LLPS-Tag-0587
CACNA1G
Integrated Annotations
▼ OVERVIEW
| Status: | Unreviewed |
| Protein Name: | Voltage-dependent T-type calcium channel subunit alpha |
| Gene Name: | CACNA1G |
| Ensembl Gene: | ENSTGUG00000009049.1 |
| Ensembl Protein: | ENSTGUP00000009424.1 |
| Organism: | Taeniopygia guttata |
| Taxa ID: | 59729 |
| LLPS Type: | 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 | ENSTGUT00000009524.1 | ENSTGUP00000009424.1 |
| UniProt | H0ZFR2, H0ZFR2_TAEGU | |
| GeneBank | ABQF01044784, ABQF01044783 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 WFERVSMLVI LLNCVTLGMF HPCEDIACDS PRCRILQSFD DFIFAFFAVE MIIKMIALGI 60 61 FGKKCYLGDT WNRLDFFIVI AGMLEYSLDL QNVSFSAVRT VRVLRPLRAI NRVPSMRILV 120 121 TLLLDTLPML GNVLLLCFFV FFIFGIVGVQ LWAGLLRNRC FLPENFSIPY TVDLERYYQT 180 181 ENEDENPFIC SQPRENGMRY CRSIPTRREE GLECTLDYYS YNDTTNTSCV NWNQYYTNCS 240 241 AGEHNPFKGA INFDNIGYAW IAIFQVITLE GWVDIMYFVM DAHSFYNFIY FILLIIVGSF 300 301 FMINLCLVVI ATQFSETKQR ESQLMKEQRV RYLSNASTLA SFSEPGSCYD ELLKYLVYIA 360 361 RKGSKQLVKA YRAAGVRMGF LSSPTSKARA ERRARKRQGR KRSSVHHLIH HHHHHHHHYH 420 421 LGNGNLRAPR ASPEISDVET SSLHNGTNRL MLPPSAPNSL GAPSASPSNT ESVHSIYHAD 480 481 CHFEPVRCRL GLPSPEGIPQ NIVGSKVYPT VHSSTSHEML KEKNLGEAAV GAGSSTLTSL 540 541 NIPPSPYSTM HKLLETQSTG ACQSSCKISS PCSKLDGGSC SPESCPYCLT ALAGEAELSD 600 601 NDTADSDSEG VYEFTQDAHY SDQRDPQRGR ARARKAHLVL AFWHVVCETF QKIVDSKYFG 660 661 RGIMVAILIN TLSMGIEYHE QPEELTNALE ISNIVFTSLF ALEMLLKVLV YGPFGYIKNP 720 721 YNIFDGIIVV ISVWEIVGQQ GGGLSVLRTF RLMRVLKLVR FMPALQRQLV VLMKTMDNVA 780 781 TFCMLLMLFI FIFSILGMHL FGCKFASERD GDTLPDRKNF DSLLWAIVTV FQILTQEDWN 840 841 KVLYNGMAST SSWAALYFIA LMTFGNYVLF NLLVAILVEG FQTEELSKRE EASGQLSCIQ 900 901 LPVDSAGGDA SKSDSEGDLF PHSLEEEGEL KKNLSNPACD EHPELKKSLT PPLIIHTAAT 960 961 PMPMPKSAVF GDAPQGHESR RASGVSVDPV GAHELKSPPS ARSSPHSPWR ASSSWNSRRS 1020 1021 SWNSIGRAPS LKRRGQSGER RSLLSGEGQE SSEEGDSSDE EHSSRAGSFN GSLPQRMESL 1080 1081 ETKGSFDLQD TLQVPSLYRT SSMHSTRTSV SEHQDCNGRT SPGLLLHQLH LDEPHQDGDD 1140 1141 GDDEGSMSKR DRVKAWVRAR LPTCCTERDS WSIYIFAPHS RFRLMCNKII THKMFDHVVL 1200 1201 VIIFLNCITI AMERPKIEPH SAERIFLTLS NYIFTVIFLT EMTVKVVALG LCFGEKAYLK 1260 1261 SSWNVLDGVL VLISVIDILV SMVSDSGTKI LGMLRVLRLL RTLRPLRVIS RAQGLKLVVE 1320 1321 TLMSSLKPIG NIVVICCAFF IIFGILGVQL FKGKFFVCQG EDTRNITNKS DCTEASYKWV 1380 1381 RHKYNFDNLG QALMSLFVLA SKDGWVDIMY DGLDAVGVDQ QPVMNYNPWM LLYFISFLLI 1440 1441 VAFFVLNMFV GVVVENFHKC RQHQEEEEAK RREEKRLRRL EKKRRNSMLL NPLIASRSPA 1500 1501 PAEAQCKPYY SDYSRFRLLI HQMCTSHYLD LFITGVIGLN VITMAMEHYQ QPKVLDEALK 1560 1561 ICNYIFTVIF VMESVFKLIA FGFRRFFQDR WNQLDLAIVL LSIMGITLEE IEVNASLPIN 1620 1621 PTIIRIMRVL RIARVLKLLK MAVGMRALLD TVMQALPQVG NLGLLFMLLF FIFAALGVEL 1680 1681 FGDLECDDTH PCEGLGRHAT FRNFGMAFLT LFRVSTGDNW NGIMKDTLRD CDQESTCYNT 1740 1741 VISPIYFVSF VLTAQFVLVN VVIAVLMKHL EESNKEAKEE AELEAELEME MKTIGPGQHG 1800 1801 PSDIFAWTGT TSGERPESPR GFANPMQIKG DSQLSLAYHM ERHLFDTISL LIQESLEGEL 1860 1861 KLMDNLSGSV CHHYALPAPE YYNSENQIPL AEMEALSLTS DILSEKSWSL ALTDDSFPDD 1920 1921 IKTHLLNALE SNGQPQHFAL PAQDLLSVRK PSVGRTHSLP NDSYMFQPPY SSPSPASLGD 1980 1981 RRPAHHKSQS GSKASVQSQP ADTSSLLQIP KDHFHPARAP NHLVGESKPR ISQQVHSPSA 2040 2041 ERLLRRQMAI RNDSLDSKEN LHTEVSELSD PNVPTLAAWS RASVHTQQHS HNQYNISKQA 2100 2101 PASYSYQETP EDSMDQEVSE INSSSEPFTS ETCTASSACS EGQPLTPKRN DLKKYHSVDT 2160 2161 QGLLKKPPSW LDDQRRHSIE ICSIENSPQH HSTSSSSGFI SQMECLQGTR QKKKLSPPCI 2220 2221 SIDPPDGQRP HSISPASGDV CLRRRAPSCE SKDSMDIGDS LLPDSMSTSP TPKKDLLTLP 2280 2281 SFSFDQTEMD P 2291 |
| Nucleotide CDS Sequence (FASTA) |
1 TGGTTTGAGA GGGTCAGCAT GCTGGTGATC CTGCTCAACT GCGTGACGCT GGGCATGTTC 60 61 CACCCCTGCG AGGACATCGC CTGCGACTCG CCGCGCTGCA GGATCCTCCA GAGCTTTGAT 120 121 GACTTCATCT TTGCCTTCTT TGCTGTGGAA ATGATCATCA AAATGATTGC GCTGGGGATT 180 181 TTTGGGAAGA AATGCTACCT GGGAGACACA TGGAACCGCC TGGACTTCTT CATCGTCATT 240 241 GCAGGGATGC TGGAGTATTC CCTGGACCTG CAGAACGTCA GCTTCTCAGC CGTCCGCACT 300 301 GTCCGAGTCC TGCGGCCACT CAGGGCCATT AACAGGGTCC CCAGTATGCG CATCCTGGTG 360 361 ACGCTGCTTT TGGACACGCT GCCCATGCTG GGGAACGTCC TCCTCCTCTG CTTCTTCGTC 420 421 TTCTTCATCT TCGGCATCGT GGGAGTCCAG CTGTGGGCAG GTTTGCTCAG GAACCGCTGC 480 481 TTCCTCCCCG AGAACTTCAG CATCCCCTAC ACAGTGGATT TGGAGCGGTA CTACCAGACA 540 541 GAGAATGAAG ATGAAAATCC CTTCATCTGC TCCCAGCCCC GGGAGAATGG GATGCGCTAC 600 601 TGCCGGAGCA TCCCAACACG GAGGGAAGAG GGGCTGGAGT GCACTCTGGA TTATTATTCC 660 661 TACAATGACA CCACCAACAC CTCTTGTGTG AACTGGAACC AGTACTACAC CAACTGCTCT 720 721 GCTGGGGAGC ACAACCCCTT CAAGGGAGCC ATCAACTTTG ATAACATTGG CTATGCCTGG 780 781 ATTGCAATAT TTCAGGTCAT CACGCTGGAA GGCTGGGTGG ACATCATGTA CTTTGTCATG 840 841 GATGCACACT CCTTCTACAA CTTCATCTAC TTCATCCTCC TGATCATTGT GGGCTCCTTC 900 901 TTCATGATCA ATCTGTGCCT GGTGGTGATA GCGACGCAGT TCTCCGAGAC GAAGCAGCGC 960 961 GAGAGCCAGC TGATGAAGGA GCAGCGCGTG CGGTACCTGT CCAACGCCAG CACCCTTGCC 1020 1021 AGTTTCTCAG AGCCAGGAAG CTGCTACGAT GAGCTCCTCA AGTACCTGGT TTACATTGCC 1080 1081 CGGAAAGGCA GCAAGCAGCT GGTGAAGGCC TACAGGGCAG CAGGCGTGAG GATGGGCTTC 1140 1141 CTCAGCAGCC CCACCAGCAA GGCGAGGGCC GAGCGGCGCG CCAGGAAGCG CCAGGGCAGG 1200 1201 AAGAGATCCT CCGTGCACCA CCTCATCCAC CACCACCACC ACCACCACCA CCACTACCAC 1260 1261 CTGGGCAACG GGAACCTGCG AGCGCCCCGT GCCAGCCCGG AGATCAGCGA CGTAGAGACC 1320 1321 AGCTCCCTGC ACAACGGCAC CAACCGGCTG ATGCTCCCTC CCTCAGCACC CAACTCCCTG 1380 1381 GGGGCCCCCA GCGCCTCTCC CAGCAACACC GAGTCCGTGC ACAGCATCTA CCACGCCGAC 1440 1441 TGTCACTTTG AGCCGGTGCG CTGCCGCCTC GGCTTGCCAA GCCCAGAAGG GATCCCCCAG 1500 1501 AACATAGTGG GCAGCAAGGT GTACCCCACA GTGCACTCCA GCACCTCCCA TGAGATGCTG 1560 1561 AAGGAGAAGA ACCTGGGGGA GGCGGCGGTG GGCGCTGGGA GCAGCACCTT GACGAGCCTC 1620 1621 AACATCCCGC CCAGTCCGTA CAGCACCATG CACAAGCTGC TGGAGACACA GAGCACAGGT 1680 1681 GCCTGCCAAA GCTCTTGTAA GATCTCCAGC CCCTGCAGCA AGCTGGATGG TGGCTCCTGC 1740 1741 AGCCCTGAGA GCTGCCCTTA CTGCCTGACG GCGCTGGCGG GCGAGGCCGA GCTCTCGGAC 1800 1801 AATGACACGG CCGACTCGGA CAGCGAGGGG GTCTATGAGT TCACACAGGA TGCCCACTAC 1860 1861 AGTGACCAGC GGGACCCACA GAGGGGCAGA GCCCGGGCCA GAAAAGCCCA CCTGGTGCTG 1920 1921 GCCTTCTGGC ATGTGGTGTG TGAGACTTTC CAGAAGATTG TGGACAGCAA ATATTTTGGC 1980 1981 CGTGGGATCA TGGTGGCCAT TCTTATTAAC ACACTCAGCA TGGGGATCGA GTACCACGAG 2040 2041 CAGCCAGAGG AACTTACCAA TGCCCTGGAG ATCAGCAACA TTGTCTTCAC AAGCCTCTTT 2100 2101 GCCCTGGAGA TGCTGTTGAA AGTCCTTGTT TATGGTCCTT TTGGCTACAT TAAGAATCCA 2160 2161 TACAACATCT TTGATGGGAT CATTGTGGTG ATTAGCGTGT GGGAGATCGT GGGCCAGCAG 2220 2221 GGCGGGGGGC TCTCGGTCCT GCGCACCTTT CGGCTCATGC GGGTGTTGAA GCTGGTCCGC 2280 2281 TTCATGCCAG CCCTGCAGCG CCAGCTCGTC GTCCTCATGA AGACCATGGA CAACGTGGCC 2340 2341 ACCTTCTGCA TGTTGCTGAT GCTCTTCATC TTCATCTTTA GCATCCTGGG CATGCACCTC 2400 2401 TTTGGCTGTA AGTTCGCTTC AGAGCGGGAT GGTGACACTC TGCCCGACAG GAAGAACTTC 2460 2461 GACTCCTTGC TTTGGGCCAT TGTCACTGTT TTCCAGATTT TGACCCAGGA AGACTGGAAC 2520 2521 AAGGTCCTTT ACAATGGCAT GGCCTCCACC TCATCCTGGG CTGCTCTCTA CTTCATCGCT 2580 2581 CTCATGACAT TTGGGAACTA CGTTCTCTTT AATCTGCTGG TGGCCATCCT GGTAGAGGGT 2640 2641 TTCCAGACAG AGGAGCTCTC CAAGCGAGAA GAGGCGAGTG GGCAGTTAAG CTGTATTCAG 2700 2701 CTGCCTGTCG ACTCGGCGGG GGGTGATGCT TCCAAGTCTG ATTCCGAGGG GGATCTGTTC 2760 2761 CCCCACAGCC TGGAAGAGGA GGGAGAACTT AAGAAAAACT TGTCAAATCC AGCCTGTGAC 2820 2821 GAGCACCCGG AGCTGAAGAA GAGCCTGACC CCTCCGCTCA TCATCCACAC GGCCGCCACT 2880 2881 CCCATGCCCA TGCCCAAGAG CGCCGTGTTC GGGGACGCGC CGCAGGGCCA CGAGTCCCGC 2940 2941 CGGGCCAGCG GCGTCTCCGT GGATCCCGTG GGTGCCCACG AGCTCAAGTC CCCGCCCAGC 3000 3001 GCCCGCAGCT CCCCGCACAG CCCCTGGCGC GCCAGCAGCT CCTGGAACAG CCGCCGCTCC 3060 3061 AGCTGGAACA GCATCGGCCG AGCCCCCAGC CTCAAGCGCC GGGGGCAGAG CGGCGAGCGC 3120 3121 AGGTCCCTGC TGTCCGGAGA GGGCCAGGAG AGCTCGGAGG AAGGGGACAG CTCGGATGAG 3180 3181 GAGCACTCCA GCCGGGCCGG CAGCTTCAAT GGCTCTTTGC CTCAGCGCAT GGAGTCGCTG 3240 3241 GAAACAAAAG GCTCCTTTGA CCTCCAGGAT ACGCTGCAGG TGCCATCCCT GTATCGGACC 3300 3301 AGCAGCATGC ACAGCACCAG GACGTCTGTC TCCGAGCACC AGGACTGCAA TGGGAGGACC 3360 3361 TCTCCGGGCT TGCTGCTGCA CCAGCTCCAC CTGGATGAGC CCCACCAGGA TGGTGATGAC 3420 3421 GGCGATGATG AAGGTAGCAT GAGCAAAAGG GACCGTGTGA AGGCCTGGGT GCGGGCACGG 3480 3481 CTCCCCACCT GCTGCACCGA GAGGGACTCC TGGTCCATCT ACATCTTCGC CCCTCACTCC 3540 3541 AGATTCCGTC TGATGTGCAA TAAAATCATC ACTCACAAGA TGTTCGATCA CGTCGTCTTG 3600 3601 GTGATCATTT TCCTGAACTG CATTACCATT GCTATGGAAC GACCCAAAAT TGAGCCTCAC 3660 3661 AGCGCTGAAC GGATTTTCCT AACACTCTCC AACTACATCT TTACAGTCAT CTTCCTGACT 3720 3721 GAGATGACAG TTAAGGTGGT GGCACTAGGC TTGTGTTTTG GGGAGAAAGC CTACTTGAAG 3780 3781 AGCAGCTGGA ATGTGCTGGA CGGGGTGCTG GTGCTCATCT CCGTCATCGA CATCCTGGTC 3840 3841 TCGATGGTGT CCGACAGCGG CACGAAAATC CTGGGGATGC TGCGGGTCCT GAGGCTCCTG 3900 3901 AGGACACTGC GGCCCTTGAG AGTCATTAGT CGGGCCCAAG GGCTGAAGCT GGTGGTGGAG 3960 3961 ACTCTCATGT CATCCTTGAA ACCCATTGGG AACATTGTGG TCATCTGCTG TGCCTTTTTC 4020 4021 ATAATCTTTG GGATCTTGGG AGTTCAGCTT TTCAAAGGCA AGTTTTTTGT GTGCCAGGGG 4080 4081 GAGGACACCA GAAACATCAC TAATAAATCG GATTGTACAG AAGCAAGCTA CAAATGGGTC 4140 4141 CGGCACAAGT ATAATTTTGA TAATCTCGGC CAGGCCCTGA TGTCTCTCTT TGTCCTGGCC 4200 4201 TCCAAGGACG GGTGGGTGGA TATCATGTAT GATGGCTTGG ATGCTGTGGG AGTCGACCAG 4260 4261 CAGCCAGTCA TGAACTACAA TCCGTGGATG CTCCTCTACT TCATTTCGTT CTTGCTGATT 4320 4321 GTGGCCTTCT TCGTCCTCAA CATGTTTGTG GGGGTGGTGG TGGAGAATTT CCACAAGTGT 4380 4381 CGGCAGCACC AGGAGGAGGA AGAGGCCAAG AGGCGGGAGG AAAAAAGGCT CCGCCGGCTG 4440 4441 GAGAAAAAGA GAAGGAACAG TATGTTGCTA AATCCCTTGA TTGCCTCTCG CTCTCCTGCC 4500 4501 CCTGCAGAAG CTCAGTGTAA GCCCTACTAC TCGGATTACT CCCGTTTCCG CCTCCTGATT 4560 4561 CACCAGATGT GCACCAGCCA CTACCTGGAC CTGTTCATCA CCGGCGTCAT CGGCCTCAAC 4620 4621 GTCATCACCA TGGCCATGGA GCACTACCAG CAGCCAAAGG TTCTTGACGA AGCCCTGAAG 4680 4681 ATTTGCAATT ACATCTTCAC CGTTATCTTT GTCATGGAAT CTGTTTTCAA GCTTATTGCC 4740 4741 TTTGGGTTTC GCCGCTTCTT CCAAGACAGA TGGAACCAAT TAGATCTGGC AATTGTGCTG 4800 4801 CTGTCTATCA TGGGTATCAC TTTGGAAGAG ATCGAGGTGA ATGCTTCACT ACCAATTAAC 4860 4861 CCCACCATTA TCCGGATCAT GAGGGTTCTC AGGATCGCCC GAGTGCTGAA GTTGCTGAAG 4920 4921 ATGGCTGTGG GGATGAGGGC CCTCCTGGAC ACCGTGATGC AAGCACTACC GCAGGTGGGG 4980 4981 AATCTGGGCC TTCTCTTCAT GTTGTTGTTT TTCATATTTG CAGCTCTTGG AGTGGAGCTG 5040 5041 TTTGGAGACC TTGAGTGTGA TGACACACAC CCTTGCGAGG GGCTGGGACG GCATGCCACA 5100 5101 TTCAGGAACT TTGGGATGGC CTTCCTGACC CTCTTCCGAG TATCCACAGG AGACAACTGG 5160 5161 AATGGGATAA TGAAGGACAC GCTGCGTGAC TGTGACCAGG AGTCCACCTG TTACAACACC 5220 5221 GTCATCTCCC CCATCTACTT CGTCTCCTTC GTGCTGACAG CCCAGTTTGT CCTGGTCAAT 5280 5281 GTGGTGATCG CGGTGCTCAT GAAGCACTTG GAGGAGAGCA ACAAGGAGGC CAAGGAGGAG 5340 5341 GCGGAGCTGG AAGCAGAACT GGAGATGGAG ATGAAGACCA TCGGCCCTGG CCAGCACGGC 5400 5401 CCCTCGGACA TCTTTGCGTG GACAGGCACC ACCAGTGGAG AGAGACCCGA GAGCCCCCGC 5460 5461 GGATTTGCCA ATCCCATGCA AATCAAGGGG GATTCTCAGC TCTCCCTAGC TTATCATATG 5520 5521 GAAAGACACT TGTTTGATAC CATATCACTG CTGATCCAGG AATCTCTGGA AGGAGAGCTG 5580 5581 AAGCTGATGG ACAACCTGTC AGGCTCTGTG TGCCATCATT ATGCCCTCCC AGCTCCCGAA 5640 5641 TATTACAACT CTGAGAACCA GATCCCTCTA GCTGAGATGG AGGCTCTATC TCTGACGTCA 5700 5701 GATATTCTCT CTGAAAAGTC CTGGTCCTTA GCTCTGACGG ATGACTCTTT TCCTGATGAC 5760 5761 ATTAAAACAC ACTTACTTAA TGCTCTGGAA AGCAATGGTC AGCCCCAACA CTTCGCTTTA 5820 5821 CCAGCACAGG ACCTGCTGAG CGTGAGGAAG CCCTCGGTGG GACGCACGCA CTCGCTGCCG 5880 5881 AACGACAGCT ACATGTTCCA GCCGCCCTAC TCCAGCCCCA GCCCTGCCTC CCTGGGTGAC 5940 5941 AGGAGACCCG CACACCACAA GTCCCAGTCA GGTTCAAAGG CGTCAGTGCA GTCGCAGCCA 6000 6001 GCAGACACCA GCTCCCTCCT GCAAATCCCA AAGGACCATT TCCACCCTGC AAGAGCTCCC 6060 6061 AACCATTTGG TGGGGGAGAG CAAGCCCCGG ATCTCCCAGC AGGTACACTC CCCTTCTGCT 6120 6121 GAAAGGCTGC TCCGCAGACA GATGGCTATA AGGAACGACT CTCTGGACAG CAAGGAGAAT 6180 6181 CTCCACACCG AGGTGAGTGA ACTCTCTGAC CCAAACGTTC CCACTTTGGC TGCCTGGAGT 6240 6241 CGGGCAAGCG TCCATACGCA GCAGCATTCC CACAATCAGT ATAATATTTC AAAGCAGGCA 6300 6301 CCAGCATCCT ACTCGTATCA GGAGACCCCT GAAGATTCAA TGGACCAAGA AGTATCTGAA 6360 6361 ATCAACAGCT CCTCAGAGCC TTTCACTTCA GAAACTTGCA CAGCCTCGAG TGCCTGTTCG 6420 6421 GAGGGTCAGC CTCTCACGCC TAAGAGGAAC GACCTGAAGA AATACCACAG TGTAGACACC 6480 6481 CAGGGGCTGC TAAAAAAACC ACCCTCTTGG TTAGATGATC AAAGGAGACA TTCAATAGAG 6540 6541 ATTTGTTCCA TAGAAAACAG CCCTCAGCAC CATTCCACAT CCAGCTCCTC TGGCTTTATA 6600 6601 AGTCAGATGG AATGCCTGCA AGGTACACGA CAGAAGAAGA AACTGAGCCC TCCCTGTATA 6660 6661 TCTATAGATC CACCTGACGG GCAGAGACCC CACAGCATCT CACCTGCCAG TGGAGACGTT 6720 6721 TGCTTGAGGA GGCGTGCTCC ATCCTGTGAG TCCAAGGATT CCATGGATAT AGGGGATTCA 6780 6781 CTGCTTCCAG ACAGTATGTC AACATCTCCT ACCCCAAAGA AAGACTTGTT GACACTTCCT 6840 6841 AGCTTTTCCT TTGATCAAAC CGAAATGGAC CCCTGA 6876 |
▼ 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-Fia-1950 | Ficedula albicollis | 93.25 | 0.0 | 3700 |
| LLPS-Urm-0786 | Ursus maritimus | 89.85 | 3e-128 | 422 |
| LLPS-Gaga-2961 | Gallus gallus | 87.96 | 0.0 | 3512 |
| LLPS-Pes-3727 | Pelodiscus sinensis | 86.47 | 0.0 | 3418 |
| LLPS-Meg-1634 | Meleagris gallopavo | 86.03 | 0.0 | 1769 |
| LLPS-Anc-0906 | Anolis carolinensis | 82.91 | 0.0 | 3243 |
| LLPS-Chs-4045 | Chlorocebus sabaeus | 81.92 | 0.0 | 2429 |
| LLPS-Mod-2504 | Monodelphis domestica | 81.21 | 0.0 | 2474 |
| LLPS-Ran-0286 | Rattus norvegicus | 80.71 | 0.0 | 2396 |
| LLPS-Poa-2575 | Pongo abelii | 80.09 | 0.0 | 2229 |
| LLPS-Mup-3158 | Mustela putorius furo | 79.91 | 0.0 | 2371 |
| LLPS-Lac-3907 | Latimeria chalumnae | 75.65 | 0.0 | 2904 |
| LLPS-Cea-4558 | Cercocebus atys | 74.94 | 0.0 | 2770 |
| LLPS-Mal-4669 | Mandrillus leucophaeus | 74.91 | 0.0 | 2758 |
| LLPS-Maf-3876 | Macaca fascicularis | 74.89 | 0.0 | 2775 |
| LLPS-Man-4391 | Macaca nemestrina | 74.89 | 0.0 | 2775 |
| LLPS-Aon-4317 | Aotus nancymaae | 74.86 | 0.0 | 2779 |
| LLPS-Rhb-2516 | Rhinopithecus bieti | 74.85 | 0.0 | 2768 |
| LLPS-Caj-3572 | Callithrix jacchus | 74.82 | 0.0 | 2777 |
| LLPS-Paa-3514 | Papio anubis | 74.68 | 0.0 | 2744 |
| LLPS-Gog-1886 | Gorilla gorilla | 74.59 | 0.0 | 2784 |
| LLPS-Pat-2457 | Pan troglodytes | 74.55 | 0.0 | 2783 |
| LLPS-Hos-1009 | Homo sapiens | 74.51 | 0.0 | 2784 |
| LLPS-Mam-0716 | Macaca mulatta | 74.39 | 0.0 | 2749 |
| LLPS-Caf-1096 | Canis familiaris | 74.33 | 0.0 | 2750 |
| LLPS-Myl-1886 | Myotis lucifugus | 74.21 | 0.0 | 2726 |
| LLPS-Pap-2458 | Pan paniscus | 74.17 | 0.0 | 2784 |
| LLPS-Ict-3464 | Ictidomys tridecemlineatus | 74.0 | 0.0 | 2749 |
| LLPS-Eqc-0169 | Equus caballus | 73.91 | 0.0 | 2726 |
| LLPS-Loa-3694 | Loxodonta africana | 73.89 | 0.0 | 2757 |
| LLPS-Sus-4785 | Sus scrofa | 73.8 | 0.0 | 2736 |
| LLPS-Fec-1915 | Felis catus | 73.62 | 0.0 | 2734 |
| LLPS-Cas-3339 | Carlito syrichta | 73.49 | 0.0 | 2691 |
| LLPS-Sah-2437 | Sarcophilus harrisii | 73.46 | 0.0 | 2761 |
| LLPS-Mum-3061 | Mus musculus | 73.43 | 0.0 | 2710 |
| LLPS-Fud-2786 | Fukomys damarensis | 73.33 | 0.0 | 2693 |
| LLPS-Dio-3598 | Dipodomys ordii | 73.33 | 0.0 | 2741 |
| LLPS-Bot-4242 | Bos taurus | 73.27 | 0.0 | 2738 |
| LLPS-Cap-3305 | Cavia porcellus | 73.14 | 0.0 | 2709 |
| LLPS-Icp-2941 | Ictalurus punctatus | 72.57 | 0.0 | 2105 |
| LLPS-Otg-3970 | Otolemur garnettii | 72.44 | 0.0 | 2690 |
| LLPS-Dar-0196 | Danio rerio | 72.2 | 0.0 | 2103 |
| LLPS-Orn-1548 | Oreochromis niloticus | 71.39 | 3e-141 | 496 |
| LLPS-Leo-2754 | Lepisosteus oculatus | 71.23 | 0.0 | 2645 |
| LLPS-Xet-0268 | Xenopus tropicalis | 70.01 | 0.0 | 2544 |
| LLPS-Nol-2306 | Nomascus leucogenys | 68.77 | 0.0 | 2440 |
| LLPS-Ora-2887 | Ornithorhynchus anatinus | 68.76 | 0.0 | 1080 |
| LLPS-Gaa-2629 | Gasterosteus aculeatus | 68.19 | 0.0 | 1946 |
| LLPS-Tar-0161 | Takifugu rubripes | 68.07 | 0.0 | 1999 |
| LLPS-Ova-0730 | Ovis aries | 67.69 | 0.0 | 1088 |
| LLPS-Scm-2092 | Scophthalmus maximus | 66.16 | 0.0 | 2211 |
| LLPS-Ten-1533 | Tetraodon nigroviridis | 65.66 | 0.0 | 1917 |
| LLPS-Xim-2831 | Xiphophorus maculatus | 61.92 | 0.0 | 2302 |