LLPS-Scm-2092
SMAX5B_020458
Integrated Annotations
▼ OVERVIEW
Status: | Unreviewed |
Protein Name: | Voltage-dependent T-type calcium channel subunit alpha |
Gene Name: | SMAX5B_020458 |
Ensembl Gene: | ENSSMAG00000004266.1 |
Ensembl Protein: | ENSSMAP00000007338.1 |
Organism: | Scophthalmus maximus |
Taxa ID: | 52904 |
LLPS Type: | LLPS regulator |
▼ 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 | ENSSMAT00000007434.1 | ENSSMAP00000007338.1 |
Ensembl | ENSSMAT00000007598.1 | ENSSMAP00000007501.1 |
Ensembl | ENSSMAT00000007336.1 | ENSSMAP00000007240.1 |
Ensembl | ENSSMAT00000007680.1 | ENSSMAP00000007582.1 |
Ensembl | ENSSMAT00000007522.1 | ENSSMAP00000007424.1 |
Ensembl | ENSSMAT00000007274.1 | ENSSMAP00000007180.1 |
UniProt | A0A2U9CNH0, A0A2U9CNH0_SCOMX | |
GeneBank | CP026260 | AWP17286.1 |
▼ SEQUENCE
Protein Sequence (FASTA) |
---|
1 MLVILLNCVT LGMFQPCEDS SCDSDRCRIL QDFDDFIFAF FAIEMVIKMV ALGIFGKKCY 60 61 LGDTWNRLDF FIVLAGMLEY SLNLQNVSFS AVRTVRVLRP LRAINRVPSM RILVTLLLDT 120 121 LPMLGNVLLL CFFVFFIFGI VGVQLWAGLL RNRCFVEDNF SFPLSVKSEK LHDYYHTEND 180 181 DENPFICSQR RDNGMRDCGS VPKLYEGGLQ CSLDMDSYNS TDNTTCVNWN QYFTKCSAGR 240 241 VNPFKDAINF DNICYAWIAI FQVITLEGWV DIMYFVMDAH SFYNFIYFIL LIIIGSFFMI 300 301 NLCLVVIATQ FSETKQRESQ LMKEQRVRFL SNASTLASLS EPGSCYDELL KYLVHVIRKG 360 361 AKQVAHICRF LARRAGLNIA ASPPATEPQR GQSQRRRRKS RQGSVSAHHM IHHHHHHHHH 420 421 HHYHLRNGSV RGVVSLHCLE GRDVEAGAHN NKGGALVATT SIGHLALMPP SSVTAATSDS 480 481 NLANLSNPPA GGAESASVRS VFNMETLCCT PSPICTGQTP DSFSLAPAPL SKAMKRNSVP 540 541 FAAPGPKNYP TLQARALAES RRGSVALTNI NFNLNIPPVP LERRPSSLVD THTPTARLSR 600 601 QLSARDLSTT SSTMDTAALT LDPESCPYCA KALANESEGN ETLGDSDSEG VYEFTQDLHR 660 661 RDRRDSRQPK KKQCGLGKTA SKVVHFWRLV CDTFRKIVDS KYFGRGIMIA ILINTLSMGI 720 721 EYHEQPDELT NALEISNIVF TSLFALEMLL KVLVYGPFGY IKNPYNIFDG IIVVISVWEI 780 781 VGQQGGGLSV LRTFRLMRVL KLVRFMPALQ RQLVVLMKTM DNVATFCMLL MLFIFIFSIL 840 841 GMHLFGCKFG SEREEDTVPD RKNFDSLLWA IVTVFQILTQ EDWNKVLYNG MASTSHVAAL 900 901 YFIALMTFGN YVLFNLLVAI LVEGFQTEEV PKREDVHVQL SLILPVDSGG DASKSGSEID 960 961 SFARSLEDVN GSKKDLSASA VVPVNGHVDL KTSLTPPLIT HTAATPMPVP KLPVGGDPIL 1020 1021 GYESRRGSSV SVDPACYDKS PTSARSSSPY APWSSGSGWT SRRSSWNSLG RAPSLKRQKR 1080 1081 QSGERRSLLS GEGGSSSEDG EGGGEEGGGL MEEDNTSLAR TDSMSQSQRG PRHRRMESVE 1140 1141 TQSSMDLPPD ALLQVPFLYR SASMHSSRPP SLGHLRPAEH SDCNGKGSLT ALGPTHVSLE 1200 1201 DNTEDENAEE EPSLGRFARL FHWLEKKQPE WCRQRGTWSL YLFPPESRFR IVCKKIITHK 1260 1261 MFDHIVLLII FLNCITIAME RPRIDPTSAE RIFLTLSNYI FTAIFVTEMA VKIVALGWCF 1320 1321 GDKAYLRSSW NLLDGMLVMI SVIDILVSLI SNSGTKILGM LRVLRLLRTL RPLRVISRAP 1380 1381 GLKLVVETLM SSLKPIGNIV VICCAFFIIF GILGVQLFKG KFFFCQGVEH HIKNVTNRSD 1440 1441 CLQANYKWVR HKYNFDNLGQ ALMSLFVLAS KDGWVDIMYN GLDAVGVDKQ PELNHNPWML 1500 1501 LYFISFLLIV AFFVLNMFVG VVVENFHKCR RHQEAEEAKR REAKRLKRRE KKRRNLMVPG 1560 1561 VSWALSEGTL KEAQSKPYYS DYSPTRLVIH KMCTSHYLDL FITIVIGLNV ITMSMEHYQQ 1620 1621 PKELDEALKI CNYIFTLIFV LESVFKLVAF GFRRFFKDKW NQLDLAIVLL SIMGITLEEI 1680 1681 EVNASLPINP TIIRIMRVLR IARVLKLLKM AVGMRALLDT VMQALPQVGN LGLLFMLLFF 1740 1741 IYAALGVELF GDLICDELHP CEGLGRYATF KNFGMAFLLL FRVSTGDNWN GIMKDTLRDC 1800 1801 AQDTNTCYNT VVSPIYFVSF VLTAQFVLVN VVIAVLMKHL EESNKEAKMG AEPEADLELE 1860 1861 LQMDGGDISM RSPQLNPLAL GMDRSSSGGS PWKSTGGGDR EQERDAPMDS PTADITRDSP 1920 1921 NIRADPPSGL DPPLERRALF DSISLVIQGS MEGELSLMDN LSGSICHFYA LPPKPSKHST 1980 1981 DKKIPLAEME ALSLASEKSW SLALTDDSAP DDFNPLFPNS LECNSEQLDA GEQGDNLLSV 2040 2041 RKPTVGRTHS LPNDSYMFQP LQPFGHAAAA PALLLAQSQG PRHTQGTHRA QSGSSASLRS 2100 2101 QPEDFSQQLT VPTDLFRPIS PHSHPDSENI PRLPPPRHTH TLSRTLRRQV AVSTDSQEAL 2160 2161 CSGRGESNEG LVNVASVGLF PSPSSSPSPT SPSPCSHHPQ QQPALCLVPA TPGVSPKPLR 2220 2221 PGSVHTQHQD QRCHLSHSPS SSSGSPPPLP PARPLQQEEA TVDQEVSLIT CAALAGRDDV 2280 2281 MAEDSSEGNE GYSSYAGCPE SPYLRQLKRF HSVDTQGHSA FLSRPRPSSW LDDPRRHSVE 2340 2341 VCSLLETSPQ RSTASCSSGF VSRADSLQIH SQTPAQNSLP SPRRKKKMSP PCISVDPPDG 2400 2401 LELPPGLYPG MGGLGGLGMP PPLPSRDTCL RRRAPSSDSK DSFDLGVGEG SGQDGGPPNP 2460 2461 NPTPKLLTLP SFSFEKTSSE H 2481 |
Nucleotide CDS Sequence (FASTA) |
1 ATGCTGGTGA TCCTGCTGAA CTGCGTGACA CTGGGCATGT TCCAGCCCTG CGAGGACAGC 60 61 AGCTGCGACT CTGACAGGTG CAGGATCCTG CAGGACTTTG ACGACTTCAT CTTTGCGTTC 120 121 TTTGCCATTG AGATGGTGAT CAAGATGGTG GCCCTGGGGA TTTTTGGCAA GAAGTGTTAC 180 181 CTAGGTGACA CGTGGAACCG CCTGGACTTC TTCATAGTGC TGGCAGGGAT GCTGGAGTAC 240 241 TCCCTCAACC TGCAGAACGT CAGCTTTTCA GCGGTGAGGA CGGTTCGCGT GCTGAGACCA 300 301 CTGCGAGCCA TCAACCGGGT GCCAAGTATG CGCATCCTGG TGACCCTGCT GCTGGACACC 360 361 CTGCCTATGC TGGGCAACGT GCTGCTGCTC TGCTTCTTTG TCTTCTTCAT ATTCGGCATT 420 421 GTGGGCGTCC AGCTGTGGGC CGGCCTGCTC CGAAACCGCT GCTTTGTGGA GGACAACTTC 480 481 TCCTTCCCTC TGTCTGTGAA GTCGGAGAAG CTGCACGACT ACTACCACAC AGAGAACGAC 540 541 GACGAGAACC CCTTCATCTG CTCTCAGCGC CGGGACAACG GCATGAGGGA CTGCGGCTCG 600 601 GTGCCCAAGC TGTACGAGGG AGGCCTGCAG TGCAGCCTGG ACATGGACTC TTACAACAGC 660 661 ACTGACAACA CCACTTGTGT GAACTGGAAC CAGTACTTCA CCAAGTGCTC TGCCGGTCGG 720 721 GTCAACCCTT TCAAGGATGC CATCAACTTT GACAACATCT GCTATGCCTG GATCGCCATC 780 781 TTCCAGGTGA TCACTCTGGA GGGATGGGTG GACATCATGT ACTTTGTGAT GGATGCTCAC 840 841 TCCTTCTACA ACTTCATCTA CTTCATCCTA CTCATCATTA TCGGCTCCTT CTTCATGATC 900 901 AATCTGTGCC TGGTGGTCAT CGCCACTCAG TTCTCTGAAA CCAAGCAGCG GGAGAGCCAG 960 961 CTGATGAAGG AGCAGCGGGT GCGCTTCCTG TCCAACGCCA GCACTCTGGC CTCCCTCTCC 1020 1021 GAGCCAGGCT CCTGCTACGA TGAGCTCCTC AAGTACCTAG TACATGTCAT CCGCAAGGGG 1080 1081 GCCAAACAAG TGGCGCATAT CTGCAGGTTC TTGGCTCGCC GAGCCGGGCT CAACATTGCC 1140 1141 GCCTCGCCAC CAGCCACTGA GCCCCAACGT GGCCAGAGTC AGAGGAGGAG GAGGAAGTCC 1200 1201 AGACAGGGAT CCGTGTCTGC TCACCACATG ATTCACCATC ATCACCACCA CCACCACCAT 1260 1261 CACCACTACC ACCTACGAAA TGGCAGCGTG AGGGGAGTAG TGAGCCTCCA CTGTCTGGAG 1320 1321 GGCAGGGATG TGGAAGCAGG GGCACATAAC AACAAAGGCG GGGCTCTTGT AGCAACAACT 1380 1381 AGCATTGGAC ATCTTGCTTT GATGCCACCT TCTTCTGTTA CGGCAGCCAC ATCTGACTCA 1440 1441 AACCTCGCCA ATTTGTCAAA TCCTCCTGCA GGAGGTGCCG AGTCAGCTTC AGTTCGCAGT 1500 1501 GTATTCAACA TGGAAACTCT TTGCTGTACC CCTTCGCCCA TATGCACGGG GCAAACACCG 1560 1561 GACTCCTTCT CCCTGGCTCC CGCTCCTTTG TCCAAGGCCA TGAAGAGGAA CTCTGTGCCC 1620 1621 TTTGCTGCAC CAGGTCCCAA AAACTACCCC ACCCTACAGG CACGAGCCCT GGCAGAGTCC 1680 1681 AGACGAGGAA GTGTTGCTCT GACTAACATC AACTTCAACC TCAATATCCC ACCCGTGCCG 1740 1741 CTGGAGAGAC GGCCATCAAG CCTGGTGGAC ACACACACTC CAACAGCCCG GCTCTCCCGT 1800 1801 CAGCTGTCAG CTCGTGACCT CAGCACCACC AGCAGCACCA TGGACACGGC CGCTTTGACA 1860 1861 CTGGACCCCG AGAGTTGCCC CTACTGCGCC AAGGCCCTGG CCAACGAATC AGAAGGCAAC 1920 1921 GAGACACTGG GTGATTCGGA CAGCGAGGGC GTTTACGAGT TCACCCAGGA TCTCCACCGC 1980 1981 AGGGACAGGA GAGACAGCCG GCAGCCCAAA AAGAAGCAGT GTGGGCTGGG CAAGACGGCG 2040 2041 TCGAAGGTGG TCCACTTCTG GAGGCTGGTG TGCGACACGT TCAGGAAGAT CGTGGACAGC 2100 2101 AAATATTTCG GACGAGGGAT TATGATCGCC ATTTTGATCA ATACTCTGAG CATGGGGATT 2160 2161 GAGTACCATG AGCAGCCTGA TGAGTTGACC AACGCCTTGG AGATCAGTAA CATTGTGTTC 2220 2221 ACCAGCCTCT TCGCACTGGA GATGCTGTTG AAGGTTTTGG TCTACGGGCC CTTTGGCTAC 2280 2281 ATCAAGAACC CCTACAATAT TTTCGATGGC ATCATCGTAG TCATCAGTGT GTGGGAGATT 2340 2341 GTGGGTCAGC AGGGTGGCGG TCTGTCAGTG CTGAGGACCT TCCGGCTGAT GCGGGTGCTG 2400 2401 AAGCTGGTGC GCTTCATGCC GGCCCTGCAG AGGCAGCTGG TGGTCCTGAT GAAGACCATG 2460 2461 GACAACGTGG CCACCTTCTG CATGCTGCTC ATGCTCTTCA TTTTCATCTT CAGTATCCTG 2520 2521 GGGATGCATC TGTTTGGTTG TAAGTTTGGT TCAGAGAGGG AAGAGGACAC TGTGCCAGAC 2580 2581 AGGAAGAACT TTGACTCTCT TCTCTGGGCC ATAGTGACTG TCTTCCAGAT CCTCACCCAG 2640 2641 GAGGACTGGA ACAAGGTGCT GTATAACGGC ATGGCCTCAA CCTCGCATGT GGCCGCCCTC 2700 2701 TACTTCATCG CACTCATGAC CTTCGGAAAC TACGTGCTCT TCAACTTGCT GGTGGCCATC 2760 2761 TTGGTTGAGG GTTTCCAGAC GGAGGGTGAT GCTTCTAAAT CAGGCTCGGA GATCGATTCC 2820 2821 TTCGCACGAA GTTTGGAGGA TGTTAATGGC AGCAAGAAGG ATTTATCGGC CTCTGCAGTA 2880 2881 GTGCCTGTAA ATGGTCATGT GGACCTGAAG ACCAGCCTGA CTCCACCTCT GATTACTCAC 2940 2941 ACGGCTGCCA CCCCAATGCC CGTACCCAAG CTGCCCGTCG GAGGTGACCC CATCCTGGGC 3000 3001 TACGAGTCCC GTCGAGGCAG CAGCGTCTCT GTAGACCCAG CCTGCTATGA CAAATCCCCG 3060 3061 ACCAGTGCTC GGAGCTCTTC GCCCTACGCC CCATGGAGCT CCGGCAGCGG CTGGACCAGC 3120 3121 CGACGATCCA GCTGGAACAG TCTGGGTCGG GCCCCGTCAC TCAAACGCCA GAAGCGGCAG 3180 3181 TCCGGGGAGC GACGCTCGCT CCTCTCCGGG GAGGGAGGCT CCAGCTCAGA GGACGGGGAG 3240 3241 GGTGGTGGGG AAGAAGGAGG AGGGTTGATG GAGGAGGACA ACACCTCCCT GGCCAGGACG 3300 3301 GACTCCATGT CGCAGTCTCA GAGAGGTCCC AGACATCGGA GAATGGAGTC TGTGGAGACT 3360 3361 CAGAGCTCCA TGGATTTGCC ACCTGATGCT CTGTTACAGG TCCCCTTCCT GTACCGCTCC 3420 3421 GCCAGCATGC ACAGCTCCAG GCCCCCTTCC CTGGGACACC TGCGACCCGC AGAGCACAGC 3480 3481 GACTGCAATG GAAAGGGCTC TCTAACAGCC CTGGGTCCGA CACACGTCTC GCTTGAGGAC 3540 3541 AACACCGAAG ACGAAAACGC AGAGGAGGAG CCCAGTCTGG GTCGCTTTGC CAGACTGTTC 3600 3601 CACTGGCTGG AGAAGAAGCA GCCGGAGTGG TGTCGACAGA GAGGCACCTG GTCACTCTAC 3660 3661 CTCTTCCCTC CAGAGTCCAG GTTTCGGATC GTCTGCAAGA AGATCATCAC CCACAAGATG 3720 3721 TTTGACCACA TTGTGTTGCT GATCATCTTC CTCAACTGCA TCACTATCGC CATGGAGAGG 3780 3781 CCTCGCATCG ACCCCACAAG CGCTGAACGG ATCTTCCTTA CGCTGTCCAA CTACATCTTC 3840 3841 ACGGCGATCT TTGTGACCGA GATGGCGGTT AAGATCGTAG CGTTGGGCTG GTGCTTCGGG 3900 3901 GACAAGGCGT ATCTGAGGAG CAGCTGGAAC CTTCTGGACG GGATGCTGGT GATGATTTCT 3960 3961 GTCATCGACA TCCTGGTCTC CCTCATCTCC AACTCGGGCA CCAAGATCCT GGGTATGCTC 4020 4021 AGAGTGCTGA GGCTGCTGAG GACCCTGCGG CCGCTGCGTG TGATCAGCAG AGCCCCTGGG 4080 4081 CTGAAGCTGG TGGTGGAGAC TTTGATGTCG TCACTGAAGC CTATCGGCAA CATTGTTGTC 4140 4141 ATCTGCTGCG CCTTCTTCAT CATCTTCGGC ATCCTGGGGG TACAGCTCTT CAAGGGGAAG 4200 4201 TTCTTCTTTT GTCAAGGAGT AGAACATCAC ATCAAGAACG TCACCAACAG ATCTGACTGT 4260 4261 TTGCAGGCCA ACTACAAATG GGTCAGACAC AAGTACAACT TTGACAACCT GGGACAGGCC 4320 4321 TTAATGTCTC TGTTTGTCTT GGCGTCAAAA GACGGCTGGG TGGACATTAT GTATAATGGA 4380 4381 CTCGATGCTG TAGGCGTGGA CAAACAGCCA GAATTGAACC ACAATCCATG GATGCTGCTT 4440 4441 TACTTCATCT CGTTCCTGCT GATCGTGGCC TTCTTCGTGC TCAACATGTT CGTGGGCGTG 4500 4501 GTGGTGGAGA ACTTCCACAA GTGCCGGCGA CACCAGGAGG CCGAGGAGGC CAAGCGCAGG 4560 4561 GAGGCGAAGA GACTGAAACG CAGGGAGAAA AAGAGACGGA ATTTAATGGT TCCGGGGGTG 4620 4621 AGTTGGGCCC TTTCTGAAGG CACATTGAAA GAAGCTCAGA GTAAGCCGTA CTACTCCGAT 4680 4681 TACTCTCCCA CACGTCTCGT CATCCACAAG ATGTGCACCA GCCACTACCT GGACTTGTTC 4740 4741 ATCACCATCG TCATAGGGCT CAACGTCATC ACCATGTCCA TGGAGCACTA CCAGCAGCCC 4800 4801 AAGGAGTTGG ACGAGGCCCT GAAGATCTGT AACTACATTT TCACCCTCAT CTTTGTGCTG 4860 4861 GAGTCCGTCT TCAAGCTGGT AGCCTTCGGC TTCCGACGCT TCTTCAAAGA CAAGTGGAAC 4920 4921 CAGCTGGACC TGGCCATCGT GCTGCTGTCG ATCATGGGCA TCACTCTGGA GGAGATTGAG 4980 4981 GTCAACGCTT CACTGCCCAT AAACCCCACC ATCATCCGCA TCATGAGAGT GCTGAGGATT 5040 5041 GCTCGAGTGT TGAAGCTCCT GAAGATGGCG GTGGGGATGA GAGCTTTGCT GGACACCGTT 5100 5101 ATGCAAGCCC TGCCTCAGGT GGGGAATCTG GGTCTCCTCT TCATGCTTCT CTTCTTTATC 5160 5161 TATGCAGCAC TGGGAGTGGA GCTGTTTGGT GACTTGATTT GTGATGAGCT CCACCCGTGT 5220 5221 GAGGGTCTGG GGCGCTACGC TACCTTTAAA AACTTCGGAA TGGCATTCCT GCTGCTCTTC 5280 5281 AGAGTTTCCA CCGGGGACAA CTGGAATGGC ATAATGAAGG ACACATTAAG AGACTGTGCC 5340 5341 CAAGACACCA ACACCTGCTA CAACACTGTG GTCTCTCCCA TCTACTTCGT CTCCTTTGTC 5400 5401 CTCACCGCTC AGTTTGTCCT GGTCAACGTC GTCATCGCTG TCCTCATGAA GCACCTGGAA 5460 5461 GAGAGCAACA AGGAAGCCAA AATGGGGGCA GAGCCCGAGG CAGACTTGGA ACTGGAGCTG 5520 5521 CAGATGGACG GGGGAGACAT ATCGATGAGG TCGCCCCAGC TAAACCCTCT GGCACTGGGC 5580 5581 ATGGACAGGT CGAGTTCTGG GGGTTCACCC TGGAAGTCCA CTGGAGGAGG GGACAGGGAA 5640 5641 CAGGAACGGG ACGCTCCGAT GGACTCGCCC ACTGCCGACA TCACTAGAGA TTCTCCAAAC 5700 5701 ATCAGAGCAG ACCCCCCTTC AGGCCTGGAC CCCCCGCTGG AGCGGAGAGC GCTGTTTGAC 5760 5761 TCGATCTCCC TGGTCATCCA GGGTTCAATG GAGGGAGAGC TGAGTCTGAT GGACAACCTG 5820 5821 TCCGGCTCTA TCTGCCACTT CTACGCGCTG CCCCCCAAGC CCAGCAAGCA CAGCACCGAC 5880 5881 AAGAAGATCC CTCTAGCGGA GATGGAAGCT CTGTCTCTGG CCTCTGAGAA ATCCTGGTCG 5940 5941 CTTGCACTTA CAGACGACTC GGCCCCCGAC GATTTTAACC CTCTCTTTCC AAACAGTCTG 6000 6001 GAATGCAATT CGGAGCAGCT CGATGCTGGG GAGCAGGGGG ATAACCTCCT GAGCGTCCGG 6060 6061 AAGCCGACAG TGGGACGCAC ACACTCCCTG CCCAATGACA GCTACATGTT CCAACCCCTG 6120 6121 CAGCCCTTTG GCCACGCAGC CGCGGCTCCA GCACTGCTTC TAGCACAGTC ACAGGGGCCC 6180 6181 CGGCACACAC AGGGCACCCA TAGGGCCCAG TCAGGCTCCA GTGCGTCTTT GCGTTCGCAG 6240 6241 CCGGAGGACT TTTCCCAGCA GCTGACGGTT CCCACGGACC TCTTCAGACC CATCAGCCCC 6300 6301 CACAGCCACC CAGACTCTGA GAATATACCA CGCCTGCCCC CGCCCAGGCA CACGCACACA 6360 6361 CTCAGCCGCA CGCTCCGCAG ACAGGTTGCG GTGTCTACAG ATTCTCAGGA GGCCCTGTGT 6420 6421 TCAGGCAGAG GGGAGAGCAA TGAAGGACTT GTGAATGTGG CCTCTGTGGG TCTCTTTCCA 6480 6481 TCTCCCTCCT CCTCCCCCTC CCCCACCTCC CCCTCACCCT GCTCCCATCA TCCCCAGCAG 6540 6541 CAGCCCGCTC TCTGCCTGGT CCCTGCCACA CCGGGCGTCT CTCCTAAACC CTTGCGCCCT 6600 6601 GGCAGCGTGC ACACCCAGCA CCAAGACCAG CGCTGCCACC TCTCACACTC CCCTTCCTCC 6660 6661 TCCTCTGGCT CGCCTCCTCC ACTCCCGCCA GCCAGGCCGC TCCAACAAGA GGAAGCCACA 6720 6721 GTGGATCAGG AAGTGTCCCT CATCACCTGT GCGGCGTTGG CTGGCAGGGA TGATGTCATG 6780 6781 GCAGAGGACA GCAGCGAAGG GAATGAGGGT TACAGCTCAT ATGCAGGCTG CCCGGAGAGT 6840 6841 CCATATTTGA GGCAGTTGAA GAGGTTCCAC AGTGTCGACA CGCAGGGCCA CAGCGCCTTC 6900 6901 CTGTCCCGCC CCCGCCCTTC CTCCTGGCTG GACGACCCTC GGCGCCACTC TGTAGAAGTG 6960 6961 TGCTCCTTGT TGGAGACCAG TCCCCAGCGC AGCACCGCCT CCTGCTCCTC CGGCTTTGTG 7020 7021 TCGCGGGCCG ACAGCCTGCA GATCCACAGC CAGACCCCCG CTCAGAACTC GCTGCCCTCA 7080 7081 CCTCGACGCA AGAAGAAGAT GAGCCCGCCC TGCATCTCCG TCGACCCCCC CGACGGACTG 7140 7141 GAGCTTCCGC CTGGCCTCTA CCCGGGCATG GGTGGGCTCG GGGGGTTAGG GATGCCCCCT 7200 7201 CCTCTGCCCA GCCGGGACAC CTGCCTGAGG AGGAGAGCGC CCTCCAGTGA CTCCAAGGAC 7260 7261 TCCTTTGACC TGGGAGTTGG AGAGGGTTCG GGACAGGACG GAGGCCCGCC AAACCCCAAC 7320 7321 CCCACTCCCA AGCTATTGAC TCTTCCCAGT TTCTCCTTTG AGAAGACAAG CTCCGAGCAC 7380 7381 TGA 7383 |
▼ KEYWORD
▼ GENE ONTOLOGY
ID | Classification | Description |
Cellular Component | Voltage-gated calcium channel complex | |
Molecular Function | Low voltage-gated calcium channel activity | |
Biological Process | Calcium ion import | |
Biological Process | Regulation of ion transmembrane transport |
▼ ORTHOLOGY
DrLLPS ID | Organism | Identity | E-value | Score |
---|---|---|---|---|
LLPS-Ran-0286 | Rattus norvegicus | 83.42 | 3e-154 | 538 |
LLPS-Mum-3061 | Mus musculus | 83.16 | 8e-151 | 528 |
LLPS-Urm-0786 | Ursus maritimus | 83.08 | 2e-109 | 368 |
LLPS-Xim-2831 | Xiphophorus maculatus | 80.65 | 0.0 | 3340 |
LLPS-Gaa-2629 | Gasterosteus aculeatus | 79.78 | 0.0 | 2581 |
LLPS-Ora-2887 | Ornithorhynchus anatinus | 77.34 | 0.0 | 829 |
LLPS-Chs-4045 | Chlorocebus sabaeus | 77.28 | 0.0 | 940 |
LLPS-Ten-1533 | Tetraodon nigroviridis | 76.77 | 0.0 | 2391 |
LLPS-Tar-0161 | Takifugu rubripes | 73.93 | 0.0 | 2884 |
LLPS-Dar-0196 | Danio rerio | 73.55 | 0.0 | 2262 |
LLPS-Orn-1548 | Oreochromis niloticus | 70.81 | 4e-118 | 424 |
LLPS-Mod-2504 | Monodelphis domestica | 68.37 | 0.0 | 1993 |
LLPS-Icp-2941 | Ictalurus punctatus | 68.32 | 0.0 | 2278 |
LLPS-Ova-0730 | Ovis aries | 68.26 | 0.0 | 852 |
LLPS-Mup-3158 | Mustela putorius furo | 68.21 | 0.0 | 1965 |
LLPS-Rhb-2516 | Rhinopithecus bieti | 67.65 | 0.0 | 1088 |
LLPS-Paa-3514 | Papio anubis | 67.65 | 0.0 | 1085 |
LLPS-Mal-4669 | Mandrillus leucophaeus | 67.65 | 0.0 | 1085 |
LLPS-Cea-4558 | Cercocebus atys | 67.65 | 0.0 | 1087 |
LLPS-Fud-2786 | Fukomys damarensis | 67.48 | 0.0 | 1078 |
LLPS-Man-4391 | Macaca nemestrina | 67.18 | 0.0 | 1091 |
LLPS-Maf-3876 | Macaca fascicularis | 67.18 | 0.0 | 1091 |
LLPS-Leo-2754 | Lepisosteus oculatus | 67.11 | 0.0 | 2551 |
LLPS-Mam-0716 | Macaca mulatta | 67.08 | 0.0 | 1090 |
LLPS-Aon-4317 | Aotus nancymaae | 67.08 | 0.0 | 1089 |
LLPS-Ict-3464 | Ictidomys tridecemlineatus | 67.06 | 0.0 | 1080 |
LLPS-Caf-1096 | Canis familiaris | 66.89 | 0.0 | 1087 |
LLPS-Poa-2575 | Pongo abelii | 66.89 | 0.0 | 1805 |
LLPS-Eqc-0169 | Equus caballus | 66.76 | 0.0 | 1087 |
LLPS-Loa-3694 | Loxodonta africana | 66.7 | 0.0 | 1071 |
LLPS-Meg-1634 | Meleagris gallopavo | 66.28 | 0.0 | 998 |
LLPS-Pes-3727 | Pelodiscus sinensis | 66.14 | 0.0 | 2238 |
LLPS-Sus-4785 | Sus scrofa | 65.3 | 0.0 | 2129 |
LLPS-Fec-1915 | Felis catus | 65.2 | 0.0 | 2131 |
LLPS-Myl-1886 | Myotis lucifugus | 65.08 | 0.0 | 2129 |
LLPS-Gog-1886 | Gorilla gorilla | 65.07 | 0.0 | 2140 |
LLPS-Hos-1009 | Homo sapiens | 65.03 | 0.0 | 2140 |
LLPS-Bot-4242 | Bos taurus | 65.0 | 0.0 | 2132 |
LLPS-Anc-0906 | Anolis carolinensis | 64.98 | 0.0 | 2196 |
LLPS-Caj-3572 | Callithrix jacchus | 64.95 | 0.0 | 2129 |
LLPS-Pap-2458 | Pan paniscus | 64.93 | 0.0 | 2138 |
LLPS-Pat-2457 | Pan troglodytes | 64.67 | 0.0 | 2135 |
LLPS-Dio-3598 | Dipodomys ordii | 64.43 | 0.0 | 2104 |
LLPS-Cas-3339 | Carlito syrichta | 64.16 | 0.0 | 2087 |
LLPS-Otg-3970 | Otolemur garnettii | 63.67 | 0.0 | 2061 |
LLPS-Sah-2437 | Sarcophilus harrisii | 63.26 | 0.0 | 2104 |
LLPS-Lac-3907 | Latimeria chalumnae | 62.47 | 0.0 | 2342 |
LLPS-Cap-3305 | Cavia porcellus | 62.01 | 0.0 | 2122 |
LLPS-Gaga-2961 | Gallus gallus | 61.93 | 0.0 | 2277 |
LLPS-Xet-0268 | Xenopus tropicalis | 61.75 | 0.0 | 2093 |
LLPS-Fia-1950 | Ficedula albicollis | 61.75 | 0.0 | 2289 |
LLPS-Tag-0587 | Taeniopygia guttata | 61.44 | 0.0 | 2273 |
LLPS-Nol-2306 | Nomascus leucogenys | 59.78 | 0.0 | 1834 |