Ffus017477.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Frankliniella fusca
Gene Symbol
-
Assembly
GCA_029379305.1
Location
JAHWGI010001142.1:3185262-3195437[+]

Transcription Factor Domain

TF Family
DM
Domain
DM domain
PFAM
PF00751
TF Group
Zinc-Coordinating Group
Description
The DM domain is named after dsx and mab-3 [2]. dsx contains a single amino-terminal DM domain, whereas mab-3 contains two amino-terminal domains. The DM domain has a pattern of conserved zinc chelating residues C2H2C4 [1]. The dsx DM domain has been shown to dimerise and bind palindromic DNA [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 1.3e-07 0.0004 21.0 6.6 1 36 453 489 452 497 0.84
2 4 2.1e-10 6.4e-07 29.9 11.2 2 42 503 544 502 550 0.89
3 4 0.0001 0.32 11.7 11.7 4 35 552 584 549 590 0.92
4 4 4.9e-11 1.5e-07 31.9 10.7 3 36 966 1000 964 1010 0.86

Sequence Information

Coding Sequence
ATGCGGGTTCTTCAGAATTTTCTTAGTGATAGACGAAGCtatcctttattttttatttttctagtcTCGAAAGAAGAGAAAACTAAGCGCATCAACAGTTGGTTCATGGCTTCACATCCAAGGACCTTTTCTTCTTTATCCTGTGCTCAGGATGAAGAGGAGCTCCCTCCCCCGGAGCCCCCGGACCGCCGGCCCCGCAAGCGCGAGCCATCTCTGCCGCCCCTGCCCAAGGAGGCgccccccgcgctcccgcccctgccgccatCACCGCCCCTCGACGAGAATCAAAACAAGACGAAAGGAGGTGCGCCTTGGGACGACGACATGGGACTGGAGTCGCTCGGGGACGCGCTGGACCGGGAGAAAGAGCTGATCGCGCGATGGGACGTGGCCGACCTGGTCGTGTTGTCCGACCTGAAGGACGAGGCCGAGAGCGCCTCCCCGTCCATGGCGCGACTGTCGGCCACCCCCGAGGCGTCCGCCTTGCCTCGCTCTGGCTCCAGGAGTGTCAAGAAGTCGGCCAGACGCAGTAGCAAGAGCCacagcggcagcgggggtggAAGAGCAAGCCGAAGTCGGAGCAGGAGCCGCGACAGGCGGCGTAGTCGAAGTCCCCCGAGCCGCAGAAGGCGACGCTGTCGAAGCCGAAGTCGAAGCTCCAGCCGTAGGCGCAGTCCGTCCAGCAGCCCTGAAAGTCTACGGGGTCGGCGACGCCGCCGtcgcttcagcagcagcagcagcagtaggagtCGCAGCCGGAGTCGCAGCCGGAGtcgcagccggagccggagctctAGCCGCAGCTCTAGCCGCAGCCCCAGCTACTcgcggagccgcggccgcagccccagcTGCAGACGAagccgcgggcgcggctggcgcggcgcgcggggccgcggcaggagcagcaggagccgccATCGCTCCGGGGACTCTCGCGGCCGGAGGAGCCAGaggagccggagccgcagctTCTGCGTGTCGCGCTACGTCGTGGACCTCAAGCGCGGccgtggcgccgcccccggagcccccggcccgccggtcGTCAGGGGCGGTCGCGTCGAGCCTCACCACAAGGCCGCCCcagcgcccacccccgcccccacccccacccccaccgccacccctgtcgcagccgccgccgcccccgccgcccccgcccccgctcctgaAGCAGCAAGGTCAAGGTCACCGCCGTCtccgtcgtcgtcctcgcgcTCGACGCCCTCTCAGCCCCCGAGGCGCTCCAGCAGCGTGGAGGGCTTCACCATGCAGAATGATAACGACGCCGTGGAGGAGTTTGACCTGCAAGACAGGATAGTGTCGGGATCCTGGAGGAagagcggcggccggcggccgcagccctGCAAGATGTGCATGAACCACGGGCTCCTGCGGATGTTCGTGGGCGCCCACCGCGCGCACTGCGCCTACCTCACCTGCACCTGTGAGCGGTGCATGGGCAGCCGGCGCGAGCTGGGCTCCGCAGACGTCAGCGGCAAGCCTACCAAGTGTACCATGTGTCAGAACCACGGCGAAGAGGTCCTCTTCTCAACGGATCACAAGTACCGCTGCAAGTTCTTCAAGTGCATGTGCCGCAAGTGTCGCGGCGTGCGCACCCGTTTCAAGGCAGCCATGCAGAACAAGTCTCTGTGCGAGGCTTGTGAGAGGCACGAGGTGTTCAACTTTCAAGACCATGTGCACGCCAAGCTGTGTCGGTTCCGCGGGTGTCGCTGTCACCTCTGccggtcgccgccgcgccagggcgGCCTGGTTGCTTCCTATGGCAGTGACGGCGACTCCATGAATGGCTACGACGACCCACGCCTGTCGAaggatcgggccgggccgggccggggcgcccagGCTCGCGCCCTCGAGCGAGAGCCCCCTCCTCCAGGTGTGGACGATGAAACCCCGTCCGTGGTGATGTTGCCAGGCATGGACAAGTATCGCgacttcaccccctccccggtGCCGGACcaagagcccgccccgcctggagtgGACTCGACTGATGTAGCCGAAGCCGCAGCTGGTGTGAATGTGGAGGGTGGTGCCAGTGATAAAACTGAGACTGATGTAAAAAGTGATGCGGTGCCTTCCAATGAAATGAACCCTGTTGACTTTACGAAGAGCTCCTCTGGATTAGAGGAATCTGTGGATgccatctctgaatttttgagaaattccAATTGTGGCTCTATTTCACCATCACCTCTTAATGCTTTGAATAACATAGATGATTCAAAGGACAGTTTAGAAAATATTGATTTGGAGGCTCTTCTTGATGACCTGAGTGCGGATGCACCTGAGCTAGAGCAAACACTCAACTTACTCGCTGAGGCCTCTCCTGGAGCCTTGCAAATAAAATCAGAAGCCACTGCCACTGGGATATCCAGCCCCCAAAACACTGAGATCTCCACCCCTCATCGGAACTTGGAGTCAGGGGCAGATGAAACTAGTGAAGTCACACCCTCAAGTGATAATAATTTTAGGCTGGAGTTGTCACCTTTGTCTGAGGAGAGGCACTCGTGCGCTTTGAGCCTACAACCTCCACGCTGCTTATCTCCCAACACGGCGGTGTGTGAATCGGAGGACATGGACGATGAAGTTGACCTGGACGACACCCTGTCGGACCGGCTCGTTATTGACCTGGATGCAGGTTCGGATATGACGGTGACGCCGGTGCCATCCGACTTGGGGGAGGCGCCCCCGCTGCCAGACGGGGAAGTCAGGGCGAGTCCCGCTGTGgtgagcccgcccccgcccaggttGAGCCCACAGGCAAAGCCTTCATCATCGGCCCTGGTCGCGAGCGGGGCCAAGACAGACAAGGGCTCCGGTTCCAAGACAAGCGCGTCACTCTCGCCCTCGAACAGGGGTGAGCGGCGGTATTGTGCCTTTTGCCGAAACCATGGGAAACTGAGCGTTCTCAAGGGCCACAAGTCAGTGTGCCAGTACCGTTTGACGTGCAAGTGCTCTCTTTGCGAGAAAAGGGCTGCCCATAACCAGCGCGTCGCCTCTGGCTCCCTATCCCAGCCTTcgccgcgagagagagggcgtcCTCGAGGCGCGCTTGGCGTTAAAGTGAGCGCTCCTCGCACCCTTCAGTTTCCGCAGGTTGGCCTTGAAGTTAAGACATTGCAAGAGGGTACTTctaaaattcagGATTCTGCAGTGAGGTCTGCACCCGTAAAGATTGATGGAAATATTACTATGTCAAAGAACCAACTAGACGTGAAGTCAGTTGCtgtaaaaattattgaaaataaaACCAAGTTTAAGAATCAAGAAGACCTTCCTTTAAATGTTCGACTGAAACATTTGGTGGGTATTCAAAACACTGTAAAAATGGGAATTAAACCCTTAGGTGATAAGCCTGAAGAGAAAACAGGCAAATCAATGAAGTCGGAAGACAAGTCACTCTTTAAAAGACTGAAAGAATCCCAGATGAAGAACAAGGATGAAGTAAATGACAAGCCTATGCTCAGCAGACTCTctcgaaaaatcattaagagaaagaaaattaaattatcACCAACAGTGAAGTGTGATAAGGAGTCTATTCCCAGGCCACCAGTTGAAATTCCTCTAGTCAAAACTGGCAAAATAACTCATTCCAAAACTCATTCTCTGGGTTTGAAAAGTAAAGCCAAAGTAGCATCAAGGAAAAGTACCAAAGAAGGTGGATTGAAAACTTCATATTttaataaaatcaaattttgctCAACAAATAATGACAAAAGTACAAGTAAAAGTAGTCATAGTAAGACTGAAAAATGTCCAATTCCCTCAGAATATAAATATCAAGTAATTACTGTACTGCAAGATACTTTGATAGGAAAAGTGACTGTACGCAGTGAGGCTGAAATGCTGGCCGCTCCCAAAGACTACTCCAAATTTTTCAAGACTGAAGAAAATGTGTCAAGTCCAAATTTGTGCCTTCATAGTGGAACTCATAGCTTGCCGAAAACGGAGCAATTAACTGAAACCCCACCACGAATGGAAGCTAGTATGAAGGTGCCTCCTACAATTTCACCCATTGCTCAACTTCCCCCTGTCCAAACCTCCCCTCAGGCGCTAGTGCGAATACCACAAGCCACGCCACCTACCCCTAACAGTCCTATGGATTTAAGTGTCCCTCGGCGATCTCAAGAAACCTTGAATTCTACTGTAGTGACGCCCCCTTCAGGCCCAGGAAGCCCCCCTCCCAGTAATATTGTGAAAGCTTCTGCCTGCCCAGCCAGTGTTCCTCAAGCCTATGCCCCGTGCTCGAGCGCACCTGAAGCCCACGCCTCTGCTGCGGCTGCACCTCAAGCCTGCGCCCCATTGACAATCATACCTCAAGCCTGCTCCTCCTCGACGGATGCATCTCAACCCATTGCGCTCACTACTAGCCAACCACAACCCATCGTGTCTTCGGCAAGTATTGCTCAATCTTGTGTGCCGACGGCGGTTGCCCCCGCTCCCTGTCAGACTGCTGCTCCTCGACTCTTTGAGCCCTCAGCAAGTACACCCCCACTTCCTGTGCGAGCTGTCAGTGCACCCCACTCGTATGGACTCACTACGAGTGCGCCCGCTCCCTGTCAGACTGCTGCTCCTCGACTCTTTGAGCCCTCAGCAAGAACACCCCCACTTCCTGTGCGAGCTGTCAGTGCACCCCACTCGTATGGACTCACTGCGAGCGCGTCTCAAGCCTACATGCCCTCCACGAGCGCACCGCCAGCCTTCTTTCCTTCTCCAAGTGCTCAGgcggctcagccccgcccgctcccgacCAGGACGACGGCGTCGTCGGCGCCCCCATCCTTCTCGGCTATGCCCTGCGCCCCTCCgcctgcgctctgcgctgccgAAGCTGACCCTGAGCTCCCCGAGCTGGTCGACCTGGAGGACGAGTTGGGAAACGGCGAGGTCCCGCCGGCTCCTGCGCCGCAGGACAAGATGACAGCCCCGCCGAAGgtcaccgcgcccgcgccgctgtcTCCGAAGCAGCTGATGCCACCGCCCATCTCCCGTGGTGTCATCAAAGCGAGGGACTTATCCGGGCCGATCACCCCGCTGGCCAGGCTGGTGGCGTCCTGGGGCAGCAGTCCAGCGGCGCCCTcggtccccgccctgcccgtggGCGCCGTCGCGCCCGGCACCGTCCTCACGCCCACGGCGACCGCCGtggtgccggcgccggcgcggccgtggGAGTCGTCCCCGGCACGATCGACTAACGTCACCTGGTTCAAGAGGCCGGACCCCTGTGAAGAGTGCGGCGTCCTGCAGACTTCGGCCCTCGGCCGGGCGGCCCACCGCCTCGAGTTTCACACGGCACCCAGCAGGCGGGCGTGCACCAAGTGCAGCGCCGTGTCCTGGTCGCTGCTGCAGGATGACGTCCACGCGGCACTGGCGCATCCGCCAGACGTGCTGCACCTCTGCGCCGTCTGCGCCGCGAGCTTCCCCTCTGTTGTCTTGCTAAACACGCACTTGCTGACGGCCAGTGATGCCCAGCATGTCGCCTATAGGACAAGTCTCCCCCCGGAGCAGGTCAGCCTTATCTGCCCCATATGCAGGTCCTACAGGGCGCAGGACGCCCAAAGTCTTGCCTCGCACGTCCGCTCGGAGCACGCCGACTCCACCCCCTTCGCCTGCGAGGAGGCCAAGTGCGGCCTGGCCTTTGACGGCCCCCTGGCGCTGCAGGAGCACCGGCGGCGACACGTCCAGCAGAACAGCCAGGAGcgctgcctggcctgctgcgTGCCCTTCGTGACCCGCGAGCTGCTCAACGACCACTGGCGCCAGAGGCACTCGGGGCCCACGCCCTTCACCTGCCCGCTGTGTGACAGGGCCTTCAAGAAGCCGCTCGCGCTCACCAAGCACGTCCAAGGAGAGCACCCTGGCGCCTCGCCGTTCGCGTGTCGCGAGGCGGGCTGCAACCGCAGCTTCAAGTGCGTGGCTCAGCTGCACGAGCACGCCTGCGAGAGCAGGCACatggccctgcccgcgcccagCAACCTCTTCACTCCGCCCAGGCTGTGGCAGCCCCAGCTGGACCTGGGCGCGGGCCCGGGACCCGCCTcgaccccagccccagccagcccctgcTCTGCGTGCCCCGCCTCCCTGCCGGACGAGTGGTCCCTCGTCGACCACCAGGACGCGGAGCACATGAACCTGGTGCCCATCGCTCGGGTGGGACAGCTCCTGTCCCTCGCCAAGGACGCTCGCCTCGTGCGCTCCGCCTCCTACTCCCCGCTACCGAGTCCTGCGTACGGACAGACGAGTATGCAGACCACTCAGTCCCAGCTCCCCGGAGCCTTCCCGTCCCAAGCTCAGCTTCCTCCTTCAGCCTCGTATGGGCCTCAACCAAAACTCGCTCCCCCACCCACCTACTTGTCCCACACTCAgctctcctcttcttcttccacGTACTCTTCTCAGCCACAGCTACCAATACCTCAACCGTACACTTCTCAGCCACAGCTACCAATACCTCAACCGTACACTTCTCAGCCACAGCTACCAATACCTCAAGCGTACACTTCTCAGCCACAGCTAAGGCCACCTCCAGCACCATTCCCCTTAGAACCCCATCTTTCAACCTTGACATATCAACAAAATACTACTTTTGTACAAAGCTCTCCATTCTTAGAGTTTAAGTAA
Protein Sequence
MRVLQNFLSDRRSYPLFFIFLVSKEEKTKRINSWFMASHPRTFSSLSCAQDEEELPPPEPPDRRPRKREPSLPPLPKEAPPALPPLPPSPPLDENQNKTKGGAPWDDDMGLESLGDALDREKELIARWDVADLVVLSDLKDEAESASPSMARLSATPEASALPRSGSRSVKKSARRSSKSHSGSGGGRASRSRSRSRDRRRSRSPPSRRRRRCRSRSRSSSRRRSPSSSPESLRGRRRRRRFSSSSSSRSRSRSRSRSRSRSRSSSRSSSRSPSYSRSRGRSPSCRRSRGRGWRGARGRGRSSRSRHRSGDSRGRRSQRSRSRSFCVSRYVVDLKRGRGAAPGAPGPPVVRGGRVEPHHKAAPAPTPAPTPTPTATPVAAAAAPAAPAPAPEAARSRSPPSPSSSSRSTPSQPPRRSSSVEGFTMQNDNDAVEEFDLQDRIVSGSWRKSGGRRPQPCKMCMNHGLLRMFVGAHRAHCAYLTCTCERCMGSRRELGSADVSGKPTKCTMCQNHGEEVLFSTDHKYRCKFFKCMCRKCRGVRTRFKAAMQNKSLCEACERHEVFNFQDHVHAKLCRFRGCRCHLCRSPPRQGGLVASYGSDGDSMNGYDDPRLSKDRAGPGRGAQARALEREPPPPGVDDETPSVVMLPGMDKYRDFTPSPVPDQEPAPPGVDSTDVAEAAAGVNVEGGASDKTETDVKSDAVPSNEMNPVDFTKSSSGLEESVDAISEFLRNSNCGSISPSPLNALNNIDDSKDSLENIDLEALLDDLSADAPELEQTLNLLAEASPGALQIKSEATATGISSPQNTEISTPHRNLESGADETSEVTPSSDNNFRLELSPLSEERHSCALSLQPPRCLSPNTAVCESEDMDDEVDLDDTLSDRLVIDLDAGSDMTVTPVPSDLGEAPPLPDGEVRASPAVVSPPPPRLSPQAKPSSSALVASGAKTDKGSGSKTSASLSPSNRGERRYCAFCRNHGKLSVLKGHKSVCQYRLTCKCSLCEKRAAHNQRVASGSLSQPSPRERGRPRGALGVKVSAPRTLQFPQVGLEVKTLQEGTSKIQDSAVRSAPVKIDGNITMSKNQLDVKSVAVKIIENKTKFKNQEDLPLNVRLKHLVGIQNTVKMGIKPLGDKPEEKTGKSMKSEDKSLFKRLKESQMKNKDEVNDKPMLSRLSRKIIKRKKIKLSPTVKCDKESIPRPPVEIPLVKTGKITHSKTHSLGLKSKAKVASRKSTKEGGLKTSYFNKIKFCSTNNDKSTSKSSHSKTEKCPIPSEYKYQVITVLQDTLIGKVTVRSEAEMLAAPKDYSKFFKTEENVSSPNLCLHSGTHSLPKTEQLTETPPRMEASMKVPPTISPIAQLPPVQTSPQALVRIPQATPPTPNSPMDLSVPRRSQETLNSTVVTPPSGPGSPPPSNIVKASACPASVPQAYAPCSSAPEAHASAAAAPQACAPLTIIPQACSSSTDASQPIALTTSQPQPIVSSASIAQSCVPTAVAPAPCQTAAPRLFEPSASTPPLPVRAVSAPHSYGLTTSAPAPCQTAAPRLFEPSARTPPLPVRAVSAPHSYGLTASASQAYMPSTSAPPAFFPSPSAQAAQPRPLPTRTTASSAPPSFSAMPCAPPPALCAAEADPELPELVDLEDELGNGEVPPAPAPQDKMTAPPKVTAPAPLSPKQLMPPPISRGVIKARDLSGPITPLARLVASWGSSPAAPSVPALPVGAVAPGTVLTPTATAVVPAPARPWESSPARSTNVTWFKRPDPCEECGVLQTSALGRAAHRLEFHTAPSRRACTKCSAVSWSLLQDDVHAALAHPPDVLHLCAVCAASFPSVVLLNTHLLTASDAQHVAYRTSLPPEQVSLICPICRSYRAQDAQSLASHVRSEHADSTPFACEEAKCGLAFDGPLALQEHRRRHVQQNSQERCLACCVPFVTRELLNDHWRQRHSGPTPFTCPLCDRAFKKPLALTKHVQGEHPGASPFACREAGCNRSFKCVAQLHEHACESRHMALPAPSNLFTPPRLWQPQLDLGAGPGPASTPAPASPCSACPASLPDEWSLVDHQDAEHMNLVPIARVGQLLSLAKDARLVRSASYSPLPSPAYGQTSMQTTQSQLPGAFPSQAQLPPSASYGPQPKLAPPPTYLSHTQLSSSSSTYSSQPQLPIPQPYTSQPQLPIPQPYTSQPQLPIPQAYTSQPQLRPPPAPFPLEPHLSTLTYQQNTTFVQSSPFLEFK*

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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