Efor015617.3


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Encarsia formosa
Gene Symbol
Mblk-1
Assembly
GCA_030522645.1
Location
JAPYYY010005312.1:418-16258[-]

Transcription Factor Domain

TF Family
HTH
Domain
HTH_psq domain
PFAM
PF05225
TF Group
Helix-turn-helix
Description
This DNA-binding motif is found in four copies in the pipsqueak protein of Drosophila melanogaster [1]. In pipsqueak this domain binds to GAGA sequence [1].
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 2 1.7e-17 4.4e-14 53.7 0.1 1 45 433 478 433 478 0.96
2 2 3.1e-18 8.1e-15 56.0 0.0 1 43 888 931 888 933 0.94

Sequence Information

Coding Sequence
CTGGAGCGGGTCGCGGAGGAGTTGATGGGCCGTAGGAGATGGAAGCAATACCAGGACATCCAGTACACATCTCAGAACAACAACGCCGAGTCGAGCCCTACGAgccaacagcaacagcagcagcagcttcagCTACAGTTACAACAGCTGGCGCAGCAGGTGCAACAGCAACAGGCGAAACCGGGGGAGCCGCCATTGAAAGCGGCCCTCACGAACAACCACCAAAGTACAACAAACCAGGCGTCAGCCCTGACAAACTGCGGCTCGTCCGGTCCCGTCGGCGCCGTAGGTGGCGAGCGCTCGCCCCAGCGCGCCGACGAGCAAAACCTAACCACCACCACCACGGGCGGACCGGAGAACGGGGAGCAGCGGCTCGTCGAGGTAGCCGCTGCCGCGACCCGGGAGAACGGGGCCACCGAGAACGGCCCCACCAACGACCAAAACCATCGCCAGGACGACCATCAGCTCAACAACGACCTGGAGGAGGAGCGACAGGAGTCGCAGGAGGACGAAGAGTCCGAGGCGCTCAGGCTCAAGAAGGAGCTGCTTCAGGAGGACCAGAGGATAAGGCTCAGCTCTCCCAACGACGAGGAAGGGACCAAGGAGCACCAGACCACGATTGGACTGCTCAGGGTAAAGAAGGAGGAGGAACTCCAGGAGCCGGTCGGCTGCCCGAGGCCCACGTCCACGCCGAACCTCGCCTCGGCCCacataaacaacaacaacaacctcagcaacaacaacaacggtcCCACGACCGAGAGAAGCGCCTCCACGCCGCCCAAGAAGGAGGGGATTTTTTGCGTTCCCTCGTACGTTTTGGGAAGACGACAAAGCCCACCGCCCGAGGACTGGAAGCCTCTCGACAAGTGCTACTTCTGCCTAGATGGAAAGCTCCAGCACGACGAGCAAACGCCCCACGACGAGCAGCCGCCTCTTAGTCCGCAAAGCGACAACAGCAGCCAGAGCTCGCGTTCGGCCGAGTCGCCGATGTCGGTCCAGGTCGATCCCATGGCGTCGGTAGTGGCGGCGGCCCTCGGAGGGGCGTACCCGACCCTCCTGCCCCAGTGGTGCCTGCCCCCGAGGGAGTCGTCCCACGTGGCGGCGGTCGACAACAACATATCTATACTGGAGCAGCAAAAGCTACCTCTTCGAATCGATCCCAAAACTATTTTCAACAGCACTTGTTACCGAGCGAAGCCAAGGGTGACAGCCGGCGCCGTGACGGCGTCGGGCGGAGCAGCCGGGGTGGTCTCGGGTGGCGGTACAGGAGGCGGCGGAGGCCGGCGCACCTACACCGAGGACGAGCTCCAGGCGGCCCTGCGCGACATCCAGAGCGGAAAGCTGGGGACCCGACGAGCCGCGGTACTTTACGGGATACCCCGGAGCACGCTGCGGAACAAGGTCTACAAGCTGGCGATGGAGCGCGAGAGGGACGCGACCCTCTCGGCCAACgcagccgccgccgccgccgccgccgctgctgctgctgccgtcAACAACAACAGCGAGGCGGGGGCGGTAGTGGTTGTCGCAGGCAACGCTAACAACGCCAacagcaccaccaccaccactacAACCATCACCACCACCtctaccaccaccaccacaaCCACAACCACAACACCAAATACCACGATACGAAAAAATGCGAACACGCTACTTGTGGACGAGGTGGACGACAAGGAGTTGTCGGGAgcggaggaggagaaggaggtcGAGAAGGCCCTGCAGAAGCCCCTGATTTCGCTCGAGGATCTGGTGAGGATCTCGAGCCTCGAGGGCAGCGGGGCGGCCGGCGACTCGCTGAGGGCTCTGCTGCAGCGCGGACAGGACACCGGGTCGTCCGAGTGGTCGGCCTTCGAGCACGCCAACATCGGTCCCTACATACAGAAAATGATCGCCGCCGCCACGCCCTTCAAAGgaCGAATCGGCTTTGGGGGAATGGAGACGCAAGATTACAGAATCCCGGAGGTCATGAGACGACTGATGAGCGAGGATAAAAAGTTCGGCAAGGAGGTTAACGTCAATGGAGACCAGGTACAGCACATTCATCATCTTTCTCAGCAGCATCGTTTCCCTCAGTCGCAGCCAAATCAGAGGGCGCCGATGACGAACGACGACTTCAACCCGGCGATAGAAGAAGAGGCCAGCGACAGCGGCCAGGGCCGGCCGATACTCAAAATTCCGTCCTACAAGCCAGCCAGCGGCACGCCCGGGCCCAGCAAGAACGGTCAGGTCGAGACCGCCTCGGGCGGCTTTCCACCCGGGAGCTTTCCCGCCTCGAACGCCAGCCCGGCCCTGCTCGAGCGTGCAAGTCCCGCGTTCTCGGGCACGAGCTCGCCCACCAACTCCCTCGTCGGCAAGGGCTTGGCCGTCAACTTCCGCGACGTCATCGCCAAGAGCATTTGCGTCAAGTTCCAGGAAGGACAGACTCCCACTGGCATTCCTGGTCAAGGAGTGCCCACGAGCCCAATGATAGTGGAGTCGAATCCCTACAAGAGGGGCAGGTTCACGCCTCCCCAGCAACAGACGCAGCAGCAGGGTGGCCAAACGCAGCAGTCCAAGTCTGCGGCCCAAGCCCAGGACAAGCAACAGCAAAACAAGGCCGCAGCCGGTGGCAAAGGCACTAGACCCAAGCGCGGAAAGTACCGCAACTACGACCGCGACAGTCTCGTAGAGGCCGTCAGGGCGGTCCAAAGGGGCGAGATGAGCGTGCACAGAGCCGGAAGTTACTACGGCGTACCCCACTCTACCCTCGAGTACAAAGTCAAAGAGCGGCACCTTATGAGGCCAAGAAAGAGggATCAAAAACAGGCAGACGATAAGAGTAAGGAACCGACAACAGTGGGATCAGCGGCGATGCGAACGACGCCAACGCAGGCAGCCGCGACGCCCGACAAGAAGCCACCACCGCTGCTCAAGCCCCAGAAACCTGGTTTCACTCCGGGTGGTGGTGCGACCGGTGGTGCCACTGCCGCCGCTGCTGGTGCGGGTATACCTGGACCAAACGGAATCAAAGTGCCACCCTTCATTGACGGCATGCCTCACCTGCCCTTCGCTCATCCCTTCAACTTCTGGAGTCCCGGTTTCATGCCCCCGGGTTTCATACCAGGTGCTCCGGGAAACGTTCCCGCGGCTCTTCTGTCGGAACAGTACTTTGCTTCCCAGCAGCAGCGCATGCGCGGACTACAGGAGCACCAACGTAACGCCATTGCTCAACAACAGCGTGACGGTGCGACCACGGCCGAACAGCCAGGTACTTCGAATCCAAGAGGGACTCCCATAAAAGCCGAAAACTTGTACGCGGACGGTGCTGCCGCGGGAGCTAACGGTAGCTTCCTCGACAATCTCATAAGGTCCAGCCTAGAGTCGGGGCGATCTCAGCAGCAACAGCCGGAGAACTTGGGCGGTAGTAAGGTTCTGATAGATCAGTTATGCCGAAACTCGCGTCGTACACCACTGCCGAGAGCCATGCAGCAAGATAGCAGCGAGGACGAAGCGACGAACTACTCAACCAATCAGCAGCCACAGAGGCCCGAGCGCGTACCCACTGTCGAGCTCAGTCCTTCGCCCAGGGTGGTACCCGGGTCGGTAGACGAGGGCAGCGATCGAGCCTCGCCGATGTCTCTCTCGAGGCACAGTGGCTCCGGGAAAGAGGACGATGCCACACCCAGGAGTAGTCGAGAGCGCGAGGTACCAAACGGTGGAGGCAGCGAAAAGCCAGACGATCATCGTCAAGACTCGACGACGACCAAGATGCTGAACCATTTCAACCCGGACACAAAAAACCTCTACGCCGTGTCAACTGACAAAAAAAGTGCCTGTGATAGTAAGCTTATAGTAGATCATTCGAGCCAGAAGACTCAGCAACACAAGGTTACAGCCGTGATCGGGTCAGGCGAGGGCGATGACGACGAAGACGAAGGCGACGACGCACACCAGCTGCACGCGGGCTACGGCAACTCGTCCGACAACGGACGCCCGGCCACGCCAAACgaccaccaccatcaccaccacTCGCCGAGTCCGACGATGGAAGAATCGGTAGAGcagtag
Protein Sequence
LERVAEELMGRRRWKQYQDIQYTSQNNNAESSPTSQQQQQQQLQLQLQQLAQQVQQQQAKPGEPPLKAALTNNHQSTTNQASALTNCGSSGPVGAVGGERSPQRADEQNLTTTTTGGPENGEQRLVEVAAAATRENGATENGPTNDQNHRQDDHQLNNDLEEERQESQEDEESEALRLKKELLQEDQRIRLSSPNDEEGTKEHQTTIGLLRVKKEEELQEPVGCPRPTSTPNLASAHINNNNNLSNNNNGPTTERSASTPPKKEGIFCVPSYVLGRRQSPPPEDWKPLDKCYFCLDGKLQHDEQTPHDEQPPLSPQSDNSSQSSRSAESPMSVQVDPMASVVAAALGGAYPTLLPQWCLPPRESSHVAAVDNNISILEQQKLPLRIDPKTIFNSTCYRAKPRVTAGAVTASGGAAGVVSGGGTGGGGGRRTYTEDELQAALRDIQSGKLGTRRAAVLYGIPRSTLRNKVYKLAMERERDATLSANAAAAAAAAAAAAAVNNNSEAGAVVVVAGNANNANSTTTTTTTITTTSTTTTTTTTTTPNTTIRKNANTLLVDEVDDKELSGAEEEKEVEKALQKPLISLEDLVRISSLEGSGAAGDSLRALLQRGQDTGSSEWSAFEHANIGPYIQKMIAAATPFKGRIGFGGMETQDYRIPEVMRRLMSEDKKFGKEVNVNGDQVQHIHHLSQQHRFPQSQPNQRAPMTNDDFNPAIEEEASDSGQGRPILKIPSYKPASGTPGPSKNGQVETASGGFPPGSFPASNASPALLERASPAFSGTSSPTNSLVGKGLAVNFRDVIAKSICVKFQEGQTPTGIPGQGVPTSPMIVESNPYKRGRFTPPQQQTQQQGGQTQQSKSAAQAQDKQQQNKAAAGGKGTRPKRGKYRNYDRDSLVEAVRAVQRGEMSVHRAGSYYGVPHSTLEYKVKERHLMRPRKRDQKQADDKSKEPTTVGSAAMRTTPTQAAATPDKKPPPLLKPQKPGFTPGGGATGGATAAAAGAGIPGPNGIKVPPFIDGMPHLPFAHPFNFWSPGFMPPGFIPGAPGNVPAALLSEQYFASQQQRMRGLQEHQRNAIAQQQRDGATTAEQPGTSNPRGTPIKAENLYADGAAAGANGSFLDNLIRSSLESGRSQQQQPENLGGSKVLIDQLCRNSRRTPLPRAMQQDSSEDEATNYSTNQQPQRPERVPTVELSPSPRVVPGSVDEGSDRASPMSLSRHSGSGKEDDATPRSSREREVPNGGGSEKPDDHRQDSTTTKMLNHFNPDTKNLYAVSTDKKSACDSKLIVDHSSQKTQQHKVTAVIGSGEGDDDEDEGDDAHQLHAGYGNSSDNGRPATPNDHHHHHHSPSPTMEESVEQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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