487620 symbol "CACNA1I".
- Q2487620 uniprot "O43497".
- Q2487620 uniprot "O95180".
- Q2487620 uniprot "Q9P0X4".
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- Q2487620 arm "p".
- Q2487620 arm "q".
- Q2487620 band "13.1".
- Q2487620 band "13.3".
- Q2487620 band "22".
- Q2487620 chromosome "16".
- Q2487620 chromosome "17".
- Q2487620 chromosome "22".
- Q2487620 entrezgene "8911".
- Q2487620 entrezgene "8912".
- Q2487620 hgncid "1394".
- Q2487620 hgncid "1395".
- Q2487620 hgncid "1396".
- Q2487620 name Q18033527.
- Q2487620 name Q18033529.
- Q2487620 name Q18033531.
- Q2487620 omim "604065".
- Q2487620 omim "607904".
- Q2487620 omim "608230".
- Q2487620 refseq "NM_001003406".
- Q2487620 refseq "NM_001005407".
- Q2487620 refseq "NM_018896".
- Q2487620 symbol "CACNA1G".
- Q2487620 symbol "CACNA1H".
- Q2487620 symbol "CACNA1I".
- Q2487620 uniprot "O43497".
- Q2487620 uniprot "O95180".
- Q2487620 uniprot "Q9P0X4".
- Q2487620 type Biomolecule.
- Q2487620 type Protein.
- Q2487620 type Thing.
- Q2487620 type Q206229.
- Q2487620 type Q8054.
- Q2487620 comment "T-type calcium channels are low-voltage activated calcium channels that open during membrane depolarization. These channels aid in mediating calcium influx into cells after an action potential or depolarizing signal. The entry of calcium into various cells has many different physiological responses associated with it. Within cardiac and smooth muscle cells voltage-gated calcium channel activation initiates contraction directly by allowing the cytosolic calcium concentration to increase.".
- Q2487620 label "T-type calcium channel".
- Q2487620 name "Calcium channel, voltage-dependent, T-type, alpha 1G subunit".
- Q2487620 name "Calcium channel, voltage-dependent, T-type, alpha 1H subunit".
- Q2487620 name "Calcium channel, voltage-dependent, T-type, alpha 1I subunit".