Aper007200.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Antheraea pernyi
Gene Symbol
sip1
Assembly
None
Location
GWHABGR00000029:4813496-4837389[+]

Transcription Factor Domain

TF Family
GCFC
Domain
GCFC domain
PFAM
PF07842
TF Group
Unclassified Structure
Description
This entry describes a domain found in a number of GC-rich sequence DNA-binding factor proteins and homologues [4, 5], as well as in a number of other proteins including Tuftelin-interacting protein 11 [1]. While the function of the domain is unknown, some of the proteins it is found in are reported to be involved in pre-mRNA splicing [1, 2]. This domain is also found in Sip1, a septin interacting protein [3].
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 7.3e-56 7.6e-52 176.8 2.7 14 275 2146 2389 2133 2389 0.96

Sequence Information

Coding Sequence
ATGTCTGATGATGAGGTTATTCGATTTGAAATCACCGATTACGATTTAGACAACGAATTCAATCCAAATAGGAATAGGAGAGCTAAAAAGGAGCAACAAATATATGGTGTATGGGCCAAAGACAGTGATGAAGATGACAACGAAGATAATATACGCCAAAGAACACGTAAACCTAAGGATTATTCAGCTCCTATCGGGTTTGTGGCTGGTGGTGTACAACAGGCTGGTAAGAAGAAAGAAGAGAAAAAAGATCTTTCTGCCCAAAGGCTGCTTGATGAGCCTATCGTAACGGGATCAGGCACAAAGCTTATACAAACAGGATCTAAACGACCTCCAGATCCAGAGATTTCTCCTGAACCTATTAAAAAAACAGTTACCGATCCGTCTCAAGGTACACCATCAATCCAGACGATGTATATGCACCCTAGTTTACTTGAGGGAATTAAAAAATACGATGAATCAGACAAAGGCCCTTTTATTGTACATATTTCACGCACCGAGACTGACCCGGCAGCGGGGGCGACAATTCGCCCTATAAAATTCGGTCAATTCTTATCTGTTAACAAGATTAAAAACATCTGTAATGGTGGTTTAAAAAAAGTAGGCAGAAACCGAATATCGCTAGAGTTTAAAACGGCAACAGATGCAAATAATTTCCTGGAGAACCCACTGTTACACCAAAACAAATACAGCCCAAACATCCCTAGTTACAATGTAACCCGAATGGGTCTCATCAGAAATATACCAGTGGAGTGGTCTATGACTGAGTTGGTTGAGTCCTTGGAGTTCCCTGAAGGCTGTGGGCTAGTTTTGAAAGCTCGTAGATTAAATAGGAAACAAATTGTCGATGGCACGGCCAACTGGATTCCTACACAATCAGTGGTGCTTACTTTTAAGGGACAGCTTCTGCCAAAATATGTTTATTCTTTTTATATGTCTCTACCTGTTGAGACATATCAGCTCCCCACTATTCAATGTTTGAACTGTTGCAGATTTGGCCATATCAAATCCCAGTGCCGGTCAAAATCTAGATGCTTTAGATGTGGTCAACCTCATTCTGGCAATGAGTGTGACATACCAGAAGACAAAGCGTCGTGCCTATATTGCTCTGGCAAACATTTTTCAATTAATAGAACCTGCCCTGAACAAGATAGACAACGATCCATTAAATTAGTAATGTCACAAGACAGCATTTCCTACGAGGAGGCAGCACTAAAGTTTCCAGCGGTGCAAAGATCATATGCTGAAACAGCAAGGGTACTTTTCAGTCCTCCTGTACCTGTATTGTCTTCTACCCCTCATCGTACTGCAGAGTCAAATATCAGATCGTACAAAAAAACTTACTTTTCTAGTCCAAAACCTAGAGCACCTCTTGCTAAGTCTTTTGACAAGATTGCTCATCAAGCTATTATAGCCCCTGAACCATCCTCCTTTCCCAATGGGTGTGCTATTCAACAAAATCGGTCTGTGACAGAAACACCTAACGAAAGTCTTTTAGATACTATGCTGTCTATGGTTTTAAGTTTAATATCAATGTATAGTGATAGTTTACCGCCCAACGTTGCCGAAAAGCTTAATCAAATTGCGAATATTATCCCTAAAGATGGATCTGTTCAAAATTATTCAATGGAATACTAACAGTATTAGGCAGAGAAAACCTGATCTTTTAAACCTTATATCAACATATTCCCCATCCATCATAGCTATCTCAGAAACATGGTTAGTGCCTGGATCTCAGTTTCGAGTTTCTGGTTACTCCTGTATCCGAGATGACAGAAGTGATGGGTATGCAGGTGCAGCTTTATTTATAAAGAGGCATTTGAACTTCTCTCAGATCACTTTACCACCTCACAGCTCAAATATCAATGCTGTGGCTTTTACAGCAATTGGAATATCCTTTCTTTCTTTATATATTCCACATCCTCACTCATCCCTTATCCCAGATATACTGTTAGTTTTATCTGCACTCCCTGCTCCAGTAATTATTATGGGAGATTTTAATGCACACCATCGCTTATGGGGCTCCTACCATTCAGATTTATTTGCTCGCTCCCTTATGGACATTTTTGAGGAAATAGATGTAGTAGTGATGAATGATGGTTCTCCAACACGTAGAGTTTACCCTCTACAAGACCCCAGAAGTGCCGTCGACATAACCCTATGTTCTCCATCTCTCGCATCCAGACTTTCATGGGAACTAATTAGAGATTCGCATGGAAGTGACCATTATCCCATCCTAATCAGTATACCTAACAGAACTATGCCAAGGTATAAGACTTTTTCTACTAATAAATATAATCTGAATAGAGCTGACTGGTCATCTTATGTTGATACTCTTGACATCAAACTGGACTTCATTCCAACTCCTAACGAAAATAATGTTCTTCAGTCATATTCTTTATTTGTCGATACATTAATTTCAACAGCTGATTCTCACATCCCCAGAAAACGAAATGCGCCCACTAACAAAATCTCTCCTCCCTGGTGGGATGCTGAATGTACGAATCTTATTCATTTAAGAAAACAGGCTGAATCCACTTATAATTTATCTATGACTGCTGCTAACTTCATTAGTTATCAACAGATTGCGGCACGCTGTAAGAGACTTTTAAAACTTAAAAAAAGATGTGGATGGGTTCGTTTTTGTGAAAACCTGTCTCCCCTGACTCCCCCCAAAGTAATTTGGAAACAAATAAAAAGATATCGTGGAGCTTATGATAGGGAAAACCTGACTTCTAATGATTTCACCTGGGTGGAAGCATTTTCAAATAAAATAGCACCTCCTTTTGCTCCCAACTTGGATTCACTACCGGGAAACTCCTGCACTCCTTGGCATAGCATTCCTGCATCATTGGTTTCAACTCACTGGTTAGATTCACAATTTTCACTAATTGAATTACAGTATGTCCTTGATAGTCTTGTTGACTCTGCTCCTGGCATAGATTTTATACCTTATTCCTTCCTCACTAAAAGTAACAAAAAAGCAAAACTGTTTTTCCTAAATATTATTAATTCTTTTTACTCCAGTGGTGTGATTCCAATCTCCTGGAAATCACAGATTATTGTCCCCATATTAAAGTATGGTAAAGATCCTTCAGATCCAAATTCTTACAGACCTATTTCCCTTTCTTCTACTTTGTCTAAAATCATGGAGCATATGATTAAAAATCGACTGGAGTGGTTTGTAGAAAATAATCATTTATTAGCAAAGTCTCAAACAGGGTTTAGGAAAAATATGTCTACCATGGATAACTTGAGTATAATAACAACCGACATTCGATGTGCGTTTCAAAAAAAGAAATTTTTAGTAGCAGTGTTTCTGGATGTGGCTTCCGCTTATGATAAGGTTCTCCTTCCGGTGCTCAGGAACAAGCTTGTTCAGCTGAGTGTCCCAGAGAAGATGACCAACTACATAAGCAACCTCCTGATGGAAAGAGCGATCCATGTCAAAACACAGGAAGGATTGTGTAGCCCAAGATTTGTATGGGAGGGACTACCCCAGGGCTCGGTCCTTAGTCCTCTGCTTTATAATATATATACTGCTGATCTCAACCAAGCGGTAGAATCTTTTTGTGAGATACTACAGTATGCCGATGATCTAGTATTATATATCTCTAGCCCGTCTATTACTTATGCAGTGGCTCAGTTAAATACAGCCTTATCATACCTAGGCCAGTGGCTTGATACCCATGGTTTGACATTAGCAGTTCCCAAGTCTTCAGCTGTCATATTCACTAAGAAAAGGCAGGTACCATATATAGAAATACTTTATAATGAAGAACCTATTCCCCTGAAGGCCCATGTAAAATTTCTTGGCGTATTGTTAGATAGTAAGTTAACAGGTATTCCTCACTTTAATTTTGTTGTGGAGAAATGCGAAAAATCAATAAACGTACTAAGAACCTTGGCTGGTGTCTGGTGGGGTGCTCACCCCTATACACAAAAGCTTATTTATAATGCCATTGTCCGAAGTCATTTGGATTATGGAGCATTTCTACTTGACCCTTGCACTAAAGTTGCTTTAACAAAGCTAAATGGCATTCAGTCTAAATGCCTAAGAATAATCTTGGGTGCGATGAAATCGTCTCCAATTAATGCGCTACAAGTAGAATGTGTAGAACCGCCTCTGTATCTTCGGCGACAATACCTGTCAGATAGATTCCTTTACAAACTTTTCCAAAACACAAGCCATTCTTTAATCCCTAAACTTCAGATCCTTTTGCAAGAGGTTGAATCCCTTGGATACCACTCGCTACAAGACCTTCCGTGTATACTTCAATCATTTTACAAAATCAGCAAGTTAACATTTCCAATCTTTAAATTTGAGATCAACCCCTTGTTTGATACTAACTACTATGCATTGACCTTCCAACCAACCATTATAATGCATTTTGACATTAACAAGGATACTGTCGAAGCCAACAGTAAATTTCAAGAAAAACTAGCTAAGGAATGGGAGGGATGGGTTCCAATTTTTACTGATGCCTCTAAGTTAGTCAGTTTTGGACATGTTGGTGCAGCGGTCTGGGTACCAAAGCACAGAATTATATTAAGCTATAGATGTCCTCCTGGTACCACAGTGTTTACTGGGGAAGCTGTCGCCATCCTTGAAGCTGTACTATTTATAAAAGCACACAAATTAACGAGATCCATAATATTTACCGACAGCAAAAGCTGCCTTGAAGCGATTATGTCTAACCCTTTCCGTTCCAAAGATAAGCACGCAGTTATATTGACAATTAGGAAAGCATTGTATGAGTGTTACAATTTAGGTTTTAGTACGGTTCTTGCCTGGATCCCGGGGCACTGTGGAATTTCGGGCAATGAAACTGTGGACTCCTGTGCCAAAGTTGCTATCCAGTCGGGTTCTTTGGATCATTATAGAATTTATGCAAGGGATTTATGCTTATTATCTAAATTAAGATTGTTTGATGCATGGCAAAAGAGTTGGGATTTGTCTCGGAAATTAAAGGGCAAGCATTATGGGTCTTTGCAAACTGATATACCGCAAAAGCCATGGTTTTTTAAATTTAAAAATGTTAGTAAAAATGTTGTCTCTATTATTTGCCGCTTGCGCCTTGGGCACGTCAGCACTCCAGTACATTTGAATAAAATAAGGATCAGGGATCACTCTATTTGTGAATGTGGCTTAGAGGACGGATCACCGGATCACATATTTTTTAATTGCCCTAGAAACAGAGTCTCTCTCTATGATGTTCTACCTCCTTCTATTCCCCGTCCTACTAACATTATGTGTCTCTTAACCCTTGTTACGGATAATCATTTAATTCTAGAATGCCTGTCGAAATTTATTAATACTAACAAAATTAAACTTTAGATTTTAGTGTGATGCTCCTGTGTACGTCTGTATTCTAGCAATATGTTGTATGTTTAGTTTACATGTGCTTTCTTTGTGGTATCTGTTTGTAGATAGCCCGGTCTGGATATAAAGATAATCGTTTAATTGTCTGGCGCAACTTCCATTGTTTATGGCTCCATTCACTTGACATTGGCAAAATTGTGTGCGCACACATGTTGCCATTTTAAAAAGAAGAAGAAGAAGAAGTGATGATGGATGATTTTCTAATACTCACCAGACTGTCTACCTTCTTCAATTTTAAAATGAAGTATGTAAAAGGCATTGAATTAGAGTCTTCAGAGCCAACAACTTCTCGACCAAAATTTACAGCAGACAGCTCAGATGAAGAACTCAACGTACCTGATGAGAGTGAGACAGCCGGTATAAGAAGACAGGGACAGGGTATGAGACCCTCTAATTTAGGCGGTAATGTGGGAACATGGGAAAAACACACAAAGGGAATTGGTGCTAAGTTATTATTACAGGTATATATGGTTTTATCAGGATTTAGAAAAGGCCGAGGTGCAATCGGAGCTTACGGTCCTGAGAAAGCTACTCTAAAAGCGAAAAAAGACGAGGAGCGTCGCTTAAAAGAGAAGGAAGAACAAGAGAAAGGCAAGGTGGAGAAGATATATAACTGGAAGAAATCACATAAAGGACGTTATTTCTACAGAGATGCTGCTGATGTTATACAAGAGGGTAAACCTACGATGCATACTATTACAAGTAACGAACTATCTCGCGTGCCCGTTATCGATATGACCGGTAAAGAGAAACGCGTTCTGAGCGGGTACCACGCGTTGCGAGCGCACGCCCCCCGCTTCGAGCACGAACCTCGACGTAAATGTGATAATTTCTCCGCTCCTCAATTGGTACACAATTTGGAAGTGATGGTCGAGTGTTGTGAACAGGATATAATACAAAATGCTCGAGAGCTCCAACAGGCTGAAGACGAGATTGTAGTCCTGGAAAGGGACTTGGAGGATTGTAATATCAAATTGGAAGAGCATGACCAGGTCATCTGTAAAGTGCAGGTGATATTAGAGAAAGTGGAGGAACTGAACAAGCCTGATGTTTCGCTCGAGACGGCTTATGAAATGTTCGGTTTGGGTTCAATAGCTGGTAACATTGTGAGTCCACTGTTGAGCGCTTTGTTAGCAACATGGGATCCACTGCAAGCGCCCGAGGAACCTTTACCAATGTTCCTAAAGTGGAAAAATCTTCTCACCGAGGAGTCTTACAACAGCTTATTATGGCAACACTACATAACCCATATTAGTAATGCTGCTGAATCGTGGAACCCGCGTGCCCCGGAGGCAATGGTCCGTGCTTTAAATGCATGGGCGGAGGCCTGCCCCGCGTGGATGGTATCGTCATGTGCAACTCGTTACATCGTCCCCCGAGTACTCGACGCGGTGCGAGTTTGGGACCCCACGGGGGACACGCAGCCATTGCATCAGTGGGTCCTGCCCTGGCATGAGCTAGCTGGGTCCGCTCTGGCGACGGGCGTGTACCCGCTGATCCGGTCGCGGCTGGCGAGCGCGCTGTCGGGCTGGCACCCGGCGGACGCGTCGGCGCGGGGCGTGCTGGCCGCGTGGCGCGGCGCGTGGGGTGGGGCGCTCACCGCGATGCTGCACCAGCACGTCGTGCCCAAGCTCGAGCACTGCCTCCAGCACGCGCCGCTCGATCTCGTCGGAGGCGATAACACTGCTTGGCAGTGGTGTGTCGAGTGGGTAGACCTACTCGGGGCCCCGACCGTGGCCGCTATAGCGAGCCGCGCGTTACTACCGCGTTGGTTGGCAGCACTCGCCGCGTGGCTAAATACTAATCCCGCTCACGCAACTGTCCTCAACTCTTACACCGATTTCAAGAGAATGTTCCCCGAGGAAGTGCTCAAAGAGCCGGCAGTGCGGGACGCGTTCCGCAAAGCTTTGGACATGATGAACCGAAGTACGGACATCGATTCCATTGAACCTCCACCGCCACCGCGTTTCACGTTACCCGATCCGAAGGAAACTTCTAGAATCAACGACATACTAGCGACTGTGAACCAGCAGAAGAGCTTCTCGGAACTCCTCGAATCTAGATGCGTGGATAGAGGCATCACGTTCGTACCCATCGTTGGGAAGACGAGGGAAGGTCGGCCGCTATACAAGATCGGTACAATGCAATGCTACGTTATAAGGAATGTTATTATGTTCTCGAACGATGGTGGAAGGAATTTCGCTCCGATCAGTATGGAGAAGCTTTTGAAAATTGTTGAGGATTGA
Protein Sequence
MSDDEVIRFEITDYDLDNEFNPNRNRRAKKEQQIYGVWAKDSDEDDNEDNIRQRTRKPKDYSAPIGFVAGGVQQAGKKKEEKKDLSAQRLLDEPIVTGSGTKLIQTGSKRPPDPEISPEPIKKTVTDPSQGTPSIQTMYMHPSLLEGIKKYDESDKGPFIVHISRTETDPAAGATIRPIKFGQFLSVNKIKNICNGGLKKVGRNRISLEFKTATDANNFLENPLLHQNKYSPNIPSYNVTRMGLIRNIPVEWSMTELVESLEFPEGCGLVLKARRLNRKQIVDGTANWIPTQSVVLTFKGQLLPKYVYSFYMSLPVETYQLPTIQCLNCCRFGHIKSQCRSKSRCFRCGQPHSGNECDIPEDKASCLYCSGKHFSINRTCPEQDRQRSIKLVMSQDSISYEEAALKFPAVQRSYAETARVLFSPPVPVLSSTPHRTAESNIRSYKKTYFSSPKPRAPLAKSFDKIAHQAIIAPEPSSFPNGCAIQQNRSVTETPNESLLDTMLSMVLSLISMYSDSLPPNVAEKLNQIANIIPKDGSVQNYSMEY*QY*AEKT*SFKPYINIFPIHHSYLRNMVSAWISVSSFWLLLYPR*QK*WVCRCSFIYKEAFELLSDHFTTSQLKYQCCGFYSNWNILSFFIYSTSSLIPYPRYTVSFICTPCSSNYYGRF*CTPSLMGLLPFRFICSLPYGHF*GNRCSSDE*WFSNT*SLPSTRPQKCRRHNPMFSISRIQTFMGTN*RFAWK*PLSHPNQYT*QNYAKV*DFFY**I*SE*S*LVILC*YS*HQTGLHSNS*RK*CSSVIFFICRYINFNS*FSHPQKTKCAH*QNLSSLVGC*MYESYSFKKTG*IHL*FIYDCC*LH*LSTDCGTL*ETFKT*KKMWMGSFL*KPVSPDSPQSNLETNKKISWSL**GKPDF**FHLGGSIFK*NSTSFCSQLGFTTGKLLHSLA*HSCIIGFNSLVRFTIFTN*ITVCP**SC*LCSWHRFYTLFLPH*K*QKSKTVFPKYY*FFLLQWCDSNLLEITDYCPHIKVW*RSFRSKFLQTYFPFFYFV*NHGAYD*KSTGVVCRK*SFISKVSNRV*EKYVYHG*LEYNNNRHSMCVSKKEIFSSSVSGCGFRL**GSPSGAQEQACSAECPREDDQLHKQPPDGKSDPCQNTGRIV*PKICMGGTTPGLGP*SSAL*YIYC*SQPSGRIFL*DTTVCR*SSIIYL*PVYYLCSGSVKYSLIIPRPVA*YPWFDISSSQVFSCHIH*EKAGTIYRNTL**RTYSPEGPCKISWRIVR**VNRYSSL*FCCGEMRKINKRTKNLGWCLVGCSPLYTKAYL*CHCPKSFGLWSIST*PLH*SCFNKAKWHSV*MPKNNLGCDEIVSN*CATSRMCRTASVSSATIPVR*IPLQTFPKHKPFFNP*TSDPFARG*IPWIPLATRPSVYTSIILQNQQVNISNL*I*DQPLV*Y*LLCIDLPTNHYNAF*H*QGYCRSQQ*ISRKTS*GMGGMGSNFY*CL*VSQFWTCWCSGLGTKAQNYIKL*MSSWYHSVYWGSCRHP*SCTIYKSTQINEIHNIYRQQKLP*SDYV*PFPFQR*ARSYIDN*ESIV*VLQFRF*YGSCLDPGALWNFGQ*NCGLLCQSCYPVGFFGSL*NLCKGFMLII*IKIV*CMAKELGFVSEIKGQALWVFAN*YTAKAMVF*I*KC**KCCLYYLPLAPWARQHSSTFE*NKDQGSLYL*MWLRGRITGSHIF*LP*KQSLSL*CSTSFYSPSY*HYVSLNPCYG*SFNSRMPVEIY*Y*QN*TLDFSVMLLCTSVF*QYVVCLVYMCFLCGICL*IARSGYKDNRLIVWRNFHCLWLHSLDIGKIVCAHMLPF*KEEEEEVMMDDFLILTRLSTFFNFKMKYVKGIELESSEPTTSRPKFTADSSDEELNVPDESETAGIRRQGQGMRPSNLGGNVGTWEKHTKGIGAKLLLQVYMVLSGFRKGRGAIGAYGPEKATLKAKKDEERRLKEKEEQEKGKVEKIYNWKKSHKGRYFYRDAADVIQEGKPTMHTITSNELSRVPVIDMTGKEKRVLSGYHALRAHAPRFEHEPRRKCDNFSAPQLVHNLEVMVECCEQDIIQNARELQQAEDEIVVLERDLEDCNIKLEEHDQVICKVQVILEKVEELNKPDVSLETAYEMFGLGSIAGNIVSPLLSALLATWDPLQAPEEPLPMFLKWKNLLTEESYNSLLWQHYITHISNAAESWNPRAPEAMVRALNAWAEACPAWMVSSCATRYIVPRVLDAVRVWDPTGDTQPLHQWVLPWHELAGSALATGVYPLIRSRLASALSGWHPADASARGVLAAWRGAWGGALTAMLHQHVVPKLEHCLQHAPLDLVGGDNTAWQWCVEWVDLLGAPTVAAIASRALLPRWLAALAAWLNTNPAHATVLNSYTDFKRMFPEEVLKEPAVRDAFRKALDMMNRSTDIDSIEPPPPPRFTLPDPKETSRINDILATVNQQKSFSELLESRCVDRGITFVPIVGKTREGRPLYKIGTMQCYVIRNVIMFSNDGGRNFAPISMEKLLKIVED

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
-
90% Identity
-
80% Identity
-