Pinf042699.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Pegoplata infirma
Gene Symbol
TY3B-I
Assembly
GCA_963921195.1
Location
OY992541.1:9893224-9914467[+]

Transcription Factor Domain

TF Family
Fork_head
Domain
Fork_head domain
PFAM
PF00250
TF Group
Helix-turn-helix
Description
The fork head domain is a conserved DNA-binding domain (also known as a winged helix) of about 100 amino-acid residues. Drosophila melanogaster fork head protein is a transcription factor that promotes terminal rather than segmental development, contains neither homeodomains nor zinc-fingers characteristic of other transcription factors [1]. Instead, it contains a distinct type of DNA-binding region, containing around 100 amino acids, which has since been identified in a number of transcription factors (including D. melanogaster FD1-5, mammalian HNF-3, human HTLF, Saccharomyces cerevisiae HCM1, etc.). This is referred to as the fork head domain but is also known as a 'winged helix' [1, 2, 3]. The fork head domain binds B-DNA as a monomer [2], but shows no similarity to previously identified DNA-binding motifs. Although the domain is found in several different transcription factors, a common function is their involvement in early developmental decisions of cell fates during embryogenesis [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 4 4.5 1.1e+04 -2.0 0.0 55 85 1002 1033 995 1035 0.77
2 4 1.9e-28 4.4e-25 88.9 0.1 1 79 1417 1492 1417 1501 0.94
3 4 4.2 9.8e+03 -1.9 0.1 24 42 1531 1549 1521 1558 0.78
4 4 3.5 8.3e+03 -1.7 1.4 13 79 1924 1999 1916 2004 0.68

Sequence Information

Coding Sequence
ATGACAACGAAATTGGAAGAATTGAAGGTTAAACAACTAAACCAACTCCTTAAGAATAATGGTTTACCCACGACGGGAACACGGGATAATAAGGTTGCAGTTTTAGCAGGGGTATTGGAAGCGGACGAGGTGGATAATGATGAATTGGTTGCAAAACCATGGGAAGCACAAGTTGAGGAATTAAAGGCGATGATATCGAACTTAACACGTGCAGTAAGTGAAATCGGCAATTCCCAACGTAACACTAATGGTGAAACCTCTCCAACGGGTAGTGCCTCTGTTATTGCGCAAACTTTGCAAGGCGAAGAGGAAACTGACGACGATATCCCAGCGCGAATGCAAATTAACAACATACCGGAGATAATTGGCATTTTGCCTGATTACGACCCGGTAAAACTCTCTTTGTCATCCAGCCAATTTATTGAGAAAGTAGAACAGCTCCAACGTGCTTATGGCTGGAACGAGGAAAGTGTATTATTTGCAGTGCAACATAAATTAAAGGGGTTTGCTAAGGGCTGGTTGGACTCACAACCTGTCTTTACATCATGGAACGTTTTTTCTTCGGAATTTAAGGAAGATTTTCCAGACGCAGCTATAGCAGCTGATGTTCATCGAGAACTGCAAGCCCGTAGGCGACTTCATACTGAAACGTTGGTAGAATACTACTATACGATGTTGACCATGGGTAGACGTGGTAAATTAGATGATGATTCAATAATCTCGTATATCATAAAGGGTATTGGGGACCCACAGTTGGTTAAAACGCTTTTAGCATCAAAATTTGCTAAGTGTAACGACTTGTTGATGTCATTACAGAAACTGTCGGCATCGCCGGAATCAACACGGCAAAACCAAAGAGGTGAAGAGCAAAGAAACGACTCCAGACGTCACAAGGGTGATGGCAAGATGGTAAAATGTTATAACTGTAACGAACAGGGTCATATTTCTTCAAATTGTCCAAAGCCTCAACGTAAGGAAAGATGCAAAAACTGCCAGAAAATTGGGCACAACGAGAAGGAATGCCGAAGTAAATCGAAGCCTTCAGTGGCCAACGTTGAGGATGCGTGTGATGTGGAGTCTATTAGTTCACCTCCGGTTATGAAACAAATTAAAATCGAGGACAAAATTTTAACAGCCTTTGTTGATACGGGTAGTGTATACTCTTTAATAAAAACATCTCTAGTTTCAGATGCAAATCGACAGTCAGTTTACAAACATTTGAAAGGTTTTGCGGGTTCCATCATGGTGGTACATCAGAAAGTTTATCTACCCATAGAAATCGATGGCGAAACGGTTCAAACGCAATTTTACATAATCGATGATGAAAATTTTCCTTACGATGTTTTACTCGGACGTGATTTGTTGTGCCGTGACGATAAACGAATGATAATCGAAGCTGGTGTTCTACAACTACAAGAAGCAGGTAAGGATGATTGTTTTAAGACGAGCGAACTAGATGTAGTTCAGCGACGGTGTCTTTTTGATTTACTggcaaaatttgaaaattgttttgctGAAAACGTCGGGGACATAGGCAGGTGCCAAACCACAATGATGAGTATTGAGGTTACTACGGATAAACCGATTCTGGGTAAACGATACATGGGTCCGTTTTCTCAACGTGGTATATTGTCAAACATCATTACAAATTTGATGGAAAACAACATTATACGACCGAGTGCGTCACCACATGCAGCCTCCGCATTGTTGGCAAAGAAGTCTAATGGAGAGTTTAGAATGTGTGTTGACTTTAGAGCTCTAAACGCAGTTACCGTAAAGAAGCAGTATCCAATGCCGGTGGTAGAAGAGCAATTGTCTAGGTTAGCTGGTAACACATTTTTTACGACGCTAGATATGACTTCGGGTTATTACCAGATACCCCTAGACGAACAAAGTAAGCCATTTACGGCATTTATAACACACGAAGGACTTTTTGAACACAATGTAATGCCCTTTGGCTTGGTAAACGCTCCAATGGTGTTTCAGGAGATGATCGTTAGTATCATAAGGACGTTAACAAATAAGGACAACATTATCAGCTACGTCGATGAGGTGATTATCGCATCGAAGACCCCGGAGGAAGGTATTTTGATTTTAAGAGAATTTTTGGAGGCTATACAAAGGGTTGGTCTTACGTTACGTCCATCAAAGTGTACATTTTTAAACACAACCGTCAATTTTCTGGGCCATATAGTTAGTGGGCAAGGTATACAACCAGGTACACAGAAAACCGAATGTATAAATGATTACCCCAGGCCAACAGATGTCTCTGGGGTCAGAAGATTCTTAGGAATCACCGGCTTTTTCAGGAAATTTATTCCCAACTATAGTTTAATCTCAACGCCACTCACAAAGTTATTAAAGAAGGATTCAAAATTTATGTGGGACAAGGAACAAAAAGATTCGTTCGAAAAACTAAAATCAGTCATTACTGAAAAATCGATATTAACGTTATATGATCCTAATAAGCAACATGAGGTGCATACCGATGCCAGTTCAATGGGACTTTCGGGGGTATTATTTCAACGTGACGGCGAAGATTTGAAACCAGTATTTTTCTATAGTCGTCAGACATCAGAAGCAGAACGTAAATATGCAAGCCATGAATTGGAAGTTTTAGCCATTGTAGAAACGTTACAACGATTCAGAATGTATGTACTTGGTAAGAACTTTACTATCGTCACAGATTGTAATGCCGTCGTTACGACTAAGGCTACTAATCCGTTACCACCACGTATAGCAAGATGGCTACTGAAATTGCAGGAATTTGATTACCAGTGTATTCACCGAGCGGGAAGTCAAATGTCTCACGTTGATGGCATGAGTCGCAGTCCTACTTTACCACCCTCAGAGACTACAACGGTGGCCGATTACgttttatataattttgactCTGACTGGATAATGTCCATGCAGTTACAAGATCCGAAAATAAAAACCATAGTAGATGTTCTTAAAGGCAACGATACCAAGAACGAAAAGCAAGTCAAACAAGACTACGTTATACATAGCAACAGACTTTTCCGTAAAGTTAAAGATGACCGCAAGTTATACATTCCCGAGGCCATACGTTGGCGAATCACCAGGTCATGCCATGATGAAGTTGGACATTTTGGTGTCGAGAAGACCGTAGAGAGAATCTCAAAGAACTTTTGGTTCCCACGTATGCGGCGATACATAAAATCCTATATACAAGCTTGTCCTGATTGTTGTTTAAATAAAGTCAAAGGTGGTAAGCCAGAAGCCCAACTACACGTTATGGAAATATTACCGATCCCGTTTAGAAAGGTTCACATAGATCATCTGGGGCCTTTTCCAAAAAGTAAGTCTGGAAATTTGTATATAATCGTTTTATTTTGTTCTTTCAGCAAATACACAATTCTGAAAGCATTGCGAAACACCAAAACCAAACCGGCACTAAACGCAATTAGAGAATTGATGACTACCTTCGGGCAGCCAATGTGTGTTGTAACCGATCGAGGTACGGCCTTCACATCCAAGGACTTTGAGGAATTCGTAACCCATTACGGTATACAACATATCCTAACCGCAGTGCGCACGCCGCGTGCAAATGGCCAGGCGGAACGGGTAAATAAAACTCTTTTATCATCACTGAAATGTACGGCTGGAAACAGCACAGACTGGGATCAATCACTCCCAGATATCCAGTGGTCCATAAACTCACAAGAGAATTCAACTACCAAGTTTAGTCCGAATGAACTAGTTTTCAACTACAACCCTCGAGATGTAAGCTCAAACCGAATTATACAAGCTCTTCATGATGAAGAAACCGATGACCATCATCAATACGAACTACGCCATCAGAAAGCAGCACAAAATATCAACGACGAAAAGCGTAAGTGGAAAGAAAGATTTGACAAGAAACATCAGGCTCCACCACAATATTATAAAGATGACTTAGTTGTCATTGATCATGTTCCGGGTGCTACAGGTACTTCTCACAAATTAGAGCCGCGATATAAAGGTCCCTATATGATCACGAAGGTATTAGAAAATGACCGTTATGTAGTGGAGGATCTCCCAGACGTTCCTAAAAATCGTCGTCGATACGTTAACATATTTGCCAGTGACCATATCAAACCATGGTGTGGTCTTCCTAAATTAGACGCTGATGAAACCAACAAGAACGACACCGAGGACTCCTCAGATGACGAACCGTCAGGAAAGGCCGAGCTagatTTGGAAATTTATCAACAATCGGCTATCAGTTATCAGTCGGATATCTCAGAAAAACCACCCTTTAATTATTCGCACATCATTGGTATGGCTATGCTGGAAAACGGCAGACGTGTTACTTTGCAGCAGATATGTTCGTGGATTGAAATGAAATTTGCCTTCTTTCGTGTACGAAAAAAATGGAATAATTCAATACGTCATAATTTATCTCTGCATCCATGTTTTCGAAAAATTGGACGTAACAAAGAGGAAAAAGGCAAAGGCGGTTATTGGGAATTGGGTGTGGATCCTAAAAAATGCGATCGCAAGCGAATACGTAATCGCAAATCTTCATCACAAACAGCTAAAAGCCAAAATAAACATTTACAAACTTTTTCGAAAACGCTCAAGAAAAGCCAACAAAACATAGCCAACTTTAAGAAGTCAAACTTTAAATATTTCAGTGATCATCTGAAGCCATTAGTCAAAAATGCAAAAGATCACGAATATGAAGAACTCCTATTAGACGATATGGATGTACAGCAAAACATTGACGTGACGAGTACGAGCACGATAACCAATGATATTATAAACAGTACAAGCTCAATTTATAATCAATCTAAAGACCACATAGTGTCTGATCCTAAACCACAAATTGTCTCAGAACAAAAAGCTGAACAAGTTTTTCTAACAGATCTAATAAAGGATTCTGTTCACGTACAGGAAGAAGCACATATCGAAGAATTTAATAGCTGTTCGATGACTACCGATCATATTCACCATCATCATGAGCATTCGTCGCCAGTTCAGCCATGCCAACAGGAATATAAATTGGGAACAATAATTATAAGTTCAACGAGTATGTCCGAGTTGGCAAATATTCACAGCCTAAAATCCAGCACACTCAATTCTTTTTTATGCACCAGTTCAACCAAACACTTAACTGAAAATGATGAACGTTCAACACAGGAACAACGCCAACTATGTCATAATATTGTGGTTTTTATTGGTGATAATTACAGAATTGCGGAATTTATTTTTGTGGAGCTGAGTTTTGGGAATGATAAACTTCTAGTGGGGACTGTTTATCTTCCTCATGGTGACTTCACCACATTTGAAAGGCAGGTGTCTGATTTATTGGTGCGTTATTCGAATATTGTTATTATGGGAGActttaataacaatttatttGATCCAGTTAAGTGCTCAAGAGTACGAGACATTTGTGGTAGGTTAAATATTTCTCCTGTTCATAATTCTTTGCCTACGCATTTTGATGTTCAGTATAACACGACTTCGTTACTGGATTATTTTTTGGTATCATCGCCTGAGTTAATAAGGCATTCCAATCAATTCCAATGTCCTGGTATAACTCGTCATTCGTTTGTTTTTGTGTCACTTGACATTTTACAGCCGGATAACAGGTTGTTttatgagttttatgattatgatGCTGTGGCTATTAGATCTATGGAGGTTAAGGCGTTAGAGTGTAACTTTACTGATATGTATTTGACTAATAATGTTGATGATCAGTTAATGATTTTGAATAATAATTTGCATTTTATGCATTCAATTGTTCCTTTAAAGAAGCGGATGATTCAAAATAATGCTGACAGCTGGTTTAAATGTTCGGAAATACAACATCAAATTTCTCTTAGGGATCTCGCTTATTGCGCTTATTTGCGTGATAAATCCGATGCAAATTGGAAAGCTTTTTGTCGATGTAGAAATCGGACTAAATCAGTTATTCGTAAATTTAAAAGAAGGGCTCATGGTgagatttttaacaataaatctaATAAGGAGATTTGGTCAATTTTGAATAGTAATGGAGTTGTGGATAATATGAGTCATATTGAAAATATTGACCCAgacattataaataatgcatttttttctAATCAGGATATAACTGATAATCATGGTGgtgaagttactaattttagtagtgATGGTTTTTCTTTTCGGTCAGTTGATTTGTTTGAAAtggtttcggcttttaatttaatCAAATCTAAGGCGGTGGGTTATGACGGATTTGCGCTTAAGTTCATCAAAATGATAATACCTATCATTGGTGACCATATATTGCATTTGGTGAATACGATATTGACAACGTCAAATTTTCCAATATTGTGGAAGGTTGCCAAAATCGTACCAATAAAGAAAAACAATAATATTAGTGTTGGTGATAATTTAAGGCCCATATCGATACTCCCAATATTGTCTAAAATGGTTGAACATCTTTTAAAAAAGCAGTTAATTAAGCATATTGATGACAATCAGTTACTTCATGATTGTCAATCTGGATTCAGGTGCAATCGAAGTACCACTTCGTTGCTTGTTGGTCTAACTGACAatgttaggaaaaatatttctaataaagggGATTGTGTTTTGTTGTCTCTGGATTTGGCCAAGGCGTTTGACAGAGTCAATCATACTCTTTTAGTTCAAAAGATGCATACTTTTTTCGGTCTTTCTAGTACTGCTTGTAAGTTGGTGTCGTCTTATCTTTCTGATAGAATGCAGTACGTTTTCAGTAATGGTAAATCTTCTGGAATGCTTCCAGTGTTAAGTGGAGTTCCCCAAGGGTCTGTTCTTGGGCCGCTACTTTTTATAATGTTCATCAATGATCTGTTTAGCAAATTGGAGTGTAATATGTGTGTCCCGTTTTCGTTTGCAGATGATGTGCAACTTTTGTTCAGGGGTGAAAAACAATATCCTGATGTTATGCAGAATATGATTGACTACACAGTCAAATTGTTATGTAGTTGGATGACCACTAATAGACTTTGTGTCAATTCTAGCAAAACGAAAGCTTTGTATTTTAGTAATGGTCGCGTGAATAACTTTTCAATTTATATAGATGGTAAATTAATTGAGTTCGTTGATAAACTTAAGTGCCTGGGGGTAATTCTTGATGCTAAATTAAGTTTTGAAAGTCATGTTAATTCTGTAGTATCCAAAGTGAATTTTACTTTGAGAAAGTTGTATAGTCTTAACTTAATGTTGCCTTTGCATGTTAAGACAAGAGTTGTTCATGGTTTATTAATGCCAATATTTTTATACTGTTTAGAGTTGTACTCTGGATCTTTGGGTTacCTTTATACGGAAGACGATGTCCCACAAATAAGTGAAAGCGTCATCATATCATCGTATATGTCAAATTTGGCTGATGATAATTATTCCTCGTGTACTCGTGAATCGCAATCCAATCAGTGTAACCATGCCAGTACTAGTTCGCCAAGCACAATAACCCTAGATTTTAGTACCTCACCTGCTCAACCTACTCAACCAAGGCCAAATGTCATTGTTGAACAGTTAATGCAACCATCATTAACATTTACCGCAATAGGTCCATCAACTCTAAATACAGTGTGTACATCAACAAATGCCACATCATCATCTTCAACTATAGCTTTTACAGCAACGCCCAATTGTGATTATCCAAATCTAATTAATGATAATTTTCGTCCTTACATCGATGGAATAGATGAAGCTTTTCAATACTTACGCAGTATTGACAATACACGTAATGAGGATATTTTGGATAATCTGCTTGATATTTCCGTTAGTGATTACTAA
Protein Sequence
MTTKLEELKVKQLNQLLKNNGLPTTGTRDNKVAVLAGVLEADEVDNDELVAKPWEAQVEELKAMISNLTRAVSEIGNSQRNTNGETSPTGSASVIAQTLQGEEETDDDIPARMQINNIPEIIGILPDYDPVKLSLSSSQFIEKVEQLQRAYGWNEESVLFAVQHKLKGFAKGWLDSQPVFTSWNVFSSEFKEDFPDAAIAADVHRELQARRRLHTETLVEYYYTMLTMGRRGKLDDDSIISYIIKGIGDPQLVKTLLASKFAKCNDLLMSLQKLSASPESTRQNQRGEEQRNDSRRHKGDGKMVKCYNCNEQGHISSNCPKPQRKERCKNCQKIGHNEKECRSKSKPSVANVEDACDVESISSPPVMKQIKIEDKILTAFVDTGSVYSLIKTSLVSDANRQSVYKHLKGFAGSIMVVHQKVYLPIEIDGETVQTQFYIIDDENFPYDVLLGRDLLCRDDKRMIIEAGVLQLQEAGKDDCFKTSELDVVQRRCLFDLLAKFENCFAENVGDIGRCQTTMMSIEVTTDKPILGKRYMGPFSQRGILSNIITNLMENNIIRPSASPHAASALLAKKSNGEFRMCVDFRALNAVTVKKQYPMPVVEEQLSRLAGNTFFTTLDMTSGYYQIPLDEQSKPFTAFITHEGLFEHNVMPFGLVNAPMVFQEMIVSIIRTLTNKDNIISYVDEVIIASKTPEEGILILREFLEAIQRVGLTLRPSKCTFLNTTVNFLGHIVSGQGIQPGTQKTECINDYPRPTDVSGVRRFLGITGFFRKFIPNYSLISTPLTKLLKKDSKFMWDKEQKDSFEKLKSVITEKSILTLYDPNKQHEVHTDASSMGLSGVLFQRDGEDLKPVFFYSRQTSEAERKYASHELEVLAIVETLQRFRMYVLGKNFTIVTDCNAVVTTKATNPLPPRIARWLLKLQEFDYQCIHRAGSQMSHVDGMSRSPTLPPSETTTVADYVLYNFDSDWIMSMQLQDPKIKTIVDVLKGNDTKNEKQVKQDYVIHSNRLFRKVKDDRKLYIPEAIRWRITRSCHDEVGHFGVEKTVERISKNFWFPRMRRYIKSYIQACPDCCLNKVKGGKPEAQLHVMEILPIPFRKVHIDHLGPFPKSKSGNLYIIVLFCSFSKYTILKALRNTKTKPALNAIRELMTTFGQPMCVVTDRGTAFTSKDFEEFVTHYGIQHILTAVRTPRANGQAERVNKTLLSSLKCTAGNSTDWDQSLPDIQWSINSQENSTTKFSPNELVFNYNPRDVSSNRIIQALHDEETDDHHQYELRHQKAAQNINDEKRKWKERFDKKHQAPPQYYKDDLVVIDHVPGATGTSHKLEPRYKGPYMITKVLENDRYVVEDLPDVPKNRRRYVNIFASDHIKPWCGLPKLDADETNKNDTEDSSDDEPSGKAELDLEIYQQSAISYQSDISEKPPFNYSHIIGMAMLENGRRVTLQQICSWIEMKFAFFRVRKKWNNSIRHNLSLHPCFRKIGRNKEEKGKGGYWELGVDPKKCDRKRIRNRKSSSQTAKSQNKHLQTFSKTLKKSQQNIANFKKSNFKYFSDHLKPLVKNAKDHEYEELLLDDMDVQQNIDVTSTSTITNDIINSTSSIYNQSKDHIVSDPKPQIVSEQKAEQVFLTDLIKDSVHVQEEAHIEEFNSCSMTTDHIHHHHEHSSPVQPCQQEYKLGTIIISSTSMSELANIHSLKSSTLNSFLCTSSTKHLTENDERSTQEQRQLCHNIVVFIGDNYRIAEFIFVELSFGNDKLLVGTVYLPHGDFTTFERQVSDLLVRYSNIVIMGDFNNNLFDPVKCSRVRDICGRLNISPVHNSLPTHFDVQYNTTSLLDYFLVSSPELIRHSNQFQCPGITRHSFVFVSLDILQPDNRLFYEFYDYDAVAIRSMEVKALECNFTDMYLTNNVDDQLMILNNNLHFMHSIVPLKKRMIQNNADSWFKCSEIQHQISLRDLAYCAYLRDKSDANWKAFCRCRNRTKSVIRKFKRRAHGEIFNNKSNKEIWSILNSNGVVDNMSHIENIDPDIINNAFFSNQDITDNHGGEVTNFSSDGFSFRSVDLFEMVSAFNLIKSKAVGYDGFALKFIKMIIPIIGDHILHLVNTILTTSNFPILWKVAKIVPIKKNNNISVGDNLRPISILPILSKMVEHLLKKQLIKHIDDNQLLHDCQSGFRCNRSTTSLLVGLTDNVRKNISNKGDCVLLSLDLAKAFDRVNHTLLVQKMHTFFGLSSTACKLVSSYLSDRMQYVFSNGKSSGMLPVLSGVPQGSVLGPLLFIMFINDLFSKLECNMCVPFSFADDVQLLFRGEKQYPDVMQNMIDYTVKLLCSWMTTNRLCVNSSKTKALYFSNGRVNNFSIYIDGKLIEFVDKLKCLGVILDAKLSFESHVNSVVSKVNFTLRKLYSLNLMLPLHVKTRVVHGLLMPIFLYCLELYSGSLGYLYTEDDVPQISESVIISSYMSNLADDNYSSCTRESQSNQCNHASTSSPSTITLDFSTSPAQPTQPRPNVIVEQLMQPSLTFTAIGPSTLNTVCTSTNATSSSSTIAFTATPNCDYPNLINDNFRPYIDGIDEAFQYLRSIDNTRNEDILDNLLDISVSDY

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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