Dfeb016988.1
Basic Information
- Insect
- Dilophus febrilis
- Gene Symbol
- -
- Assembly
- GCA_958336335.1
- Location
- OY284472.1:14957688-14968697[-]
Transcription Factor Domain
- TF Family
- bHLH
- Domain
- HLH domain
- PFAM
- PF00010
- TF Group
- Basic Domians group
- Description
- A basic helix-loop-helix (bHLH) is a protein structural motif that characterizes one of the largest families of dimerizing transcription factors.It should not be confused with the helix-turn-helix domain.The motif is characterized by two α-helices connected by a loop. In general, transcription factors including this domain are dimeric, each with one helix containing basic amino acid residues that facilitate DNA binding. In general, one helix is smaller, and, due to the flexibility of the loop, allows dimerization by folding and packing against another helix. The larger helix typically contains the DNA-binding regions. bHLH proteins typically bind to a consensus sequence called an E-box, CANNTG. The canonical E-box is CACGTG (palindromic), however some bHLH transcription factors, notably those of the bHLH-PAS family, bind to related non-palindromic sequences, which are similar to the E-box. bHLH TFs may homodimerize or heterodimerize with other bHLH TFs and form a large variety of dimers, each one with specific functions.https://en.wikipedia.org/wiki/Basic_helix-loop-helix
- Hmmscan Out
-
# of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc 1 1 4.5e-05 0.018 15.2 0.7 2 37 27 63 26 66 0.83
Sequence Information
- Coding Sequence
- ATGAAAAGCTTACaggataaaaatgaaattaaaactACATCGCAACCTACAGgaaggaaattaaaaactattacCCGAAAAATTAAAGAACGGGCTTGGGAAAAAGAACGGCGAGAACGTTTAAATGTAACATTTGAAAGTTTAGCCCAATTACTACCAGAATATGATAGAACTAATCAAAAACTTGAAGATGCAATTAAATGTCTAATCGAACGAAATTTTCAATTGGTATCCATTTTGGaacaattcaatattattcCACCGCCATCGCAATATCATACACCAAAAGTTTTAAGTTACATTGTACCATCAATAATATGTACGGCACCACCAACGTCATCGATAATATCGGTggcaacagcagcaacaaccAATACAACAGCACTGTCGAGCACTAATAATACTACCAAAACAACTTCAACTGCAACAGaaacattattaaattgcTCCACTAAAACAATTGatgcagcagcagcagcaacatcatcatcattaacgACAAGTTCGGAAAACAGTcTAAAACGAAAAACACGAGTTTCAGTAAAACAACCAAACATTAAGTCAACATCAGGCGTTGCTGAAACAGTCACAACCAATGAGAAATTACCGGCAGATGCAACTGACAATATTTGTACAACACTATCATCAAATATTCTTGGGAATGCATCATTGATTGTTGCAGTACCGCATTCAGACACCACACTAATTACTTCAATGACAACGAAAAATGTTTCCGAACGAACCAAGGTTTTATCTATTAGCCAACAGTCTCAACCAATGTCAATGTCAGCTAACAAAGTATTATCAACTACAGTAAATCAAAATGCAATTACAATACCAACTCTATCGGCTACCACAAATGTATCAACATCACTAAGCGCTAACACGCCAATGACAATCACAACTGGAATTCTAATAcctacaacaacaacaacaacaaaagcagCAAATGTTATTAGTTTTCCTATAAATACTATACggaataataaatcaatattacttaaaaattcatcatcaaaGCCAATTTTAGGAAAATTACCAATTTTACGCGTAACcacaaataaaacatattttaaggCTAAAAGAAAACGTAGGAAAAAAGTGGAAATCCTTGAAGAACGTAGAAAATTAGCGGACGccgaaaatgaaaaactaacAACTAcgaataaaatcaatacatcAAATACTAGTCAGATAAATGATTTACCCATGGATAGTGCCATTATTGAATATGATAAAAGAAATGTGATTCCAAATAATTCATCAATCAatgaatcaattaaaaataaaataattattgaacCGGCAATATCAGAATTAGAAATTGTTGTTGGCACTGCCGTTGATACGtctttatcattaaaaatgataaatccAGGTAAATCGATAGATATATTGAATGGCGAAGGACTATCtgaattaaacaaacaaaataatgatatttcaACAATAGAACCGGAACGATTCTCCAAAGAACAACGTGGCACATTATCACCAACGGCCGcctttttattaacatttccCGTTGTTGTTTCAACGGCTGGAGCCGCTGGCAGCAATCCCGCTATTGATAATTCAGCAATCGAACACTTGGACATGTcacatttaaatgataaaaatcgTTCAAAAGATGAAGCTATTATTGATAGCCGTGCCTCTACAGCAACAATTACCTTGAATACTAATGAAATCATTTTCGAACCGATTGCCAATAATTGTACAGAAAGAATAAATTCCGGTATTGtaaatagtaatattttttctgtatCATCATCAAAAATGAGTCAATCCGTAGCTGATGATAccaaaaatttcaaaacaaatacTGATTTAGTACATTCGATTTCTAAAAATTCTTTATCGCAAATTAAAATGTCAACGATAACAACATCCACCTCACCAGCgacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacatcaacgaCAACagcatcaacatcatcatcaacgaAAACTACAGCGATTTCAACACCAGTATCATCTACTAAAATAATATCGTCTCCAATTTCCTCCAATAATGTTCCTGCTCCAATGTCAGAAGTATTGTCGCTTTCGGCATATTCACAAATATCAACATCATCTTTTGATGTCAATTCAAATCCATCggaatttgttaataaaaactCAAATTCAATAACAAACAGTGATACATTGAATACACCATCTATTCTGACTACAAACGAAAAGAATCTGAAATCAAAAGCAATGTTATTAGACGATAAAAAAGTTCCAAATGAATGCATTTCATTGGCGCGATcagttaaatctattttaGATAACCATTCGTTAATCAATCAATCAGTATCTTCAAATATGGATGTTTGTAAGTCAATAACAATTTCAAATCCAGTTACACCAAATATTACAGCCGTAATATCAAATATCGGATGTAGGGTAGCAAATATTACAcctacaacaacaacaacatcattcaaaaacaaatcaatcttagataattcttatatacaacCATATCCAAATCCTAATGCATGTACCACTGCCCTTACATCACCAATATTAACAACTAAAATTATTCCATCAACTATTCCACCGGATTCAATGTATACCAAGAAGAACAGCATTTTAGCTACAGAATCATTTTGCACatcaattattgattattCTTACACACCAACAGTGTCTACACCCGTTACAACAAATATGATTAATTGTAAACcctcaattaaattaaaatcatcatcatccttatcatcatcatcatcaatatcatcatatataccaatattaaaaacaaataaatcaattcaGAGCGCAGCGAGACCATCAATAACGACTACTGACTATTCTCAATTAGCCGGCATTTCATTTGGTACTTCAATGGCCGTTCCACTCGTAACGCAATGTAACATAATGTCAAAtctatcaaataatatatctgCAAAATCGTATTTCTCACAAAAGCCAttaccatcaccatcaccatcgTCGACATCAACCAATAAAATATCCTCATCATATCAAATACcatattcaattcaaaataattccattgaatcgttattaaaatcaattcctAATAAATTAAGTACATTAAGTGTAGCATCATCACCTTTAGAAATACCACCACGGCCGATGATTGGAATActaacgacgacgacgacgacaacaaCACATTCGATATTACCAACTActatttcaaattcaatattcaatgatTCCATAGCACCACGATTCATCACACCATTTACAGTTACACCCGTCTCAGAATGTTTTCAAGCATATTCACTTATTGGCAGTGCAGCACATTCGATGCAACCACCACGGTCATCAACTAAAATTACATCATCATCTTCAGCATCAacttcaatttcaatttcaaattattctgataaatcatcaaatatatacccTTATTATTCcttaacaacaacaacaacgacaacaacaacggAAAGTAGTACGAAACAATGTACGGtatcatcatcaataaatGTACCAATCGTTTCTGATAAATTGGGTACCTGCACGTCTTCAGTGTGTCCGGCACCATTGAAAACAAGTATTTGTGGATCAACGGTAACACCTACAAAATCTATTACATCATGCCATGTATCTAATACAAAATTCAACACCAATAAATTTGGTATGAAACTAAAAACATCATTTCCCGATTATTTTAGCTCAGTAGTGGATCCTGTCTCAGTTGCAGGTGAAGCTGCTGCtacctcatcatcatcatcatccttaACTACTGTTACTTGTCAATCTTCATTAAATCCTTTTTCATCAACACAATTTACACCATCAACGATCACATCATGTCCAATGTTTTCCATAAATTCATCGTATGCAACATCTCTGTCATCATATTTACCATCTTTGGTTACAACCGGAACTATTTCGAATACatcaaataattcattaaactCGTCGCAATCAGTTTGTCAAACAACTCATACATCCTCAAATACGGACATTTGTGAAGCAATAACAACGCCAATATCGACCACTAAAATAACACCATCAATtgtattaaattcaaaatacaataaaagcaattcatattcatatgaTTATACTAacgcatcatcatcatcatcatcattctCTATCGCATCAATTAGTTACACACCATTAACGAATACAATGCCAGATGCTACTAAAGTTacagcatcatcatcaactatttcaaattcaatattgAATGCAAGTAATCCATTTGCCACACCAACAATTCCACATTATTCTCATATATCATCACCAGCAACTTCATCGTATATTCCTTCAAGTGTTATTTTACCAGTTTCGCAATGtacaaaatcatcatcatcatcgtcgtcgtcttcGTCAATAACGATAAATTCAACcggattatataatataagtaattCATCATATTCAATTCCATTTATATGCACTTCAAATTATACATCCTCCGATGTTGGTCGGACTCGTGACACGAGTACATCATTTATACCGGCGGCTACCGAAATCATTCCAACATCATCAAACATATTAAATTCGAAGACGGATACCGTTTATCACGACGCAAACATTCTTCCTAATGTTTCTTATGAGCAAAAAATAATGCCTAGTATACCGTCAACTTCATCATTTATAACATCAATGCCGGATTATTGTTATAGTACGGGTACAACATCAAATATAGGTAATTATGGGACAAGTGCATTGTCTGCCATCGGATCATTTACAACAAAAGAATTATTGTCAAATTCAATAAACAATTCCacgacaacgacgacgacgactacgagaacaataaatacaaaaatagataaaaatccatttatatcATCGATGATAAATATTCCTAATAGATTAGATATGAATTTTACAGATTGTTCTGTATTTGGTGTAACAACAAATAACAAATCACAACATTTACATACCGataactatattaaatataaattaaatacagtATTACCGGATCCAATATCAGTCGTACCATCAAATAATGAAtccaataaaataacaaccaccacaacagcaacaacaataTTATCATCCTTAACAACGCCACCGCATTTAAAGTTACCTCCAGCTACACCAATGGAAAAcataaaatcatcattttcCTTTACATTAACACCAACGTATAATACAATAACGAATTCACTATCCCAATCACAAAATATCAACTACACCAATCATGAAATGTATCCTCCTCCAATGTCACAGACCGCGTTCAATGAAACAAATAATAACCcttatgaattttataatgcattatcaTCGATTGGCGGAAAGTCAAAACAACAAACGGCTAGTAACAACGATTTTGGAAAACATTTATCATCTCTAAACAATTTGGATATGTCTACAAGTACAACAAatgcatcatcatcaacatcaacattaGATTCATCAACAATGATAGGAACAAAAtctaacaacaacaacaacataacatcaaataatttaaaaatgattcaatCCGATAATTATTTGCCACAAACAccatttacattttctttaacaaCCCCGATGACCGattcaaatatgtattttgCCACCGCAATGTCATCATCCTGTGCATCAACTATGGCCACACCATCAGTGCCATCAATTACAACATCAACAACCTATAATTCgcataatttgtataatttatttgaaaatctaCCTGTAATTTCTACAACCAATTCACTaccaacaacatcatcatcatcaaatacaACAGCAATACCTGTGAACAGTAGTGAGTGTTCAACAACCCCCGCTACATTTAATTATGCCCATCAATGTAATGTTAAAGAACCATTTTCATTTGCATTAACACcaacatcatcatcgtcatcatcagTATCGCATTCGATATTTAATGCGACAGCATCAACCAACACAATGTCCTCAAGAAATAATCCTATAGTTAACAATCAAATTCCACCATTTGATCAACCAACATTAAATTCACAATATGAATTAATGTGTGAACCATTCgattacaaaacatataacGAAGCAAATAAACGTATTCATCATTCAACGAATTCAAAAATAACATCTACATCAGCGCAATACTTACTACCTaataccaccaccaccaccaccgatTATTATAATTCTCTCGATTTATTATCAGTTTCTGATAGCGTCCCATTAACatcaaataaaatgcatacaaataataaaatgacaaaattatcaaataataaaaaacctaTAAAAATATCGTCCAAATCAAATCCAATGTCTAAACATGTTAATTGGATGACATGTAATGATACAATTGATTTTCCACCATCATCAATAAGTATGATGGGGCCGCCGCCACCGCCACCACCGCCGCGTCCATTGGATTTCCCgcaaatacaaaacaatattttttatcctCCACCAGCACCGCCACCATCACCACCTCATCATCCTCCAGCCTCCAACCATCAATCATACTCAGCTGTAACCTTAACATTACCGCAATCCGTATCGCAAGGAATTACAAccacatcaacaacaacatatccttactcatcatcatcatcatcatcatcacaaatGCCACAAAATAAACAGAACTACAAAAATTTCGATCATTTTATACAACAGACGGGATCGCAACAACGAcaagataatttaaattattattatcatcatcatcataataatccTAATCAGACGACGACGACCAGCGTATTAGATGATGCTGCATCATCATCAATGCAAACATCTTGGTCACCAAAATTATCggatttttctataaattatatcccACCACCAACTCTACCAACTTTACATGGAGATTTAGCATTAAATACAATATCCactatgaataataataataataataatgttaaaatgaattcacataataattcaaatactGTCTATGCTGACAATggtaatagtaataataataatagtaattgtGTGATGGGagataacaataaaatacaacaaaattttattccAACATCGTCGTCAGCTAAGAATTTATACCTTGGGAatggtataaataataatcataataatagcAATTCATTTTCAGTTAGTCATTTGGTTAACTCtggaaaaaattatcaaaatcaacaaaaaatgttaaaacaaAATACTTGTGATAGTAATAACTTCCGTAttggtattaaaaataaagatacaaaattgaaaaatgttggTAATTTTACAAcatcttcatcatcaacatcacaaaaaattatatcatgtGCATCGTCATTAAACTCTTCTATTTCTTCACCGACAATATGTACAAGAACGTTACCATCATCTAGTACCATAACAACATCTGCGACAAAAACTACAACTACTAATGCAACgacaacaagaacaacaacTGCCACAACCCATTTACCATATTCCGATTTATCACTATCTTTTACAAACAATTACCAAATGAACACAAATAATGATCATCatcaaataacaaaatgtagTAATTATTCAGCAGAATCATTAatttcacaaaataataataacaccaacaataacaattCCGTTATTCCTGGTTTATCCCATTTGAAAAAGgaaaaaccatataattttACGTATAATTCACAACAATCCACTGATACAACCggaaatatattttcaaatatggATTATATGAGTGGTGGCACAGGTTCTGGCGGAAATGCAATAGCCCCGCCAATGACTCCTatcgattttaatttattaaattccaATTATATAATGCCATcaatatcaacaacaacaacaacaacaacatcatgTTTTACTATACCATCATCATTACAAAATACCATTACTTCATATCATCCACCACCGTTACCACCACATCATTTTTCAACTTCACACGCAACCGCGGCAATTACATCACAATTACCATCTTCGGAAACTGATTATCTTGGTGCTTATACAAACAATTATATGGATAATAgtaataaacaacaacaacaacaacaacagcagcatcAACCACAATATCGACACCAACAGTCAAATCAACTAAATTGTAATCATCATctacaacaaaatatttataatttttctactACGCCGAATAAATcgaattcaatttcaaaaaattatgaaGAACACCATCCGCATCATCAACAGCCACAATCATCAATCAGTCAAACAGAAAATGAATTACCATCATATGCGACGTCATCTCAATCATCCGTTCAGAAAAAATCTAAACAAGAATTTAATCTaatcacaacaacaaccacaacatcGTCAGTCACATCAACAACATACGATTCGTGCTTTTCATCTGTTTTaccaccaccatcaccatcatccCATTTACCATCAAcaccatttataaataatgattcaTTAACTTATCAACATAATTATTCCAATGCATATAAACCACCATCATATTATCCAACATATTCAAATATggatagtaataataataataataataataataataataataataataataataataataatagtaataatactattaataataataataataataataataataataataataataataataataataataataatactaataataataataataataataataataataataataataataataataataataataataataataataatcaattaatgtcaccaacaacaacaacaacaacattatTACCATTACCATTGACATCGCCAACGCTACCGTCTGTACCACCTATTCCGATGATACCATCATCACAGTTTCCATTACCTACAAATAATTTTCCCCCTATATCTCACAATTACCATaatcctcatcatcatcatcatcatcacaacaattatcatcataatcacCACCATCATAACCCCCATAATACTAATAATtctttaacaaattttaatttaagtaCGATATGTCcagaaataaataatgaaaagtTTATAAATCCTACAACGCAACCACGATCACACCAACAACAACCGTCACAACATCAATCACATCATCAGAATATACAACATAATGAATTACCACATATAACTGAGCATCCCCAATCATCAATGATTCCCCAACATTGGTAA
- Protein Sequence
- MKSLQDKNEIKTTSQPTGRKLKTITRKIKERAWEKERRERLNVTFESLAQLLPEYDRTNQKLEDAIKCLIERNFQLVSILEQFNIIPPPSQYHTPKVLSYIVPSIICTAPPTSSIISVATAATTNTTALSSTNNTTKTTSTATETLLNCSTKTIDAAAAATSSSLTTSSENSLKRKTRVSVKQPNIKSTSGVAETVTTNEKLPADATDNICTTLSSNILGNASLIVAVPHSDTTLITSMTTKNVSERTKVLSISQQSQPMSMSANKVLSTTVNQNAITIPTLSATTNVSTSLSANTPMTITTGILIPTTTTTTKAANVISFPINTIRNNKSILLKNSSSKPILGKLPILRVTTNKTYFKAKRKRRKKVEILEERRKLADAENEKLTTTNKINTSNTSQINDLPMDSAIIEYDKRNVIPNNSSINESIKNKIIIEPAISELEIVVGTAVDTSLSLKMINPGKSIDILNGEGLSELNKQNNDISTIEPERFSKEQRGTLSPTAAFLLTFPVVVSTAGAAGSNPAIDNSAIEHLDMSHLNDKNRSKDEAIIDSRASTATITLNTNEIIFEPIANNCTERINSGIVNSNIFSVSSSKMSQSVADDTKNFKTNTDLVHSISKNSLSQIKMSTITTSTSPATSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTSTTTASTSSSTKTTAISTPVSSTKIISSPISSNNVPAPMSEVLSLSAYSQISTSSFDVNSNPSEFVNKNSNSITNSDTLNTPSILTTNEKNLKSKAMLLDDKKVPNECISLARSVKSILDNHSLINQSVSSNMDVCKSITISNPVTPNITAVISNIGCRVANITPTTTTTSFKNKSILDNSYIQPYPNPNACTTALTSPILTTKIIPSTIPPDSMYTKKNSILATESFCTSIIDYSYTPTVSTPVTTNMINCKPSIKLKSSSSLSSSSSISSYIPILKTNKSIQSAARPSITTTDYSQLAGISFGTSMAVPLVTQCNIMSNLSNNISAKSYFSQKPLPSPSPSSTSTNKISSSYQIPYSIQNNSIESLLKSIPNKLSTLSVASSPLEIPPRPMIGILTTTTTTTTHSILPTTISNSIFNDSIAPRFITPFTVTPVSECFQAYSLIGSAAHSMQPPRSSTKITSSSSASTSISISNYSDKSSNIYPYYSLTTTTTTTTTESSTKQCTVSSSINVPIVSDKLGTCTSSVCPAPLKTSICGSTVTPTKSITSCHVSNTKFNTNKFGMKLKTSFPDYFSSVVDPVSVAGEAAATSSSSSSLTTVTCQSSLNPFSSTQFTPSTITSCPMFSINSSYATSLSSYLPSLVTTGTISNTSNNSLNSSQSVCQTTHTSSNTDICEAITTPISTTKITPSIVLNSKYNKSNSYSYDYTNASSSSSSFSIASISYTPLTNTMPDATKVTASSSTISNSILNASNPFATPTIPHYSHISSPATSSYIPSSVILPVSQCTKSSSSSSSSSSITINSTGLYNISNSSYSIPFICTSNYTSSDVGRTRDTSTSFIPAATEIIPTSSNILNSKTDTVYHDANILPNVSYEQKIMPSIPSTSSFITSMPDYCYSTGTTSNIGNYGTSALSAIGSFTTKELLSNSINNSTTTTTTTTRTINTKIDKNPFISSMINIPNRLDMNFTDCSVFGVTTNNKSQHLHTDNYIKYKLNTVLPDPISVVPSNNESNKITTTTTATTILSSLTTPPHLKLPPATPMENIKSSFSFTLTPTYNTITNSLSQSQNINYTNHEMYPPPMSQTAFNETNNNPYEFYNALSSIGGKSKQQTASNNDFGKHLSSLNNLDMSTSTTNASSSTSTLDSSTMIGTKSNNNNNITSNNLKMIQSDNYLPQTPFTFSLTTPMTDSNMYFATAMSSSCASTMATPSVPSITTSTTYNSHNLYNLFENLPVISTTNSLPTTSSSSNTTAIPVNSSECSTTPATFNYAHQCNVKEPFSFALTPTSSSSSSVSHSIFNATASTNTMSSRNNPIVNNQIPPFDQPTLNSQYELMCEPFDYKTYNEANKRIHHSTNSKITSTSAQYLLPNTTTTTTDYYNSLDLLSVSDSVPLTSNKMHTNNKMTKLSNNKKPIKISSKSNPMSKHVNWMTCNDTIDFPPSSISMMGPPPPPPPPRPLDFPQIQNNIFYPPPAPPPSPPHHPPASNHQSYSAVTLTLPQSVSQGITTTSTTTYPYSSSSSSSSQMPQNKQNYKNFDHFIQQTGSQQRQDNLNYYYHHHHNNPNQTTTTSVLDDAASSSMQTSWSPKLSDFSINYIPPPTLPTLHGDLALNTISTMNNNNNNNVKMNSHNNSNTVYADNGNSNNNNSNCVMGDNNKIQQNFIPTSSSAKNLYLGNGINNNHNNSNSFSVSHLVNSGKNYQNQQKMLKQNTCDSNNFRIGIKNKDTKLKNVGNFTTSSSSTSQKIISCASSLNSSISSPTICTRTLPSSSTITTSATKTTTTNATTTRTTTATTHLPYSDLSLSFTNNYQMNTNNDHHQITKCSNYSAESLISQNNNNTNNNNSVIPGLSHLKKEKPYNFTYNSQQSTDTTGNIFSNMDYMSGGTGSGGNAIAPPMTPIDFNLLNSNYIMPSISTTTTTTTSCFTIPSSLQNTITSYHPPPLPPHHFSTSHATAAITSQLPSSETDYLGAYTNNYMDNSNKQQQQQQQQHQPQYRHQQSNQLNCNHHLQQNIYNFSTTPNKSNSISKNYEEHHPHHQQPQSSISQTENELPSYATSSQSSVQKKSKQEFNLITTTTTTSSVTSTTYDSCFSSVLPPPSPSSHLPSTPFINNDSLTYQHNYSNAYKPPSYYPTYSNMDSNNNNNNNNNNNNNNNNNNSNNTINNNNNNNNNNNNNNNNNNNNTNNNNNNNNNNNNNNNNNNNNNNNNQLMSPTTTTTTLLPLPLTSPTLPSVPPIPMIPSSQFPLPTNNFPPISHNYHNPHHHHHHHNNYHHNHHHHNPHNTNNSLTNFNLSTICPEINNEKFINPTTQPRSHQQQPSQHQSHHQNIQHNELPHITEHPQSSMIPQHW
Similar Transcription Factors
Sequence clustering based on sequence similarity using MMseqs2
- 100% Identity
- -
- 90% Identity
- -
- 80% Identity
- -