Basic Information

Insect: Bacillus rossius
Gene Symbol: myrf
Assembly: GCA_032445375.1
Location: CM063641.1:133626144-133665349[+]

Transcription Factor Domain

TF Family: NDT80_PhoG
Domain: NDT80_PhoG domain
PFAM: PF05224
TF Group: Unclassified Structure
Description: This family includes the DNA-binding region of NDT80 [2] as well as PhoG and its homologues. The family contains Swiss:Q05534 or VIB-1. VIB-1 is thought to be a regulator of conidiation in Neurospora crassa and shares a region of similarity to PHOG, a possible phosphate nonrepressible acid phosphatase in Aspergillus nidulans. It has been found that vib-1 is not the structural gene for nonrepressible acid phosphatase, but rather may regulate nonrepressible acid phosphatase activity [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 3.1e-22 1.6e-17 66.8 0.0 108 180 241 322 163 322 0.82

2 2 0.46 2.4e+04 -2.2 0.1 63 94 526 557 500 573 0.75

#	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	3.1e-22	1.6e-17	66.8	0.0	108	180	241	322	163	322	0.82
2	2	0.46	2.4e+04	-2.2	0.1	63	94	526	557	500	573	0.75

Sequence Information

Coding Sequence: ATGCCATCGCTAGGTGCGCATCTCTCCCAGCACAGCACTCATGTTGTCCCCTGGGCCACTCAGACACACTGTGCTCACACCACTGCTGATGTAGTTTCAAACTGGGCAGCTGGGGTTGTGACTGCCGTCCATGCCATCGCTAGGTGCGCGTCTCTCCCAGCACAGCACTCATATTGTGCGCGTCTCTCCCAGCACAGCACTCATGTTGTCCCCTGGGCCACTCAGACACACTGTGCTCACACCACTGCTGATGTAGTTTCAAAGTGGGCAGCTGGGGTTGTGACTGCCGTCCATGCCATCGCTAGggatacgatctcgtcacagggatgcGGCGCAGGGATACGATTTAGACACAGGAATACAGCACAGGGATACGATTTCATCGCAGGGATACAATCTCATTGGAGGGATACGATGCAGGGATATGATCTCGTCGCGGGGATACGCCACAGGAAGAGGAAACTCTCTGACGACGGAGAAAGTCCACAGATAGTTTCCCACTTCATTGGGACCAGTTCTTCAGCTGTCAGCAACACAGTGCATGTGAAGCAGGAGCCAGACCTGTCTCCGGACTCTAACTCGAACCAGACTGCAGTTCTGGACGACGACTACAGCTTCGACATCCCCGGGGAGTCGAACCTGTACCTGGACTCCAACTACCAGTGCATCCGCTTCCAGCCGTTCCAGCAGACCGCGTGGCACGTGTTGTGCGACCAGAACCTCAAAGACCTcaTGGACATCCGCAGCGAGCAGGTGACGAAGCTGACGGTGGGCCGGCTGCACTTCAGCGAGACCACCTCCAACAACATGCGCAAGAAGGGAAAGCCCAACCCCGACCAGCGCTACTTCTACCTGGTGGTGGGCCTGCACGCGCACTGCGCCGACAACCTCGACTACCCCGTCGTGTCGCACGCGTCGGAGCGCATCATCGTCAGGGCTTCGAACCCCGGGCAGTTTGAAAGTGACGTGGAGCTTTGCTGGCAAAAAGGTCACACGTCGGATTCCATATACCACGTGGGTCGGGTCGGCATCAACAATGACCGACCTGACGAGTCCTTGGTGGTCCACGGCAACGTGAAGGTCACCGGTCACATTGTGCACCCGAGTGACCAGCGAGCGAAGGAGATCATCCAAGAGTGCGACTCGGAGCAGCAGCTGCGCAACGTGCGCAGTCTGCGGCTGGTGCAGTTCCACTACCTGCCCGAGTTCGCGCTGCAGGCGGGGCTGCCCGGCCTGGCGCTGGACACGGGCGTCGTGGCGCAGCAGGTGCAACAAGTGCTGCCCGACGCCGTGCACAGTGCCGGAGACGTGGTGCTGCCCAGCGGCCAGCGCATACACGACCTGCTGCTCGTCAACAAGGATCGCCTCTTCATGGAAAATGTTGGTGCTGTGAAGGAGCTTGGCCGACTAACTGACGGTTTGGTAACTCGAGTTGGCAAGCTCGAAAAAATTAACCGTAAAATAGTCAAGTGCATTCGATTAGACAGCGTAAGGTCAACAACGAGCATATCTACAGACGTGTGGCCACACCGCGCGGAGGTTTGCCAGTTCTCGCTGCCAGTGACCGCGCAAGGCGCACAGCTGAACAAACGAACTACAAAAGAATTTGACCAATCTGCACATCAGCCGCGCAACCACGCCCACCGCACGCCCCAGTTACCGCTCATGCAACCCTCGCGGCGAGTGAACATTTTATTTCAAGAACCGAAGGAGGCGGCACTGAACGCCTCCAGCAGCCCCCACGAGGACTGCGCCGGGTGCAACGGCAGTTCCGCCGAGATGTCGCCCAGCGAGCCCGTGCCAGCTGCCGGGCTGTCAGCCCCGGCTGTGGGGCGGCCCAGCGCGTGTAGAGCTGCCCCGAACCTGCTCGACTCGGCCGACACCGCCTGCCAGGTAGTCCCCTCCTCGTCCACTGGTGTGCCTGCGAGgtacttgagcagcgacgccggcctccgcgggagttctgaGCGGGTCCCGCGACCGTTCCGGAGTTCCAAGAGTTCCGCTAGCGAAGGGAaatgcgacatcggcgaagaggGTGTGTGTTCGTCTCGTCACGGGCTGATCGACACTTCCAGTCAGTGGAGCGCAGCTCTGATTCACGCTCTGTTCAACTTCCTGTCCGACTACGCAGACTACGGCGGCATCGTGCTGACACTGCAAGGCCAGCAGTTCAACCAGACTCTGGGGCCAGAGTTCTGCGCCCTCGGCAGTCTGGAATACTCCAAGTGCTGTGATAGGACAGCCCACAACTACACCTTCTTGATACGCCTGAGCAAGTACATGCCCGACCAGGCGCTTCTGCTTCATTTCCAaggTGTCGTAAGAGATGCGAATAGTGGGGCAGAATGCGCCGcgctattagtccacccgcctcacagcggcgttgTGCGGGAGAGGGAgcccaggcgctggccctgtatctctattcactggcggctaacatCGAATCCTCCCGCAATGGGCTGGAGCCGCGCCATCCAGCCCCTGAGCAGACCTCCGACCAGCCGCGCGGGCTGCCTGCTCGGGCGTCGGCACGACGGCAGACCGCTTCTCCCTGGGTCACGACCCCGCCCGGCCCTGCAGAGTGGATCACCTTAA
Protein Sequence: MPSLGAHLSQHSTHVVPWATQTHCAHTTADVVSNWAAGVVTAVHAIARCASLPAQHSYCARLSQHSTHVVPWATQTHCAHTTADVVSKWAAGVVTAVHAIARDTISSQGCGAGIRFRHRNTAQGYDFIAGIQSHWRDTMQGYDLVAGIRHRKRKLSDDGESPQIVSHFIGTSSSAVSNTVHVKQEPDLSPDSNSNQTAVLDDDYSFDIPGESNLYLDSNYQCIRFQPFQQTAWHVLCDQNLKDLMDIRSEQVTKLTVGRLHFSETTSNNMRKKGKPNPDQRYFYLVVGLHAHCADNLDYPVVSHASERIIVRASNPGQFESDVELCWQKGHTSDSIYHVGRVGINNDRPDESLVVHGNVKVTGHIVHPSDQRAKEIIQECDSEQQLRNVRSLRLVQFHYLPEFALQAGLPGLALDTGVVAQQVQQVLPDAVHSAGDVVLPSGQRIHDLLLVNKDRLFMENVGAVKELGRLTDGLVTRVGKLEKINRKIVKCIRLDSVRSTTSISTDVWPHRAEVCQFSLPVTAQGAQLNKRTTKEFDQSAHQPRNHAHRTPQLPLMQPSRRVNILFQEPKEAALNASSSPHEDCAGCNGSSAEMSPSEPVPAAGLSAPAVGRPSACRAAPNLLDSADTACQVVPSSSTGVPARYLSSDAGLRGSSERVPRPFRSSKSSASEGKCDIGEEGVCSSRHGLIDTSSQWSAALIHALFNFLSDYADYGGIVLTLQGQQFNQTLGPEFCALGSLEYSKCCDRTAHNYTFLIRLSKYMPDQALLLHFQGVVRDANSGAECAALLVHPPHSGVVREREPRRWPCISIHWRLTSNPPAMGWSRAIQPLSRPPTSRAGCLLGRRHDGRPLLPGSRPRPALQSGSP

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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