Apur003099.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Anomoia purmunda
Gene Symbol
rfx7.L
Assembly
GCA_951828415.1
Location
OX639993.1:51136263-51148231[-]

Transcription Factor Domain

TF Family
RFX
Domain
RFX domain
PFAM
PF02257
TF Group
Basic Domians group
Description
RFX is a regulatory factor which binds to the X box of MHC class II genes and is essential for their expression. The DNA-binding domain of RFX is the central domain of the protein and binds ssDNA as either a monomer or homodimer [1]. It recognize X-boxes (DNA of the sequence 5'-GTNRCC(0-3N)RGYAAC-3', where N is any nucleotide, R is a purine and Y is a pyrimidine) using a highly conserved 76-residue DNA-binding domain (DBD) [2].
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 3.7e-32 1.3e-27 98.1 0.0 3 78 373 448 371 449 0.97

Sequence Information

Coding Sequence
ATGACAGACAAGAATGTTGGTCATAATGGAACGCAGTGGACGAAAACAACGGCGGCAGCAGCGGCTTTTgctgcacaacaacaaaaacagcataaTACCTGCGTATTGGCTGGAGCTCAACAAAtgcatcaacaacagcaacgtcTGTACAATCCTTCAGGGTTAATGCCAGCACACAGCAGCATATTTGGAGTGGGTGTTGGGGCCGCACTCGGACATTCAGCACACCCAGACGGCATAGCAGCATATGCAGGTGCACGTTTTCATCCACCACCGCTACCAATTCAACAGTCTACAATAGATACAACAAACTTATCCCACAATATCTCACCCCAGCATACCCAACATCAACATCAGCATCATCCTCATCCGCAACACCAACCATCTCCAACGCATGCACCAACTACAGTTTTAACAGCGCCAGGTGCCGCTTCGCCCAGTGTACCTGTACAAAGCGGCTTTGTGCCACCACCATTGCTGCCAGGGGCAGCCGCATCGGTGTCAGCTGCCGCTACATCAGTTTTAACGCCAAATCCATTTGCAGTCACGCCTCAGTTGGATCACCTTACCTCACATTTGAATTTGCAACAGCAATTAGAATTGAACAAACTTATTAACGTAATGAATACGCAAAGTGGCGGAGTGGGATCAGCAGGAGGCAACAGTTCCGGCATCTTGGCTACCCAACCGCAAGTAACGCGACACATAGTAACGGATGTACCAATGACTAGTACTGGCAGTAGTAACAGCAACACAGGAGGTGGATCAGCCGCTTTATCTGGTGCTATAAGCAGCATGATTTCAGAGAATGTTTTGAATGCGATAAGCGCGACACCAAACAGTAGTGTAAGCGCTAGTGTTCCGGCAGTGCATGGACGCTTGACGGGGATTGGTGTAAGGATGCCAGATGATGAACGTTTGCGTCGTTTACAAGGAGTGGTTGAGACGGGAATAAGTGATCAAGcgaaacaacaaatacaacaaatagtCGATAGCATCGGCAATTTGAAGCCCGTTGAAAAGCTGCTGCTTTATTTGCGTTTACCCGGAGAGGCGCCCGAAACAGatcCACTGCGACACCCACAAAACCCCTTAGGCACACGTTCTGAAATAAATCACACCATCAACTGGGTCCGTTCGCATTTGGAACATGATCCCAAAGTGTCTATACCAAAGCAGGACGTATATAATGATTATATcTCATATTGCGATCGCCTTGAGATCAAACCGCTTTCCACAGCCGATTTCGGCAAGGTAATGAAGCAGGTCTTTCCCGGTATACGACCACGCCGTTTGGGTACACGTGGCCATTCGCGTTATTGCTATGCAGCTATGCGTAAAACCACAAAATTGGAAGCACCGCAACTGCCAGTTCTCGATACTACTGCGGCCAATGAGTCGTCATCGGTTGGTGGCGCAGGCACCACCGCTTTGTCTGGAGACTCCGCCGCGGGTAATGGGGATACAGAAACATGGCAAGTAATACGCAACTGGGCGGAAAGTGTTTTGCATGTAAAAGTTGATAGTGCGCAAGAACTAGCGTCGTGCATCAAAACCACCATTAGCATAGGAAGCGAATTGCCAACATCGAATGCGCGCACTGCCGGTGCcgttatacacaaaaaatacacGCCACGCGAACCAAAGGAGAAGCGCTTAATGGcgGATATGGGTCCGCTAAAAAAGCGTCGCAAGAAAAGACGCAAAGGCTCCTCATCGTCCGAGTCGAGCTGTAGTCAAACACAAGCGCTGACGCCACAACAAACTACAACATCCGCCGCCGATGCGCAAGCGGGTGATGTAAAACCGACTATTATCGCTGAGTTGGTGCAGATCAAGCAAGAAATACTTGAGTCCCCTACAATGCAGCGAGTGAAACATTTGCCGGCAGCATCACCGCTGCTACCACAAATGGCTACGCTCACAGATAGCGTtttgcagcagcaacaacaacaacaacagcaacagcaaatgTTGCCTATGAATTTGGTGACTGAGCAGCGTACTGTGTTGGCACGTGCACCACCTGCCGGCAGTGCCTTCGGCGTTGTCCAACAACCAACTCAAGCCCCACAACAACGTCAACCAATACGTTGCGCCTTAACAGGTGCGTCTTGTAGTAAAACAGCCATCAAGAATCTAACGCCGAAAATCATTGAACTGGCTACAATGCCAGCGAGCAGTGGACATGAGCCGGCCACAGTAATTAAAGAGGAAGAATTTTTAGATGAATATaatccaaatatattttgcaagaAGGTACGCAAAGCGCAACAAACGAAGGGATTCTGGGCCAATTCGCCCACTTCGGTGCCGACCAATGTTGTCGTGCCTACTATTACAACAACTGCAGCTACAAATGAAGTGACTTCATCGTCTGCATCTGTATCGGGTGTTGCCACATCAGTTATTGCAACGCCTGTCATGTCTGCGAGTCATTCTTCTTCGGCAGACAATCAAGAAACAGGAAGCACCCATGGCGATTTAATGGGCCCACCCGCACAAATTGGCAGCGGCACATCAGTCAGTCCGTCGAGCGCGATTTTAGCGGCAGACAGCAGTGGTAATACATCACAACCACACAACGCTGCCTCACCCAAGGTGTTGTCACGCAATATGCTACAAATGCGTGCTAAGCGTCAGCAAATAGCAGCTGCTTTGACATCTAATGCCGGAAATAATCTATCTGATGCAGATGCTGCTGATCTGCCAGTAAATCTGGGTTTGCCACGTGAACGGGTCATAAGCATATGTAACATGGACAAACACGAATTGGACGATTACTTTGTAGCTAGTGAAGTGGAGGAGGAAACGGAGGATCAAGATACCGAACTGCTTCAATATTTTCAGACGAGAGACGCTGAGGAAAAATTGAATTCCTTAGATGCTGTAAAACCCAATAAGCATCCAACAGCCTCAATGCAGGCAACAATGCCAACAGCAACGACGACAGCCGTAACATCAACTGCACTGACAAAAACGGCAACGTTGACAACAAAAACATCAACGTCACAGGTAGCCAAAGACGTTGGCAGGCAGCATGGATTACAAATAGCTGCCACTGATGGTTATGGCTGTGTGCGGCAGGTGTCAAATGGCGGCTTCGCGGCCGCTGCCGGCCACAGAAAGCAACTGGCACTAGGCTCTGCAGCGCCAAAGGCATGTctcacagcaacaacaacaacaaccacaatgaCTGTTGGATCAGCCTCAGCGTCTCTCACTTTCATGTCACAGaagcatcaacaacaacaacaacagcaacaacagcaacatcagcTGCATTCACAAGCGACCAAAGTTGTTATGCAGCAAGCGCTTACaactagcaacaacaacaagcgaaAAATCAGTTTAAGCGGCACAACGCTAAATGCCGCCGAAGTTATGGCGACGcgtaaaaattgcatattctTCCCCATATCACCCAACAGCAACACgagtaatagtagtagcaacaataataccaaaaatattggcaacaatgccaacaataataaattcaatggTAGCAGCGCTACGCTGAATGTCGCGTGCGCTCTTAGCTCAAACTAtggtggcggcggcggtggcggcTGCTCATTTTTCGTCAGCCCCGGCCAGAGCGCGCATCGTGTGCGCCCGAAGCCAACGTCCGCGCTGAGTAAACAGCAGTCACTGGATCATGATTCCAGCGATCCGATGATAGGCGCCAGCCGCCGGCGTCGCAGCTACGCCAGTCTTGTCATATCTGGCGGCGGTAGTGCGCTCATGCCACTCACTTCAGCTTCGGCACCGCCGAGTCCATCtgttttacaacaacaacagcaacaacaacaacaacagcagcagcagcagcagcaattcTATGGCGCGGCATTCTGTAGCGGCAACATGGGCCAACAAGCAAATCGGCATACATCAAGTGCGGCTGCCTATAATCAGTTGAATAGCAACGCGACCATAAACGCAAGTGATTTATTGGCGGCTGAGCAAAACTCACTTGACTTGGATATGTTCAGTGCAGCAGCGGCCAGAGCTATGGACTACGACGAGCTGGCATTGGACGAACTCACAACGCCCCTTAATGAAATGCAACGCTCGCAATCGGTACCGCTTTCACAGCTACAGCGCATACATTCGCCGGCCTTTAATCGTAACTTTCAAACTGCGCCCTATTCAGCGTGCACGTCCGTAGGGCAAACTCCAGTACCACACGAGTTCGCCGACTCCACAACACTCTTTTCCGAAAATAGTTGCAGTCAAAATAGTGGCGGCGCAGGCAAATCGAACGCACAGTTATCGGCTGCAAAGTTGCTCGATGACGAAGCTGCCTTATTGGCGACGGATACGGCCGCAATGCTAGATAATCTCGATGTAGCTGAAATGTTTCCCGCAGACTTTTTGCGCATGAAATTTCCCAGCAATGTACAAGGGAATACCACTACAACGACATGCTCCTCGGCGGGCTCATCCTCGGGTTACAGCAGCAGCGCTTGTACTGCGTTTGGCAGCGCTGCGCTGATATCAGGGGGCGGCGGTAATAATTTACTCGGTAGTGGGGGCAACTCAATGTCCCGTTCGGTGCCTTCAACACCACTGCCGCATCAGCAACAAAGTCCATTCGCTTCGTACTTCTATGGCGGACGGCGACGTTTCGAAGAGGAAGCGCCACATTTATCACCTTCGCTGCAAACGTCTAGCAATACCATGGGCGGCACGTTCACTACAACTGTTTTCAAATATGGCAACAGTGGCGGCGGTTCAATAGGTGGTGGTGGTTGTGGCGTAAACAGCAACTATGACATGTCACGCTCCATGCCAACAACGCCGACGGCAACTCCCCGTTTTCGCTACAGTCCAACAGAGTTTACGCGTGAATTTCTTAGCAATGGCAATACCAATACGATAGACAGTCTCATCAGTGGTGGCGCCAACACCGGCAGCCTTACCGATGCTGGCGCACCTAGTGAAGGCCTAAGCGCTGCACTGACCGGCCTCACCGGCAACAACGATGCGCTTATTGATGATAGTTGTGGGCTGTCTGCCGATGCATTCGTCAACAACACTTGCACCGATGCTGAGTCGATGATGGCTGAAGCAAACGAATTGCTTGGAAATTTGTAG
Protein Sequence
MTDKNVGHNGTQWTKTTAAAAAFAAQQQKQHNTCVLAGAQQMHQQQQRLYNPSGLMPAHSSIFGVGVGAALGHSAHPDGIAAYAGARFHPPPLPIQQSTIDTTNLSHNISPQHTQHQHQHHPHPQHQPSPTHAPTTVLTAPGAASPSVPVQSGFVPPPLLPGAAASVSAAATSVLTPNPFAVTPQLDHLTSHLNLQQQLELNKLINVMNTQSGGVGSAGGNSSGILATQPQVTRHIVTDVPMTSTGSSNSNTGGGSAALSGAISSMISENVLNAISATPNSSVSASVPAVHGRLTGIGVRMPDDERLRRLQGVVETGISDQAKQQIQQIVDSIGNLKPVEKLLLYLRLPGEAPETDPLRHPQNPLGTRSEINHTINWVRSHLEHDPKVSIPKQDVYNDYISYCDRLEIKPLSTADFGKVMKQVFPGIRPRRLGTRGHSRYCYAAMRKTTKLEAPQLPVLDTTAANESSSVGGAGTTALSGDSAAGNGDTETWQVIRNWAESVLHVKVDSAQELASCIKTTISIGSELPTSNARTAGAVIHKKYTPREPKEKRLMADMGPLKKRRKKRRKGSSSSESSCSQTQALTPQQTTTSAADAQAGDVKPTIIAELVQIKQEILESPTMQRVKHLPAASPLLPQMATLTDSVLQQQQQQQQQQQMLPMNLVTEQRTVLARAPPAGSAFGVVQQPTQAPQQRQPIRCALTGASCSKTAIKNLTPKIIELATMPASSGHEPATVIKEEEFLDEYNPNIFCKKVRKAQQTKGFWANSPTSVPTNVVVPTITTTAATNEVTSSSASVSGVATSVIATPVMSASHSSSADNQETGSTHGDLMGPPAQIGSGTSVSPSSAILAADSSGNTSQPHNAASPKVLSRNMLQMRAKRQQIAAALTSNAGNNLSDADAADLPVNLGLPRERVISICNMDKHELDDYFVASEVEEETEDQDTELLQYFQTRDAEEKLNSLDAVKPNKHPTASMQATMPTATTTAVTSTALTKTATLTTKTSTSQVAKDVGRQHGLQIAATDGYGCVRQVSNGGFAAAAGHRKQLALGSAAPKACLTATTTTTTMTVGSASASLTFMSQKHQQQQQQQQQQHQLHSQATKVVMQQALTTSNNNKRKISLSGTTLNAAEVMATRKNCIFFPISPNSNTSNSSSNNNTKNIGNNANNNKFNGSSATLNVACALSSNYGGGGGGGCSFFVSPGQSAHRVRPKPTSALSKQQSLDHDSSDPMIGASRRRRSYASLVISGGGSALMPLTSASAPPSPSVLQQQQQQQQQQQQQQQQFYGAAFCSGNMGQQANRHTSSAAAYNQLNSNATINASDLLAAEQNSLDLDMFSAAAARAMDYDELALDELTTPLNEMQRSQSVPLSQLQRIHSPAFNRNFQTAPYSACTSVGQTPVPHEFADSTTLFSENSCSQNSGGAGKSNAQLSAAKLLDDEAALLATDTAAMLDNLDVAEMFPADFLRMKFPSNVQGNTTTTTCSSAGSSSGYSSSACTAFGSAALISGGGGNNLLGSGGNSMSRSVPSTPLPHQQQSPFASYFYGGRRRFEEEAPHLSPSLQTSSNTMGGTFTTTVFKYGNSGGGSIGGGGCGVNSNYDMSRSMPTTPTATPRFRYSPTEFTREFLSNGNTNTIDSLISGGANTGSLTDAGAPSEGLSAALTGLTGNNDALIDDSCGLSADAFVNNTCTDAESMMAEANELLGNL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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