LLPS-Sah-2437
CACNA1G
Integrated Annotations
▼ OVERVIEW
| Status: | Unreviewed |
| Protein Name: | Voltage-dependent T-type calcium channel subunit alpha |
| Gene Name: | CACNA1G |
| Ensembl Gene: | ENSSHAG00000005640.1 |
| Ensembl Protein: | ENSSHAP00000006481.1 |
| Organism: | Sarcophilus harrisii |
| Taxa ID: | 9305 |
| 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 | ENSSHAT00000006537.1 | ENSSHAP00000006481.1 |
| UniProt | G3VTH6, G3VTH6_SARHA | |
| GeneBank | AEFK01179643, AEFK01179647, AEFK01179646, AEFK01179645, AEFK01179648, AEFK01179644 |
▼ SEQUENCE
| Protein Sequence (FASTA) |
|---|
1 MDEEEDGAKA EEFGQSKTLV RLNDLSGAGG LLGPGPGDKD PGSTDSEPEG LPYPALAPVV 60 61 FFYLSQESRP RSWCLRLVCN PWFERVSMLV ILLNCVTLGM FQPCEDIACD SQRCRILQAF 120 121 DDFIFAFFAV EMVVKMVALG IFGKKCYLGD TWNRLDFFIV IAGMLEYSLD LQNVSFSAVR 180 181 TVRVLRPLRA INRVPTTVSP LIQLKVIQAS QPVVGTVGML CFFVFFIFGI VGVQLWAGLL 240 241 RNRCFLPENF SIPLSVDLER YYQTENEDES PFICSQPREN GMRSCRSVPT LRGEGGGGPP 300 301 CGLDYEAYNS SSNTTCVNWN QYYTNCSAGE HNPFKGAINF DNIGYAWIAI FQVITLEGWV 360 361 DIMYFVMDAH SFYNFIYFIL LIIVGSFFMI NLCLVVIATQ FSETKQRESQ LMKEQRVRFL 420 421 SNASTLASFS EPGSCYEELL KYLVYILRKA ARRLAQASRV VGARAGLLAS PAGRGVSETQ 480 481 PSGSGSCSRS RRRRPSIHHL VHHHHHHHHH YHLGNGTLRA PHANPEISDG DASETRRLML 540 541 PAPPTSAHPG GSPGGSESVH SFYHADCHLE PLRCQASPAR SSPEGPGRNM GGGKVYPTVH 600 601 SRSPPKVLKE KALVEAAPTS GPPTLTNLNI PPGPYSSMHK LLETQSTGSC QGSCRISSPC 660 661 GKAESGDSGP DNCPYCTPTQ AGEAELMDPE LHDSDSEGIY EFTQDAQHGD HRDPHWGPSQ 720 721 GQGQEPSPLM AFWTLVCETF RKIVDSKYFG RGIMIAILIN TLSMGIEYHE QPEELTNALE 780 781 ISNIVFTSLF ALEMLLKLLV YGPFGYIKNP YNIFDGVIVV ISVWEIVGQQ GGGLSVLRTF 840 841 RLMRVLKLVR FLPALQRQLV VLMKTMDNVA TFCMLLMLFI FIFSILGMHL FGCKFASERD 900 901 GDTLPDRKNF DSLLWAIVTV FQILTQEDWN KVLYNGMAST SSWAALYFIA LMTFGNYVLF 960 961 NLLVAILVEG FQTEEISKRE DAGGQLSCIQ LPVDSLGGDA TKSESETDFF SPSLDGKGDR 1020 1021 KKHLALMSLG EHPELRKSLL PPLIIHTAAT PMPLPKSVGL GEASGPASRR PSGSGSNDPN 1080 1081 VAHEIKSPPS VRSSPHSPWS AASSWNSRRS SWNSLGRAPS LKRRSPSGER RSLLSGDGRE 1140 1141 SMEEDETSDE DQASRVGSDP RAGSVDRETK GSFDLQDTLQ VPGVYRTASG QSSASEHQDC 1200 1201 NGKTASGHPD RNLQLDEPQL EGDDADDEGN MSKGERFRAW IRSWLPTCCR ERDTWSAYIF 1260 1261 PPQSKFRLMC HKIITHKMFD HVVLVIIFLN CITIAMERPK IDPHSAERIF LTLSNYIFTA 1320 1321 IFLAEMTVKV VALGWCFGEK AYLRSSWNIL DGLLVLISVI DILVSMVSDS GTKILGMLRV 1380 1381 LRLLRTLRPL RVISRAQGLK LVVETLMSSL KPIGNIVVIC CAFFIIFGIL GVQLFKGKFF 1440 1441 ICQGEDTRNI TNKSDCTEAS YRWVRHKYNF DNLGQALMSL FVLASKDGWV DIMYDGLDAV 1500 1501 GVDQQPIMNH NPWMLLYFIS FLLIVAFFVL NMFVGVVVEN FHKCRQHQEE EEARRREEKR 1560 1561 LRRMEKKRRN LMLDDVITPG SSASAAPEAQ CKPYYSDYSR FRLLVHHMCT SHYLDLFITG 1620 1621 VIGLNVVTMA MEHYQQPQIL DEALKICNYI FTVIFVLESV FKLVAFGFRR FFQDRWNQLD 1680 1681 LAIVLLSIMG ITLEEIEVNA SLPINPTIIR IMRVLRIARV LKLLKMAVGM RALLDTVMQA 1740 1741 LPQVGNLGLL FMLLFFIFAA LGVELFGDLE CDETHPCEGL GRHATFRNFG MAFLTLFRVS 1800 1801 TGDNWNGIMK DTLRDCDQES TCYNTVISPI YFVSFVLTAQ FVLVNVVIAV LMKHLEESNK 1860 1861 EAKEEAELEA ELEMEMKTLA PSQPPMPGDP FSWPRGEGGS DSQPGSPKLR APQALHVKVA 1920 1921 SQLSLTHPTD RQLFDTISLL IQGSLEGELK LMDELSSSLG RPYTFPPAPG QGDSEPQIPL 1980 1981 AEMEALSLTS DILSEQSCSL ALTDDSLPDD THILLLSALE RNTVTLPYPE GILATGPSAF 2040 2041 QPSLLTIRKS GVSRTHSLPN DSYMFRDGGS YQGSVGQRAW MLPKSQSAGS TTSIHSQPVD 2100 2101 ARALLQLPKD GSHQLQLYDL SSWGMIPKLP PPGCSPSAQR QLRRQAAIRT DSVDMQFVGS 2160 2161 REDVVAEVSV SPTMAPQDTP SWGRSSIRVQ QCPRNQCRKS KHTPPAPCLM REAPLQDRCQ 2220 2221 PGHEASETIS CLELHAQPSW GSSPGPQHPP TQKGGEHLRD LKKCYSAETQ GCPRRPTLWP 2280 2281 DEQRRHSIAV SSLDSCSQTC PGPGALSLGG QELNRPGIGS KSWPKKKLSP PCISIEPPDS 2340 2341 QGPRPLPNPG VCLRRRSPST DSKDPLAPDS MAISSPPPKK DLLMLSSFSS DQLDLEP 2397 |
| Nucleotide CDS Sequence (FASTA) |
1 ATGGACGAAG AGGAAGATGG AGCCAAAGCC GAAGAGTTCG GGCAGTCCAA GACCTTGGTG 60 61 CGGCTCAACG ACCTGTCAGG AGCTGGGGGC CTACTGGGGC CGGGGCCAGG AGACAAAGAC 120 121 CCAGGCAGTA CGGACTCGGA ACCGGAGGGA CTGCCCTACC CTGCGCTTGC CCCGGTGGTT 180 181 TTCTTCTACC TGAGCCAGGA GAGTCGACCC AGGAGCTGGT GTCTCCGCCT GGTCTGTAAC 240 241 CCATGGTTCG AACGGGTCAG CATGCTGGTT ATCCTGCTGA ACTGTGTGAC TCTGGGCATG 300 301 TTTCAACCAT GTGAGGACAT CGCCTGTGAT TCCCAGCGCT GCCGGATCTT GCAGGCCTTT 360 361 GACGACTTCA TCTTCGCCTT CTTCGCTGTG GAGATGGTGG TGAAGATGGT TGCCTTGGGC 420 421 ATCTTCGGGA AGAAGTGTTA CTTGGGAGAT ACCTGGAACC GGCTGGATTT TTTCATCGTT 480 481 ATTGCAGGGA TGCTCGAATA TTCCCTGGAC CTTCAGAATG TCAGTTTCTC TGCCGTTCGG 540 541 ACCGTCAGAG TGTTACGGCC TCTTCGAGCA ATTAATCGAG TCCCCACCAC TGTTTCCCCA 600 601 CTGATCCAAC TCAAAGTCAT TCAAGCCAGC CAGCCAGTGG TAGGGACTGT TGGTATGCTC 660 661 TGTTTCTTCG TCTTCTTCAT CTTTGGCATT GTGGGGGTCC AGCTTTGGGC TGGGCTCCTT 720 721 CGGAACCGAT GCTTCCTTCC AGAGAATTTT AGCATCCCTC TGAGTGTGGA CTTAGAACGC 780 781 TACTATCAGA CTGAAAACGA GGATGAGAGC CCTTTCATCT GCTCCCAGCC CCGAGAGAAC 840 841 GGGATGCGCT CCTGTCGAAG TGTTCCCACG CTTCGAGGAG AAGGGGGCGG TGGCCCTCCT 900 901 TGCGGCCTTG ACTACGAAGC CTACAACAGC TCTAGTAATA CCACCTGTGT CAACTGGAAC 960 961 CAATATTACA CCAACTGCTC TGCCGGGGAG CACAACCCCT TCAAGGGAGC CATCAACTTC 1020 1021 GACAACATTG GCTACGCCTG GATTGCCATC TTCCAGGTCA TCACGCTCGA GGGCTGGGTA 1080 1081 GATATCATGT ACTTTGTGAT GGATGCTCAT TCCTTTTACA ACTTCATCTA CTTCATTCTT 1140 1141 CTTATCATTG TGGGCTCCTT CTTCATGATC AACCTGTGCC TGGTGGTGAT TGCCACCCAG 1200 1201 TTCTCAGAGA CTAAGCAGAG AGAGAGTCAG TTGATGAAGG AGCAGCGGGT TCGATTCCTG 1260 1261 TCCAACGCCA GCACGTTGGC CAGCTTCTCT GAACCGGGTA GCTGCTATGA GGAGCTGCTC 1320 1321 AAGTACCTGG TGTATATTCT CCGGAAAGCT GCCCGGAGGC TGGCCCAAGC CTCCAGGGTG 1380 1381 GTAGGGGCTC GAGCTGGCCT CCTAGCCAGT CCTGCCGGCC GAGGAGTCTC TGAGACCCAG 1440 1441 CCCTCCGGCA GCGGGAGCTG CTCCCGTTCC CGTCGCCGTC GCCCATCCAT CCATCACCTG 1500 1501 GTTCACCATC ATCACCATCA TCATCACCAT TACCACCTGG GCAATGGAAC TCTGAGAGCT 1560 1561 CCACACGCCA ACCCAGAGAT CAGCGATGGA GACGCCAGTG AGACTCGTCG GCTCATGCTG 1620 1621 CCTGCACCGC CCACTAGTGC CCATCCTGGG GGTTCTCCTG GGGGTTCTGA ATCTGTACAC 1680 1681 AGCTTCTACC ATGCTGACTG CCACCTAGAG CCCCTGCGCT GCCAAGCATC CCCTGCCAGA 1740 1741 TCCTCTCCTG AGGGTCCGGG TAGGAATATG GGTGGAGGAA AGGTATACCC CACGGTGCAC 1800 1801 TCCAGGTCCC CACCCAAGGT GCTAAAGGAA AAGGCACTGG TAGAAGCAGC CCCTACCTCT 1860 1861 GGGCCCCCCA CTCTCACTAA CCTCAACATC CCACCTGGAC CTTATAGTTC CATGCACAAG 1920 1921 CTACTGGAGA CACAAAGCAC AGGTTCGTGT CAAGGCTCCT GCAGGATTTC CAGCCCCTGT 1980 1981 GGAAAGGCAG AGAGTGGGGA CTCTGGCCCA GATAACTGTC CCTACTGTAC TCCAACACAG 2040 2041 GCGGGAGAGG CTGAGCTGAT GGACCCAGAG CTGCATGACT CAGATAGTGA GGGCATCTAT 2100 2101 GAGTTCACAC AGGATGCCCA GCATGGCGAT CACCGGGACC CCCACTGGGG GCCAAGCCAG 2160 2161 GGCCAGGGCC AAGAGCCCAG CCCCTTGATG GCCTTCTGGA CACTGGTCTG TGAAACTTTT 2220 2221 CGGAAGATCG TGGACAGTAA ATACTTTGGT CGTGGGATCA TGATAGCTAT CCTTATCAAC 2280 2281 ACCCTCAGCA TGGGCATCGA GTATCATGAA CAGCCTGAGG AACTCACCAA TGCCCTGGAG 2340 2341 ATCAGCAACA TTGTCTTCAC CAGCCTCTTC GCCTTGGAGA TGCTGCTGAA GCTGCTGGTG 2400 2401 TACGGCCCCT TTGGCTACAT AAAGAACCCT TACAACATTT TCGATGGAGT CATTGTGGTC 2460 2461 ATTAGCGTGT GGGAGATTGT GGGCCAGCAA GGCGGAGGTC TGTCTGTACT TCGGACCTTC 2520 2521 CGGTTGATGA GGGTGTTGAA ACTCGTCCGT TTCCTGCCTG CTCTGCAGCG GCAGTTGGTG 2580 2581 GTCCTCATGA AGACCATGGA TAATGTGGCT ACTTTCTGCA TGCTACTTAT GCTCTTCATC 2640 2641 TTCATCTTCA GTATCCTGGG CATGCATCTC TTCGGCTGCA AGTTTGCATC TGAGAGAGAT 2700 2701 GGGGACACGC TGCCTGATCG GAAGAATTTT GACTCCTTGC TTTGGGCCAT TGTTACTGTC 2760 2761 TTCCAGATCC TGACTCAAGA GGATTGGAAC AAGGTCCTCT ATAATGGCAT GGCTTCTACG 2820 2821 TCCTCCTGGG CAGCTCTCTA CTTCATTGCC TTGATGACTT TTGGCAACTA CGTCCTCTTC 2880 2881 AATCTCCTCG TGGCTATCCT GGTTGAGGGA TTCCAGACCG AGGAAATCAG CAAACGGGAG 2940 2941 GATGCAGGTG GACAGTTAAG CTGTATTCAG CTGCCTGTCG ACTCCTTAGG GGGAGATGCT 3000 3001 ACCAAGTCGG AGTCGGAGAC AGATTTCTTC TCACCGAGCC TGGATGGGAA AGGGGACAGG 3060 3061 AAGAAGCACT TAGCCTTGAT GTCCCTGGGA GAGCATCCAG AGCTGAGGAA GAGTCTCCTG 3120 3121 CCGCCACTCA TTATCCATAC CGCCGCCACG CCCATGCCTT TGCCCAAGAG TGTTGGCTTA 3180 3181 GGGGAAGCTT CGGGCCCTGC TTCTCGAAGA CCCAGTGGTA GTGGATCCAA TGACCCCAAT 3240 3241 GTGGCCCATG AGATAAAGTC ACCGCCCAGT GTCCGAAGCT CCCCCCACAG CCCCTGGAGC 3300 3301 GCAGCGAGCA GCTGGAACAG CCGACGGTCC AGCTGGAACA GTCTTGGCCG GGCTCCCAGC 3360 3361 CTGAAGCGAC GGAGTCCAAG TGGGGAGCGT CGGTCCCTGC TGTCCGGGGA TGGGCGGGAG 3420 3421 AGCATGGAGG AGGACGAGAC CTCGGATGAG GATCAGGCCA GTCGGGTGGG GAGTGACCCC 3480 3481 CGGGCAGGTT CTGTGGACAG AGAGACCAAG GGCTCATTCG ACCTCCAGGA CACGCTCCAA 3540 3541 GTACCAGGAG TGTATCGCAC AGCCAGTGGC CAGAGCTCAG CCTCAGAGCA CCAGGACTGC 3600 3601 AATGGCAAGA CAGCATCGGG GCATCCTGAC CGAAACCTGC AGCTGGACGA GCCCCAATTA 3660 3661 GAAGGGGATG ATGCTGATGA TGAGGGCAAT ATGAGCAAAG GGGAGCGATT CAGAGCATGG 3720 3721 ATCCGATCTT GGCTCCCCAC CTGCTGCAGG GAGAGAGATA CTTGGTCTGC CTACATCTTC 3780 3781 CCTCCTCAGT CTAAGTTTCG ACTGATGTGC CATAAAATCA TCACCCACAA GATGTTTGAC 3840 3841 CATGTTGTCC TGGTCATAAT CTTTCTCAAC TGCATCACCA TTGCCATGGA GCGCCCCAAA 3900 3901 ATTGACCCCC ACAGTGCCGA GCGAATCTTC CTGACGCTTT CCAACTACAT TTTCACTGCA 3960 3961 ATCTTTCTGG CTGAGATGAC AGTGAAGGTA GTAGCCCTAG GCTGGTGCTT TGGGGAGAAG 4020 4021 GCTTATCTTC GGAGCAGCTG GAATATACTG GACGGGCTGC TTGTGCTCAT CTCTGTCATT 4080 4081 GACATCCTGG TTTCCATGGT CTCAGACAGT GGTACCAAGA TTCTGGGCAT GCTTAGGGTA 4140 4141 CTTCGGCTCC TCCGAACACT CCGACCACTC AGGGTCATCA GCAGGGCCCA GGGGCTAAAA 4200 4201 CTGGTGGTGG AGACCCTGAT GTCATCCCTG AAGCCCATTG GAAACATTGT GGTCATTTGC 4260 4261 TGTGCCTTCT TTATCATCTT CGGCATCTTG GGGGTGCAGC TCTTCAAAGG GAAGTTTTTC 4320 4321 ATATGCCAGG GTGAGGACAC AAGAAATATC ACCAATAAGT CAGACTGCAC TGAGGCCAGT 4380 4381 TATCGGTGGG TCAGACACAA ATACAACTTT GACAACCTGG GTCAGGCCCT CATGTCCTTG 4440 4441 TTTGTGCTGG CCTCCAAGGA TGGCTGGGTA GACATCATGT ATGATGGGCT GGATGCAGTG 4500 4501 GGTGTTGACC AGCAGCCCAT CATGAACCAC AATCCCTGGA TGCTGCTGTA TTTCATCTCC 4560 4561 TTCCTGCTCA TCGTGGCCTT CTTTGTGCTA AACATGTTCG TGGGGGTGGT GGTGGAGAAC 4620 4621 TTCCACAAGT GTCGGCAGCA CCAGGAAGAA GAGGAGGCCC GTCGCCGGGA AGAAAAGCGG 4680 4681 CTGCGGCGGA TGGAGAAAAA GAGAAGGAAT CTAATGCTGG ATGATGTAAT AACCCCCGGC 4740 4741 AGCTCTGCCA GCGCAGCACC AGAAGCACAA TGCAAACCTT ACTATTCAGA CTACTCAAGG 4800 4801 TTCCGTCTCC TCGTCCACCA CATGTGTACC AGCCACTACT TGGATCTCTT TATCACCGGT 4860 4861 GTCATTGGCC TGAACGTGGT TACTATGGCC ATGGAACATT ATCAGCAGCC TCAGATCCTG 4920 4921 GATGAGGCTT TGAAGATCTG TAACTACATT TTCACCGTTA TCTTTGTCTT GGAGTCTGTT 4980 4981 TTCAAACTTG TGGCCTTTGG TTTCCGACGA TTCTTCCAGG ACAGGTGGAA CCAACTAGAT 5040 5041 CTGGCCATCG TACTGCTATC CATCATGGGG ATCACTCTGG AAGAGATCGA GGTCAACGCA 5100 5101 TCACTGCCCA TCAATCCCAC CATCATCCGC ATTATGAGGG TGCTCCGGAT CGCCCGTGTG 5160 5161 CTGAAGTTGC TGAAGATGGC AGTAGGCATG AGGGCACTGC TGGATACAGT GATGCAGGCC 5220 5221 TTGCCCCAGG TGGGGAACCT GGGGCTCCTC TTCATGTTAT TATTTTTCAT CTTTGCAGCT 5280 5281 CTGGGTGTGG AGCTTTTTGG AGACCTTGAG TGTGATGAAA CCCACCCCTG TGAAGGCCTG 5340 5341 GGCCGCCATG CCACCTTCAG GAACTTTGGT ATGGCCTTCT TGACCCTTTT CCGAGTTTCT 5400 5401 ACTGGTGACA ACTGGAATGG CATTATGAAG GACACCCTCC GAGACTGTGA CCAGGAGTCC 5460 5461 ACATGCTACA ACACTGTCAT CTCCCCCATC TACTTTGTGT CCTTTGTATT GACTGCCCAA 5520 5521 TTTGTGCTGG TGAATGTAGT CATTGCGGTC CTGATGAAGC ATTTGGAGGA AAGCAACAAG 5580 5581 GAAGCCAAGG AAGAAGCAGA GCTGGAGGCT GAGCTGGAGA TGGAGATGAA GACCTTGGCC 5640 5641 CCATCCCAAC CTCCCATGCC GGGAGACCCC TTCTCCTGGC CTCGGGGAGA GGGAGGCTCT 5700 5701 GACAGCCAGC CGGGCAGCCC GAAGCTCAGA GCCCCCCAGG CCTTGCATGT CAAAGTGGCT 5760 5761 TCTCAACTCT CCTTGACCCA CCCTACGGAC AGACAACTGT TTGACACCAT CTCCCTGCTG 5820 5821 ATCCAGGGGT CTCTGGAGGG GGAGTTGAAA TTGATGGATG AGCTGTCCAG CTCTTTGGGC 5880 5881 CGGCCCTACA CCTTCCCTCC CGCCCCTGGC CAGGGCGACT CCGAACCTCA GATCCCTCTA 5940 5941 GCTGAAATGG AGGCTCTGTC TCTGACGTCA GATATTCTGT CTGAACAGTC CTGCTCCTTA 6000 6001 GCTCTGACGG ATGATTCTTT GCCTGATGAT ACTCACATAC TTTTACTTAG TGCCCTGGAA 6060 6061 AGAAATACTG TGACTCTTCC CTATCCTGAA GGGATTCTGG CCACTGGACC CTCTGCCTTC 6120 6121 CAACCAAGTC TGCTGACTAT CCGGAAGTCA GGGGTCAGCA GGACCCACTC CCTTCCCAAT 6180 6181 GACAGTTACA TGTTCCGAGA TGGGGGCTCC TATCAGGGCT CCGTGGGGCA GAGGGCCTGG 6240 6241 ATGCTTCCCA AATCTCAATC AGCAGGCTCA ACTACTTCCA TCCACTCCCA GCCAGTAGAT 6300 6301 GCCAGAGCCC TCCTCCAGCT TCCCAAAGAT GGGTCCCACC AGCTCCAGCT CTATGACCTC 6360 6361 TCCAGCTGGG GAATGATCCC CAAACTTCCC CCACCGGGGT GCTCCCCTTC TGCACAGAGG 6420 6421 CAACTTCGGC GACAGGCAGC AATAAGGACT GACTCTGTGG ACATGCAGTT TGTGGGCAGC 6480 6481 AGGGAGGATG TTGTCGCTGA GGTGAGTGTG TCCCCTACCA TGGCTCCCCA GGACACTCCC 6540 6541 AGCTGGGGCC GTTCCAGCAT CAGAGTTCAG CAATGTCCTC GGAACCAGTG CAGGAAATCC 6600 6601 AAGCACACAC CACCAGCCCC CTGCCTGATG CGAGAGGCAC CTCTCCAGGA CAGGTGCCAG 6660 6661 CCAGGCCACG AGGCATCGGA GACCATCAGC TGCCTGGAGC TGCATGCCCA ACCAAGCTGG 6720 6721 GGCTCGAGCC CTGGGCCTCA ACATCCTCCG ACTCAAAAGG GGGGAGAACA TCTGAGGGAC 6780 6781 CTGAAGAAAT GTTACAGTGC AGAGACCCAG GGCTGCCCTC GCCGGCCTAC GTTGTGGCCC 6840 6841 GATGAACAGA GGAGACACTC CATTGCGGTC AGCTCTCTGG ACAGCTGTTC CCAGACCTGC 6900 6901 CCAGGCCCTG GTGCCCTGAG CCTTGGGGGC CAAGAGCTGA ACAGGCCAGG AATAGGGTCC 6960 6961 AAAAGCTGGC CCAAGAAAAA ACTGAGCCCT CCTTGCATCT CCATAGAACC ACCTGACAGC 7020 7021 CAGGGTCCCC GGCCCTTGCC CAACCCTGGA GTCTGCCTCC GGCGCAGGTC TCCGTCCACT 7080 7081 GACTCCAAGG ACCCTTTGGC CCCTGACAGC ATGGCCATCT CCTCGCCCCC CCCAAAGAAA 7140 7141 GACTTGCTGA TGCTCTCTAG TTTCTCTTCT GATCAGTTAG ATCTGGAACC CTGA 7194 |
▼ 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 | |
Biological Process | Calcium ion import | |
Biological Process | Regulation of ion transmembrane transport | |
Biological Process | Regulation of membrane potential |
▼ ORTHOLOGY
| DrLLPS ID | Organism | Identity | E-value | Score |
|---|---|---|---|---|
| LLPS-Mod-2504 | Monodelphis domestica | 95.21 | 0.0 | 3057 |
| LLPS-Urm-0786 | Ursus maritimus | 89.82 | 6e-133 | 435 |
| LLPS-Chs-4045 | Chlorocebus sabaeus | 87.07 | 0.0 | 2674 |
| LLPS-Ran-0286 | Rattus norvegicus | 86.34 | 0.0 | 2726 |
| LLPS-Poa-2575 | Pongo abelii | 86.14 | 0.0 | 2548 |
| LLPS-Mup-3158 | Mustela putorius furo | 85.88 | 0.0 | 2631 |
| LLPS-Man-4391 | Macaca nemestrina | 81.9 | 0.0 | 3210 |
| LLPS-Maf-3876 | Macaca fascicularis | 81.9 | 0.0 | 3209 |
| LLPS-Mal-4669 | Mandrillus leucophaeus | 81.86 | 0.0 | 3182 |
| LLPS-Rhb-2516 | Rhinopithecus bieti | 81.81 | 0.0 | 3211 |
| LLPS-Cea-4558 | Cercocebus atys | 81.81 | 0.0 | 3206 |
| LLPS-Gog-1886 | Gorilla gorilla | 81.77 | 0.0 | 3204 |
| LLPS-Hos-1009 | Homo sapiens | 81.69 | 0.0 | 3202 |
| LLPS-Pat-2457 | Pan troglodytes | 81.61 | 0.0 | 3199 |
| LLPS-Fec-1915 | Felis catus | 81.59 | 0.0 | 3232 |
| LLPS-Ict-3464 | Ictidomys tridecemlineatus | 81.51 | 0.0 | 3243 |
| LLPS-Loa-3694 | Loxodonta africana | 81.48 | 0.0 | 3193 |
| LLPS-Aon-4317 | Aotus nancymaae | 81.48 | 0.0 | 3191 |
| LLPS-Mam-0716 | Macaca mulatta | 81.45 | 0.0 | 3185 |
| LLPS-Caf-1096 | Canis familiaris | 81.43 | 0.0 | 3242 |
| LLPS-Caj-3572 | Callithrix jacchus | 81.38 | 0.0 | 3194 |
| LLPS-Dio-3598 | Dipodomys ordii | 81.26 | 0.0 | 3220 |
| LLPS-Pap-2458 | Pan paniscus | 81.24 | 0.0 | 3189 |
| LLPS-Bot-4242 | Bos taurus | 81.2 | 0.0 | 3208 |
| LLPS-Paa-3514 | Papio anubis | 81.19 | 0.0 | 3165 |
| LLPS-Mum-3061 | Mus musculus | 81.13 | 0.0 | 3178 |
| LLPS-Sus-4785 | Sus scrofa | 81.07 | 0.0 | 3192 |
| LLPS-Cap-3305 | Cavia porcellus | 81.0 | 0.0 | 3179 |
| LLPS-Myl-1886 | Myotis lucifugus | 80.7 | 0.0 | 3074 |
| LLPS-Cas-3339 | Carlito syrichta | 80.67 | 0.0 | 3035 |
| LLPS-Eqc-0169 | Equus caballus | 80.24 | 0.0 | 3097 |
| LLPS-Fud-2786 | Fukomys damarensis | 79.64 | 0.0 | 3081 |
| LLPS-Otg-3970 | Otolemur garnettii | 79.21 | 0.0 | 3084 |
| LLPS-Ova-0730 | Ovis aries | 77.73 | 0.0 | 1278 |
| LLPS-Nol-2306 | Nomascus leucogenys | 75.76 | 0.0 | 2853 |
| LLPS-Tag-0587 | Taeniopygia guttata | 73.23 | 0.0 | 2776 |
| LLPS-Fia-1950 | Ficedula albicollis | 72.78 | 0.0 | 2800 |
| LLPS-Pes-3727 | Pelodiscus sinensis | 72.58 | 0.0 | 2784 |
| LLPS-Anc-0906 | Anolis carolinensis | 72.16 | 0.0 | 2744 |
| LLPS-Meg-1634 | Meleagris gallopavo | 71.52 | 0.0 | 1226 |
| LLPS-Gaga-2961 | Gallus gallus | 71.3 | 0.0 | 2819 |
| LLPS-Icp-2941 | Ictalurus punctatus | 70.75 | 0.0 | 2098 |
| LLPS-Ora-2887 | Ornithorhynchus anatinus | 70.06 | 0.0 | 1080 |
| LLPS-Dar-0196 | Danio rerio | 69.04 | 0.0 | 2048 |
| LLPS-Orn-1548 | Oreochromis niloticus | 69.03 | 9e-132 | 467 |
| LLPS-Lac-3907 | Latimeria chalumnae | 68.81 | 0.0 | 2566 |
| LLPS-Leo-2754 | Lepisosteus oculatus | 67.52 | 0.0 | 2466 |
| LLPS-Gaa-2629 | Gasterosteus aculeatus | 66.67 | 0.0 | 1898 |
| LLPS-Xet-0268 | Xenopus tropicalis | 66.49 | 0.0 | 2404 |
| LLPS-Tar-0161 | Takifugu rubripes | 66.23 | 0.0 | 1950 |
| LLPS-Ten-1533 | Tetraodon nigroviridis | 64.69 | 0.0 | 1844 |
| LLPS-Xim-2831 | Xiphophorus maculatus | 64.2 | 0.0 | 2135 |
| LLPS-Scm-2092 | Scophthalmus maximus | 63.49 | 0.0 | 2108 |