LLPS-Poa-2575
CACNA1G
Integrated Annotations
▼ OVERVIEW
| Status: | Unreviewed |
| Protein Name: | Voltage-dependent T-type calcium channel subunit alpha |
| Gene Name: | CACNA1G |
| Ensembl Gene: | ENSPPYG00000008277.2 |
| Ensembl Protein: | ENSPPYP00000009300.2 |
| Organism: | Pongo abelii |
| Taxa ID: | 9601 |
| LLPS Type: | LLPS regulator |
▼ PROPERTY
▼ Classification
Condensates:
| Condensate | Evidence | Orthologs |
|---|---|---|
| Stress granule | Predicted from orthologs | (View) |
▼ FUNCTION
| Voltage-sensitive calcium channels (VSCC) mediate the entry of calcium ions into excitable cells and are also involved in a variety of calcium-dependent processes, including muscle contraction, hormone or neurotransmitter release, gene expression, cell motility, cell division and cell death. This channel gives rise to T-type calcium currents. T-type calcium channels belong to the "low-voltage activated (LVA)" group and are strongly blocked by nickel and mibefradil. A particularity of this type of channels is an opening at quite negative potentials, and a voltage-dependent inactivation. T-type channels serve pacemaking functions in both central neurons and cardiac nodal cells and support calcium signaling in secretory cells and vascular smooth muscle. They may also be involved in the modulation of firing patterns of neurons which is important for information processing as well as in cell growth processes. |
▼ CROSS REFERENCE
| Database | Nucleotide ID | Protein ID |
|---|---|---|
| Ensembl | ENSPPYT00000009676.2 | ENSPPYP00000009300.2 |
| UniProt | H2NTM8, H2NTM8_PONAB | |
| GeneBank | ABGA01385116, ABGA01385117, ABGA01385118, ABGA01385120, ABGA01385115, ABGA01385121, ABGA01385119, ABGA01385122, ABGA01385123, ABGA01385124 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 MDEEEDGAGA EESGQPRSFM RLNDLSGAGG RPGPGSAEKD PGSADSEAEG LPYPALAPVV 60 61 FFYLSQDSRP RSWCLRTVCN PWFERISMLV ILLNCVTLGM FRPCEDIACD SQRCRILQAF 120 121 DDFIFAFFAV EMVVKMVALG IFGKKCYLGD TWNRLDFFIV IAGMLEYSLD LQNVSFSAVR 180 181 TVRVLRPLRA INRVPSMRIL VTLLLDTLPM LGNVLLLCFF VFFIFGIVGV QLWAGLLRNR 240 241 CFLPENFSLP LSVDLERYYQ TENEDESPFI CSQPRENGMR SCRSVPTLRG EGGGGPPCGL 300 301 DYEAYNSSSN TTCVNWNQYY TNCSAGEHNP FKGAINFDNI GYAWIAIFQV ITLEGWVDIM 360 361 YFVMDAHSFY NFIYFILLII VGSFFMINLC LVVIATQFSE TKQRESQLMR EQRVRFLSNA 420 421 STLASFSEPG SCYEELLKYL VYILRKAARR LAQVSRAAGV RAGLLSSPAP LGGQVTQPSS 480 481 SCSRSHRRLS VHHLVHHHHH HHHHYHLGNG TLRAPRASPE IQDRDANGSR RLMLPPPSTP 540 541 ALSGGPPGGA ESVHSFYHAD CHLEPVRCQA PPPRSPSEAS GRTVGSGKVY PTVHTSPPPE 600 601 TLKEKALVEV AASSGPPTLT SLNIPPGPYS SMHKLLETQS TGACQSSCKI SSPCLKADSG 660 661 ACGPDSCPYC ARAGAGEVEL ADREMPDSDS EAVYEFTQDA QHSDLRDPHS RRQRSLGPDA 720 721 EPSSVLAFWS LICDTFRKIV DSKYFGRGIM IAILVNTLSM GIEYHEQPEE LTNALEISNI 780 781 VFTSLFALEM LLKLLVYGPF GYIKNPYNIF DGVIVVISVW EIVGQQGGGL SVLRTFRLMR 840 841 VLKLVRFLPA LQRQLVVLMK TMDNVATFCM LLMLFIFIFS ILGMHLFGCK FASERDGDTL 900 901 PDRKNFDSLL WAIVTVFQIL TQEDWNKVLY NGMASTSSWA ALYFIALMTF GNYVLFNLLV 960 961 AILVEGFQAE EISKREDASG QLSCIQLPVD SQGGDANKSE SEPDFFSPSL DGDGDRKKCL 1020 1021 ALVSLGEHPE LRKSLLPPLI IHTAATPMSL PKSTSTGLGE ALGPASRRTS SSGSAEPGAA 1080 1081 HEMKSPPSAR SSPHSPWSAA SSWTSRRSSR NSLGRAPSLK RRSPSGERRS LLSGEGQESQ 1140 1141 DEEESSEEER ASPAGSDRRH RGSLEREAKS SFDLPDTLQV PGLHRTASGR GSASEHQDCN 1200 1201 GKSASGRLAR ALRPDDPPLD GDDADDEGNL SKGERVRAWI RARLPACCLE RDSWSAYIFP 1260 1261 PQSRFRLLCH RIITHKMFDH VVLVIIFLNC ITIAMERPKI DPHSAERIFL TLSNYIFTAV 1320 1321 FLAEMTVKVV ALGWCFGEQA YLRSSWNVLD GLLVLISVID ILVSMVSDSG TKILGMLRVL 1380 1381 RLLRTLRPLR VISRAQGLKL VVETLMSSLK PIGNIVVICC AFFIIFGILG VQLFKGKFFV 1440 1441 CQGEDTRNIT NKSDCAEASY RWVRHKYNFD NLGQALMSLF VLASKDGWVD IMYDGLDAVG 1500 1501 VDQQPIMNHN PWMLLYFISF LLIVAFFVLN MFVGVVVDLM LDDVIASGSS ASAASEAQCK 1560 1561 PYYSDYSRFR LLVHHLCTSH YLDLFITGVI GLNVVTMAME HYQQPQILDE ALKICNYIFT 1620 1621 VIFVLESVFK LVAFGFRRFF QDRWNQLDLA IVLLSIMGIT LEEIEVNASL PINPTIIRIM 1680 1681 RVLRIARVLK LLKMAVGMRA LLDTVMQALP QVGNLGLLFM LLFFIFAALG VELFGDLVYF 1740 1741 VSFVLTAQFV LVNVVIAVLM KHLEESNKEA KEEAELEAEL ELEMKTLSPQ PHSPLGSAFL 1800 1801 WPGVEGPDSP DSPKPGALHP AAHARSASHF SLEHPTDRQL FDTISLLIQG SLEWELKLMD 1860 1861 ELAGPGGQPS AFPSAPSLGG SDPQIPLAEM EALSLTSEIV SEPSCSLALT DDSLPDDMHT 1920 1921 LLLSALESNI QPHPTELPGP DLLTVRKSAV SRTHSLPNDS YMCRHGSTAE GPLGHRGWGL 1980 1981 PKAQSGSVLS VHSQPADTSY ILQLPKDAPH LLQPHSTPTW GTIPKLPPPG RSPLAQRPLR 2040 2041 RQAAIRTDSL DVQGLGSRED LLAEVSGPSP PLARAYSFWG QSSTQAQQHS RSHSKISKHM 2100 2101 PPPAPCPGPE PNWGKGPPET RSSLELDTEL SWISGDLLPP GGQEEPPSPR DLKKCYSVEA 2160 2161 QSCQRRPTSW LDEQRRHSIA VSCLDSGSQP HLSTDPSNLG GQPLGGPGSR PKKKLSPPSI 2220 2221 SIDPPESQGP RPAPSPGVCL RRRAPSSDSK DPLASGPPDS MAASPSPKKD VLSLSGLSSD 2280 2281 PADLDP 2286 |
| Nucleotide CDS Sequence (FASTA) |
1 ATGGACGAGG AGGAGGATGG AGCGGGCGCC GAGGAGTCAG GACAGCCCCG GAGCTTCATG 60 61 CGGCTCAACG ACCTGTCGGG GGCCGGGGGC CGGCCGGGGC CGGGGTCAGC AGAAAAGGAC 120 121 CCGGGCAGCG CGGACTCCGA GGCGGAGGGG CTGCCGTACC CGGCGCTGGC CCCGGTGGTT 180 181 TTCTTCTACT TGAGCCAGGA CAGCCGCCCG CGGAGCTGGT GTCTCCGCAC GGTCTGTAAC 240 241 CCATGGTTTG AGCGCATCAG CATGTTGGTC ATCCTTCTCA ACTGCGTGAC CCTGGGCATG 300 301 TTCCGGCCGT GCGAGGACAT CGCCTGTGAC TCCCAGCGCT GCCGGATCCT GCAGGCCTTT 360 361 GATGACTTCA TCTTTGCCTT CTTTGCCGTG GAGATGGTGG TGAAGATGGT GGCCTTGGGC 420 421 ATCTTTGGGA AAAAGTGTTA CCTGGGAGAC ACTTGGAACC GGCTTGACTT TTTCATCGTC 480 481 ATTGCAGGGA TGTTGGAGTA CTCGCTGGAC CTGCAGAACG TCAGCTTCTC AGCTGTCAGG 540 541 ACAGTCCGTG TGCTGCGACC GCTCAGGGCC ATTAACCGGG TGCCCAGCAT GCGCATCCTC 600 601 GTCACGTTGC TGCTGGACAC GCTGCCCATG CTGGGCAACG TCCTGCTGCT CTGCTTCTTC 660 661 GTCTTCTTCA TCTTCGGCAT CGTCGGCGTC CAGCTGTGGG CAGGGCTGCT TCGGAACCGA 720 721 TGCTTCCTAC CTGAGAATTT CAGCCTTCCC CTGAGCGTGG ACCTGGAGCG CTATTACCAG 780 781 ACAGAGAACG AGGATGAGAG CCCCTTCATC TGCTCCCAGC CACGCGAGAA CGGCATGCGG 840 841 TCCTGCAGAA GCGTGCCCAC ACTGCGTGGG GAGGGGGGCG GTGGCCCACC TTGCGGTCTG 900 901 GACTATGAGG CCTACAACAG CTCCAGCAAC ACCACTTGTG TCAACTGGAA CCAGTACTAC 960 961 ACCAACTGCT CAGCGGGGGA GCACAACCCC TTCAAGGGCG CCATCAACTT TGACAACATT 1020 1021 GGCTATGCCT GGATCGCCAT CTTCCAGGTC ATCACGCTGG AGGGCTGGGT CGACATCATG 1080 1081 TACTTTGTGA TGGATGCTCA TTCCTTCTAC AATTTCATCT ACTTCATCCT CCTCATCATC 1140 1141 GTGGGCTCCT TCTTCATGAT CAACCTGTGC CTGGTGGTGA TTGCCACGCA GTTCTCAGAG 1200 1201 ACCAAGCAGC GGGAAAGCCA GCTGATGCGG GAGCAGCGTG TGCGGTTCCT GTCCAACGCC 1260 1261 AGCACCCTGG CTAGCTTCTC TGAGCCCGGC AGCTGCTATG AGGAGCTGCT CAAGTACCTG 1320 1321 GTGTACATCC TTCGTAAGGC AGCCCGCAGG CTGGCTCAGG TCTCTCGGGC AGCAGGTGTG 1380 1381 CGGGCCGGGC TGCTCAGCAG CCCAGCACCC CTCGGGGGCC AGGTGACCCA GCCCAGCAGC 1440 1441 AGCTGCTCTC GCTCCCACCG CCGCCTATCC GTCCACCACC TGGTGCACCA CCACCACCAC 1500 1501 CATCACCACC ACTACCACCT GGGCAATGGG ACGCTCAGGG CCCCCCGGGC CAGCCCGGAG 1560 1561 ATCCAGGACA GGGATGCCAA TGGGTCCCGC CGGCTCATGC TGCCACCACC CTCGACGCCT 1620 1621 GCCCTCTCCG GGGGCCCCCC AGGTGGCGCA GAGTCTGTGC ACAGCTTCTA CCATGCCGAC 1680 1681 TGCCACTTAG AGCCAGTCCG CTGCCAGGCG CCCCCTCCCA GGTCCCCATC TGAGGCATCC 1740 1741 GGCAGGACTG TGGGCAGCGG GAAGGTGTAT CCCACCGTGC ACACCAGCCC TCCACCGGAG 1800 1801 ACGCTGAAGG AGAAGGCACT AGTAGAGGTG GCTGCCAGCT CTGGGCCCCC AACCCTCACC 1860 1861 AGCCTCAACA TCCCACCCGG GCCCTACAGC TCCATGCACA AGCTGCTGGA GACACAGAGT 1920 1921 ACAGGTGCCT GCCAAAGCTC TTGCAAGATC TCCAGCCCTT GCTTGAAGGC AGACAGTGGA 1980 1981 GCCTGTGGTC CAGACAGCTG CCCCTACTGT GCCCGGGCTG GGGCAGGGGA GGTGGAGCTT 2040 2041 GCCGACCGTG AAATGCCTGA CTCAGACAGC GAGGCAGTTT ATGAGTTCAC ACAGGATGCC 2100 2101 CAGCACAGCG ACCTCCGGGA CCCCCACAGC CGGCGGCAAC GGAGCCTGGG CCCAGATGCA 2160 2161 GAGCCCAGCT CTGTGCTGGC CTTCTGGAGT CTAATCTGTG ACACCTTCCG AAAGATTGTG 2220 2221 GACAGCAAGT ACTTTGGCCG GGGAATCATG ATCGCCATCC TGGTCAACAC ACTCAGCATG 2280 2281 GGCATCGAAT ACCACGAGCA GCCCGAGGAG CTTACCAACG CCCTAGAAAT CAGCAACATC 2340 2341 GTCTTCACCA GCCTCTTTGC CCTGGAGATG CTGCTGAAGC TGCTTGTGTA TGGTCCCTTT 2400 2401 GGCTACATCA AGAATCCCTA CAACATCTTC GATGGTGTCA TTGTGGTCAT CAGCGTGTGG 2460 2461 GAGATCGTGG GCCAGCAGGG GGGCGGCCTG TCGGTGCTGC GGACCTTCCG CCTGATGCGC 2520 2521 GTGCTGAAGC TGGTGCGCTT CCTGCCGGCG CTGCAGCGGC AGCTGGTGGT GCTCATGAAG 2580 2581 ACCATGGACA ACGTGGCTAC CTTCTGCATG CTGCTCATGC TCTTCATCTT CATCTTCAGC 2640 2641 ATCCTGGGCA TGCATCTCTT TGGCTGCAAG TTTGCCTCTG AGCGGGATGG GGACACCCTA 2700 2701 CCAGACCGGA AGAATTTTGA CTCCTTGCTC TGGGCCATCG TCACCGTCTT TCAGATCCTG 2760 2761 ACCCAGGAGG ACTGGAACAA AGTCCTCTAC AATGGTATGG CCTCCACGTC ATCCTGGGCG 2820 2821 GCCCTTTACT TCATTGCCCT CATGACCTTC GGCAACTACG TGCTCTTCAA TTTGCTGGTC 2880 2881 GCCATTCTGG TGGAGGGCTT CCAGGCGGAG GAAATCAGCA AACGGGAAGA TGCGAGTGGA 2940 2941 CAGTTAAGCT GTATTCAGCT GCCTGTCGAC TCCCAGGGGG GAGATGCCAA CAAGTCCGAA 3000 3001 TCAGAGCCCG ATTTCTTCTC ACCCAGCCTG GATGGTGATG GGGACAGGAA GAAGTGCTTG 3060 3061 GCCCTGGTGT CCCTGGGAGA GCACCCAGAG CTGCGGAAGA GCCTGCTGCC ACCTCTCATC 3120 3121 ATCCACACGG CAGCCACACC CATGTCGCTG CCCAAGAGCA CCAGCACGGG CCTGGGCGAG 3180 3181 GCACTGGGCC CTGCGTCGCG CCGCACCAGC AGCAGCGGGT CGGCCGAGCC TGGGGCGGCC 3240 3241 CACGAGATGA AGTCACCGCC CAGCGCCCGC AGCTCCCCGC ACAGCCCCTG GAGCGCTGCA 3300 3301 AGCAGCTGGA CCAGCAGGCG CTCCAGCCGG AACAGCCTCG GCCGTGCCCC CAGCCTGAAG 3360 3361 CGGAGAAGCC CAAGTGGGGA GCGGCGGTCC CTGCTGTCGG GAGAAGGCCA GGAGAGCCAG 3420 3421 GATGAGGAGG AGAGCTCGGA AGAGGAGCGG GCCAGCCCTG CGGGCAGTGA CCGTCGCCAC 3480 3481 AGGGGGTCCC TGGAGCGGGA GGCCAAGAGT TCCTTTGACC TGCCAGACAC ACTGCAGGTG 3540 3541 CCAGGGCTGC ATCGCACTGC CAGTGGCCGA GGCTCTGCTT CTGAGCACCA GGACTGCAAC 3600 3601 GGCAAGTCGG CTTCAGGGCG CCTGGCCCGG GCCCTGCGGC CTGACGACCC CCCACTGGAT 3660 3661 GGGGATGACG CCGATGACGA GGGCAACCTG AGCAAAGGCG AGCGGGTCCG CGCATGGATC 3720 3721 CGAGCCCGAC TCCCTGCCTG CTGCCTCGAG CGAGACTCCT GGTCAGCCTA CATCTTCCCT 3780 3781 CCTCAGTCCA GGTTCCGCCT CCTGTGTCAC CGGATCATCA CCCACAAGAT GTTCGACCAC 3840 3841 GTGGTCCTTG TCATCATCTT CCTTAACTGC ATCACCATCG CCATGGAGCG CCCCAAAATT 3900 3901 GACCCCCACA GCGCTGAACG CATCTTCCTG ACCCTCTCCA ATTACATCTT CACCGCAGTC 3960 3961 TTTCTGGCTG AAATGACAGT GAAGGTGGTG GCGCTGGGCT GGTGCTTCGG GGAGCAGGCG 4020 4021 TACCTGCGGA GCAGCTGGAA CGTGCTGGAC GGGCTGTTGG TGCTCATCTC CGTCATCGAC 4080 4081 ATTCTGGTGT CCATGGTCTC TGACAGCGGC ACCAAGATCC TGGGCATGCT GAGGGTGCTG 4140 4141 CGGCTGCTGC GGACCCTGCG CCCGCTCAGG GTGATCAGCC GGGCGCAGGG GCTGAAGCTG 4200 4201 GTGGTGGAGA CGCTGATGTC CTCACTGAAA CCCATCGGCA ACATTGTAGT CATCTGCTGT 4260 4261 GCCTTCTTCA TCATTTTCGG CATCTTGGGG GTGCAGCTCT TCAAAGGGAA GTTTTTCGTG 4320 4321 TGCCAGGGCG AGGATACCAG GAACATCACC AATAAATCGG ACTGTGCCGA GGCCAGTTAC 4380 4381 CGGTGGGTCC GGCACAAGTA CAACTTCGAC AACCTCGGCC AGGCCCTGAT GTCCCTGTTC 4440 4441 GTTTTGGCCT CCAAGGATGG TTGGGTGGAC ATCATGTACG ATGGGCTGGA TGCTGTGGGC 4500 4501 GTGGACCAGC AGCCCATCAT GAACCACAAC CCCTGGATGC TGCTGTACTT CATCTCGTTC 4560 4561 CTGCTCATTG TGGCCTTCTT TGTCCTGAAC ATGTTTGTGG GTGTGGTGGT GGATCTAATG 4620 4621 CTGGACGATG TAATTGCTTC CGGCAGCTCA GCCAGCGCTG CGTCAGAAGC CCAGTGCAAA 4680 4681 CCTTACTACT CTGACTACTC CCGCTTCCGG CTCCTCGTCC ACCACTTGTG CACCAGCCAC 4740 4741 TACCTGGATC TCTTCATCAC AGGTGTCATC GGGCTGAACG TGGTCACCAT GGCCATGGAG 4800 4801 CACTACCAGC AGCCCCAGAT TCTGGATGAG GCTCTGAAGA TCTGCAACTA CATCTTCACT 4860 4861 GTCATCTTTG TCTTGGAGTC AGTTTTCAAA CTTGTGGCCT TTGGTTTCCG TCGGTTCTTC 4920 4921 CAGGACAGGT GGAACCAGCT GGACCTGGCC ATTGTGCTGC TGTCCATCAT GGGCATCACG 4980 4981 CTGGAGGAAA TCGAGGTCAA CGCCTCACTG CCCATCAACC CCACCATCAT CCGCATCATG 5040 5041 AGGGTGCTGC GCATTGCCCG AGTGCTGAAG CTGCTGAAGA TGGCTGTGGG CATGCGGGCG 5100 5101 CTGCTGGACA CGGTGATGCA GGCCCTGCCC CAGGTGGGGA ACCTGGGACT TCTCTTCATG 5160 5161 TTGTTGTTTT TCATCTTTGC AGCTCTGGGC GTGGAGCTCT TTGGAGACCT GGTCTACTTT 5220 5221 GTGTCCTTCG TGCTGACGGC CCAGTTCGTG CTAGTCAACG TGGTGATCGC CGTGCTGATG 5280 5281 AAGCACCTGG AGGAGAGCAA CAAGGAGGCC AAGGAGGAGG CCGAGCTGGA GGCTGAGCTG 5340 5341 GAGCTGGAGA TGAAGACCCT CAGCCCCCAA CCCCACTCGC CGCTGGGCAG CGCCTTCCTC 5400 5401 TGGCCTGGGG TCGAGGGCCC CGACAGCCCC GACAGCCCCA AGCCTGGGGC TCTGCACCCA 5460 5461 GCGGCCCATG CGAGATCAGC CTCACACTTT TCCCTGGAGC ATCCCACGGA CAGGCAGCTG 5520 5521 TTTGACACCA TATCCCTGCT GATCCAGGGC TCCCTGGAGT GGGAGCTGAA GCTGATGGAC 5580 5581 GAGCTGGCAG GCCCAGGGGG CCAGCCCTCT GCCTTCCCTT CTGCCCCCAG CCTGGGAGGC 5640 5641 TCCGACCCAC AGATCCCTCT AGCTGAGATG GAGGCTCTGT CTCTGACGTC AGAGATTGTG 5700 5701 TCTGAACCGT CCTGCTCTCT AGCTCTGACG GATGACTCTT TGCCTGATGA CATGCACACA 5760 5761 CTCTTACTTA GTGCCCTGGA GAGCAATATT CAGCCCCACC CCACGGAGCT GCCAGGACCA 5820 5821 GACTTACTGA CTGTGCGGAA GTCTGCGGTC AGCCGAACGC ACTCTCTGCC CAATGACAGC 5880 5881 TACATGTGTC GGCACGGGAG CACTGCCGAG GGGCCCCTGG GACACAGGGG CTGGGGGCTC 5940 5941 CCCAAAGCTC AGTCAGGCTC CGTCTTGTCC GTTCACTCCC AGCCAGCAGA TACCAGCTAT 6000 6001 ATCCTGCAGC TTCCCAAAGA TGCACCTCAT CTGCTCCAGC CCCACAGCAC CCCAACCTGG 6060 6061 GGTACCATCC CCAAACTGCC CCCACCAGGA CGGTCCCCTT TGGCTCAGAG GCCACTCAGG 6120 6121 CGCCAGGCAG CAATAAGGAC TGACTCCTTG GACGTTCAGG GCCTGGGCAG CCGGGAAGAC 6180 6181 CTGCTGGCAG AGGTGAGTGG GCCCTCCCCG CCCCTGGCCC GGGCCTACTC TTTCTGGGGC 6240 6241 CAGTCGAGCA CCCAGGCACA GCAGCACTCC CGCAGCCACA GCAAGATCTC CAAGCACATG 6300 6301 CCCCCGCCAG CCCCTTGCCC AGGCCCAGAA CCCAACTGGG GCAAGGGCCC TCCAGAGACC 6360 6361 AGAAGCAGCT TAGAGTTGGA CACGGAGCTG AGCTGGATTT CAGGAGACCT CCTGCCCCCT 6420 6421 GGCGGCCAGG AGGAGCCCCC ATCCCCACGG GACCTGAAGA AGTGCTACAG CGTGGAGGCC 6480 6481 CAGAGCTGCC AGCGCCGGCC CACGTCCTGG CTGGATGAGC AGAGGAGACA CTCTATCGCC 6540 6541 GTCAGCTGCC TGGACAGCGG CTCCCAACCC CACCTGAGCA CAGACCCCTC TAACCTTGGG 6600 6601 GGCCAGCCTC TTGGCGGGCC TGGGAGCCGG CCCAAGAAAA AACTCAGCCC GCCTAGTATC 6660 6661 TCCATAGACC CCCCCGAGAG CCAAGGTCCT CGGCCCGCGC CCAGCCCTGG CGTCTGCCTC 6720 6721 CGGAGGAGGG CTCCGTCCAG CGACTCCAAG GATCCCTTGG CCTCTGGCCC CCCTGACAGC 6780 6781 ATGGCTGCCT CGCCCTCCCC AAAGAAAGAT GTGCTGAGTC TCTCCGGTTT ATCCTCTGAC 6840 6841 CCAGCAGACC TGGACCCCTG A 6861 |
▼ KEYWORD
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | Cytoplasm | |
Cellular Component | Voltage-gated calcium channel complex | |
Molecular Function | Low voltage-gated calcium channel activity | |
Molecular Function | Scaffold protein binding | |
Molecular Function | Voltage-gated calcium channel activity involved in AV node cell action potential | |
Molecular Function | Voltage-gated calcium channel activity involved SA node cell action potential | |
Biological Process | Calcium ion import | |
Biological Process | Cardiac muscle cell action potential involved in contraction | |
Biological Process | Chemical synaptic transmission | |
Biological Process | Regulation of atrial cardiac muscle cell membrane depolarization | |
Biological Process | Regulation of heart rate by cardiac conduction | |
Biological Process | Regulation of ion transmembrane transport | |
Biological Process | Response to nickel cation |
▼ ORTHOLOGY
| DrLLPS ID | Organism | Identity | E-value | Score |
|---|---|---|---|---|
| LLPS-Gog-1886 | Gorilla gorilla | 98.18 | 0.0 | 956 |
| LLPS-Hos-1009 | Homo sapiens | 98.0 | 0.0 | 953 |
| LLPS-Chs-4045 | Chlorocebus sabaeus | 97.98 | 7e-33 | 144 |
| LLPS-Pat-2457 | Pan troglodytes | 97.81 | 0.0 | 952 |
| LLPS-Maf-3876 | Macaca fascicularis | 97.67 | 0.0 | 2848 |
| LLPS-Cea-4558 | Cercocebus atys | 97.67 | 0.0 | 2831 |
| LLPS-Man-4391 | Macaca nemestrina | 97.67 | 0.0 | 2849 |
| LLPS-Rhb-2516 | Rhinopithecus bieti | 97.49 | 0.0 | 2827 |
| LLPS-Caj-3572 | Callithrix jacchus | 97.32 | 0.0 | 2843 |
| LLPS-Mal-4669 | Mandrillus leucophaeus | 97.27 | 0.0 | 940 |
| LLPS-Paa-3514 | Papio anubis | 97.21 | 0.0 | 2800 |
| LLPS-Urm-0786 | Ursus maritimus | 97.1 | 3e-138 | 450 |
| LLPS-Aon-4317 | Aotus nancymaae | 96.99 | 0.0 | 2830 |
| LLPS-Pap-2458 | Pan paniscus | 96.76 | 0.0 | 2835 |
| LLPS-Mam-0716 | Macaca mulatta | 96.55 | 0.0 | 2816 |
| LLPS-Ict-3464 | Ictidomys tridecemlineatus | 95.67 | 0.0 | 2770 |
| LLPS-Caf-1096 | Canis familiaris | 95.05 | 0.0 | 2767 |
| LLPS-Otg-3970 | Otolemur garnettii | 94.95 | 0.0 | 2787 |
| LLPS-Mum-3061 | Mus musculus | 94.88 | 0.0 | 2708 |
| LLPS-Myl-1886 | Myotis lucifugus | 94.67 | 0.0 | 2642 |
| LLPS-Dio-3598 | Dipodomys ordii | 94.61 | 0.0 | 2752 |
| LLPS-Cas-3339 | Carlito syrichta | 94.55 | 0.0 | 2590 |
| LLPS-Ran-0286 | Rattus norvegicus | 94.54 | 0.0 | 2694 |
| LLPS-Sus-4785 | Sus scrofa | 94.42 | 0.0 | 2735 |
| LLPS-Bot-4242 | Bos taurus | 94.08 | 0.0 | 2751 |
| LLPS-Eqc-0169 | Equus caballus | 93.76 | 0.0 | 2632 |
| LLPS-Loa-3694 | Loxodonta africana | 93.68 | 0.0 | 2739 |
| LLPS-Mup-3158 | Mustela putorius furo | 93.22 | 0.0 | 2574 |
| LLPS-Fec-1915 | Felis catus | 93.22 | 0.0 | 2753 |
| LLPS-Cap-3305 | Cavia porcellus | 92.71 | 0.0 | 2709 |
| LLPS-Fud-2786 | Fukomys damarensis | 92.3 | 0.0 | 2560 |
| LLPS-Nol-2306 | Nomascus leucogenys | 91.12 | 0.0 | 3511 |
| LLPS-Ova-0730 | Ovis aries | 91.01 | 5e-175 | 570 |
| LLPS-Mod-2504 | Monodelphis domestica | 86.37 | 0.0 | 2447 |
| LLPS-Sah-2437 | Sarcophilus harrisii | 85.92 | 0.0 | 2554 |
| LLPS-Fia-1950 | Ficedula albicollis | 79.88 | 0.0 | 2248 |
| LLPS-Pes-3727 | Pelodiscus sinensis | 79.75 | 0.0 | 2222 |
| LLPS-Tag-0587 | Taeniopygia guttata | 79.19 | 0.0 | 2234 |
| LLPS-Gaga-2961 | Gallus gallus | 79.18 | 0.0 | 2299 |
| LLPS-Ora-2887 | Ornithorhynchus anatinus | 78.75 | 0.0 | 692 |
| LLPS-Anc-0906 | Anolis carolinensis | 77.17 | 0.0 | 2130 |
| LLPS-Lac-3907 | Latimeria chalumnae | 74.47 | 0.0 | 2029 |
| LLPS-Leo-2754 | Lepisosteus oculatus | 74.37 | 0.0 | 2033 |
| LLPS-Meg-1634 | Meleagris gallopavo | 74.06 | 0.0 | 1238 |
| LLPS-Xet-0268 | Xenopus tropicalis | 70.68 | 0.0 | 1948 |
| LLPS-Dar-0196 | Danio rerio | 69.78 | 0.0 | 1855 |
| LLPS-Icp-2941 | Ictalurus punctatus | 68.95 | 0.0 | 1920 |
| LLPS-Xim-2831 | Xiphophorus maculatus | 67.67 | 0.0 | 1823 |
| LLPS-Scm-2092 | Scophthalmus maximus | 67.21 | 0.0 | 1809 |
| LLPS-Gaa-2629 | Gasterosteus aculeatus | 66.38 | 0.0 | 1732 |
| LLPS-Tar-0161 | Takifugu rubripes | 64.83 | 0.0 | 1779 |
| LLPS-Ten-1533 | Tetraodon nigroviridis | 63.58 | 0.0 | 1679 |
| LLPS-Orn-1548 | Oreochromis niloticus | 57.54 | 0.0 | 1491 |