Basic Information

Insect: Nymphula nitidulata
Gene Symbol: -
Assembly: GCA_947347705.1
Location: OX374642.1:44964-84713[-]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
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 6 0.00057 0.28 12.1 0.9 32 61 208 237 204 240 0.91

2 6 0.00053 0.26 12.2 0.2 32 60 629 657 617 659 0.93

3 6 3.9e-05 0.019 15.8 0.7 34 61 1150 1177 1144 1180 0.90

4 6 0.016 8 7.4 0.3 36 64 1711 1739 1700 1740 0.87

5 6 2.6e-05 0.013 16.4 2.2 35 63 2405 2433 2400 2435 0.89

6 6 0.00057 0.28 12.1 0.9 32 61 2940 2969 2936 2972 0.91

#	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	6	0.00057	0.28	12.1	0.9	32	61	208	237	204	240	0.91
2	6	0.00053	0.26	12.2	0.2	32	60	629	657	617	659	0.93
3	6	3.9e-05	0.019	15.8	0.7	34	61	1150	1177	1144	1180	0.90
4	6	0.016	8	7.4	0.3	36	64	1711	1739	1700	1740	0.87
5	6	2.6e-05	0.013	16.4	2.2	35	63	2405	2433	2400	2435	0.89
6	6	0.00057	0.28	12.1	0.9	32	61	2940	2969	2936	2972	0.91

Sequence Information

Coding Sequence: ATGGACAAAGCGCCCTGTCCTCAAGTGAGTGGCGCGGAGAGTGGAGATGAAGATGATGTGAGGGACGCGAGCAAAACTGCGTCGGACTTCGGCTCGTGTTGGTCAGTCGACAGCGTCGAATCACAAATCAGTAGGAAGAGGGCAAGATCCCCGATAAAGAAGGGGTCAAATTATAGAAAGGCATCTGGCACCGACAGCGCATCCAGCGCAGAGTCTGAGAAGGCGCCGAAGCCCAAAAAACCTGCCGCTAGTCGTGGCCGCGGCCGTCCTATCAAAACCGGGGACTATGCCGGCCTCGCCAAAGCTAAGAGGGAATACAGCGCTGCATTGCGTGAGTCTATGCGCCTGGAGGCCGAGAAGGAGGTCGCCGCTGAATTGATTCAAAGGCGTTTGCGGTCGGAGTCGGCGGCGTCACGGCAGTCTGACCATTCCGACATTATGTCCGTGGAGGAGGAGCCTTGTGCTGCCAAGCTCTACCAATCTGTTGAGAGTGAGATTACCTCGATTCTGAAGCTCGTGTCCAGCTCAAGCAATTTGAAGGGCACCTATCAAAAAGCAATAAAGATGTCCGCCGCGTCAATCAAAGAGCACACACAGGCGCTTCTTCGTTGCACCATCAACGAAGAAGTGAGCAAGTTGACGCGGGAAAATAAGCGCTTGGAAGGCAGTATTCAGGACCTGCAGAGACAACTGGACGAGTTGCGCGCCAAGAGTAGTGCGCCTTCTCAGTCAGCCTCAGCAGTCCAGCCTACCCTGAACGCTGAAGAGATCGTCCGTGCTGTCACTACAGTGGTTGACGACAAGCTCCGCGCGGCGATGACATCAGTCACAAACATCATCGACGCCAGAATTGAGGGCCTGAAGATACCGGATCGTCCACGGCCACCGTTGGCCGCGGATAAAAAGAAAGAAGCTGCTCAATCGAAACCAACATTTGCAGCTACAGTGAAGGCGTCTCCCGTCATTAAGTCAAAATGCGGGACAATGACTTTAATCCCCTGCACATCGTCCCAAAAAAAGGGTAAAGGCAAGGGGAAGGGGAAGAGGACGGCTTCTGCGCCGACCACAAACCCAGTGACAAACCCGGAGCCCGGCCCGTCAACATCGTCGGCGCCCCTGCCAACCGCCCCCGTTTCTGAGGAGGAGACGGAATGGAGCACAGTAGGGAAAAACGGCAAAAAGAAGAAGACGCAACCAGCTGTGACCCCTGGTCCAAAGCCTCAAGCCAAGGGCACCAAAGGCGCGCAGGCAAAGGCGAAAAAGCCCCGAAAGATTAGGGAGCCACGCTCGGCGGCCgtggttattactatcagcccagaggcgGTGAGTGGCGCAAACAGTGAGGAGTCTGATCATGATGCCGAAAAGGCTTCCAACTTCGGCTCGTGTGTGTCTATTGACACAGTAGGATCCCAGTCGGGACGGAAAAGAGGGAGGTCGTATGATTCCGGCTCTGACAGTGCTTCTAGCACTGAGGCGGCGGCGGCACCCAAAAAGCCGGCTTCGACAACAACCACCCGTGGACGAGGCCGCCCCATCAAAACGGGGGAATACTCGGGCTTGGCGAAAGCCAGAGAGGAATATAACACCCAGATGCGGGAGTCGATGCGCCTGGAGGCGGAGAAGGAGTTCGCAGAGGAATTAGCGCAGAGGAGAACGCGCTCGACCTCTGTCGTCTCCCTAGCTAATTCGGGCAGTGTCATGTCCTTGGAGGAAGAGCCCAGTGCGGCCCAGATTTTCAAAGCAGTGCAAGAGGAGCTGCAGataattttaaaagtggcaaccacatcgagccaccttaaaggcacgtatcaaaaagcccttaaaaactcggcagcatcgatcaaagagtacacgcaatcgctccttagctgtaccgtgtcagacgaggtAGCTAAGTTGGAGCGCGAGAACAGGCGCCTCAGATCTGACATGGACGAGCTGCGCAAGCAAATCGGAGACATGCGCGCAGCAAGACCGGGCCCGCAAGAGCCAGGAGTTTCACAACCCTTGGATGGTGACAAAATCCTCCAAGCGGTCTCCACGGTGGTGGATGAGAAGATCCGGGCGGCCATGACGTCGGCCACAAATATGTTTAACGCCCGCATTGAGGGCCTCAAAGTTGCGGACAGACCGCGGCCACCGTTGGCCGCGGACAAAGTGAGGGATGGGACGCAGTCGCACGTTCCTTCCGAAAAGGATTTCCCGCCCTTAGCGGCTCCAAAAGCGAGGGTCCCTCCCGCCATCACTTCACCGTGCGGGACTATGTCGATCATCCCTTGTACCTCGTCCCAGCGGAAAGGGAAAGGGAAGGGCAAGGGCAAAGGGAAAAAGACGGCGCCTGTTCCGGCACTGCCGACTCCATCCGAAACCGCCCCACCAGTAGCCTCGACGTCGAAAGAGGCTGGCTGGACCACTGTTGGGAAGGGTGGTAAGGTTAAGAAGGTGAATCCCGCTGCGCCGGCCTCTAAGACTCAGGCTCAGACCAAGCCGAAGCCTAAATCGCAGGGTCAGGCGCAGGCGAAGACCAAGAAGCCCCGCAAGCCGGCCAATCTCCAACACAGTGCGGCTGCCTTCGGGCATTGCACGGCCGCACAAACCCGTAGCCCTGCATTTATGTGGGGTCGGGGGCTGGGCGTATggggcctgccctgtgcgtctggctgtgaggaagaaaacctctataaaaaatcaccctCGGGGGGCCCCCTTGGGGGGCCAGTGGAGCTTCGGCTCGTGGTATGGCGGCCTTCAAGGCCGCGGTCCGCTTCATGCGGACGGGGTCGGGAGCTTTTGCTCGTGGCGCAGTCGCGCCTTTGTTGGAAAGGTCCTTTTCAGGACcagtggacttcgGAAAAGGCGCCTGTAGTTGCAGAGGTGTCTAAAGATATCGAGGACGCCGTCTTCTCAGATGAGCCAATGTCGGAGGCCGAATCCGTTTCTAGCACGGAGACGGTCGGATCCCGTGTCGGGCCGCGCAAGCGTCCACGTGACACTAGGGAGAAGTGTAGAGATAGCCAGTCTGACTCGGACGACGCTTCTAGCGTATCCACAAAGGcggcaaaagttgcgccgcgcggcagaggccgccctattaccaccggcgaattcgctggccttgccgaagccaagaggctcttgaacgaggctaagaaggaggagcttcgactaaaggccgaagagTCCATGGCACTGGAATTGGACAGACGGCGCCTGCGCTCTGATTCTGCGCACGGCTCGTTTGTATCTGACGGCTTTATGTCCGCCGACGAGGGCCCACTCGCTTCGCAATTAAACGAAGCAGTGGATAAGGAGCTGGAGATAATTAGGCGTGTCGCTAACACCTCCGGCAACCTGAAGGGAACATTCCAGCGTGCACTGCGCGAGGCGGCTGAAGCGATTGCCAACAGCACTAAATCTATGCTGAAGTGCACAGCAACCACTGAGAATGCCAAGTTGATGGCCGACAACCAGCGGCTACAAAGTGAAGTTGCGGAAATGCGCAAGGAGCTCGCGGAGCTCCGCGCCGAAATGAGAGGAGCCGGAGACCGGCGCGACAGAAGCGCGCCTCCATCGGCGGCAGATTCGGAAACGACTGTCCCGCCGTACTTTGAGACATGGAGCCGGTCAGTCATGAACATGATCAGCAACATGATAGGCGCGAAATTCGACGGGCTTGAGAAGGATGGCAGACTCCTACCTGCCAAACGCCACAGACCACCATTGGCTGCAGACAATAGAAGAGAGGCATCCCCGCCCCCTATGGACTTACCACCCACGTCGACGACCGTTCCAAAGGCTGCCTCTAAGGCCAATGCCCCATCGGAAAAGACTTCGAATGCTCCGGCAAACCAGTCCGGTGCTAAGAAAAAGCCGACAAAAAAGGGCCAGAAAGTGCAAGCAGCCTCTCATGCTCCGGCTGTCCCTGGCCCTTCCACGGCAAACCCTGGGCCGACTGCTTCGTCTTCAAAACCTGATTCTGAGGGCTGGGTTAAGGTAACCAACCCGAAGAAGAAGAAGAAGGCGCAGTCCGCAGCACCTGCATCAGCAGGACCTGCAGCTGCAACCAAGAATACGGTGCGACCAGCGACCAAGGGCAATAAACCCAAGAAGCCGCGACCGCACAAGGCGGCTACGGGCAGCCGTTCGTTTTTGGGGTCGGCAAAACCAAGTTCCACCTCGTCACTATGTGGCGTCACCTGCGAACCCGTTGAGAGCGGGCGCCAGGCGGTATCCGGGCCGTCGGGTGTTAAGTTGGTTACCGAGGCGTGTGTTGGCAGTAGTGAGGGTCGTGAGCTCCGCTCTAGGAGCGCCGGGGCGCTGAAGTCCGCGCGTTCACGCAGCGGTTCAGCGTCCTCTGTAAATAGTAGGATAAGTTTAACTAATGTAGAATATGTAAATAAACTTGTACAAAACTGTAGTGTAAGATTAGTCCATAAGGATATAGAATCAAGTGACGCGGGTACGGCGATTTCGGCCACGTCGCTTAAGAGGAAGGTGGACGGCTCTGAGTCGTCCGACAAATCATTCCGGTCGGTTGTGTCAGGCGCCGACTCGGTCTTACAGGCTGGAGACATCTCTGACGCCACCACCGTTACCGCTTCTGGACGGCAGCGTCAGAAACAGTTAAAAAAGAAAAGAAAGGGAGCCAAGGCGTCGAGGTCTGATTCTGGCTCGGACTCCGGGGGCTCGGATTGGACAAAGCGTTCGCTGGCCCCCAGTTCAGACTCCTTCGGGAAAGGGTGCGGGCGCGGTCGCCCCCCTACCCTCGAGGAGTGTCTTAGTCTCGCTCGAGCGAAGCGGGAAGCTGCGGCGGCAGAGAAAGAGGCACGCCAGCTCCGCTATGACAGCGACATAAGGGAGATGGAGAAAAGGGCATTAGAGACGCGCGCCAAATTTTTTGAGGCACGTGCCTCCTCCCTACCGGATGTGTCCCATGTAGTTCCGGCCGAAAAGACCGCCCTCGACCTAGAGGAGGTGGTGAAGTCGGACTGCAAAGTAATCCTGGAGGTGTCGAGGAAATCTTCACATCTAAGCGGCCCCTTCCAGAAGCTGCTGAAGAATGCGGCGGCTTCCATTCAGGACTCGTTTTCCGAAATGGCTTGGAGATCCGTCACCGAGGACCACCGCATCCTGAAGGCGGAAAACGAGATACTTAAAAAGGAAATGGTGGAGCTACGCCAAATGATGAAAGACCTAAAGGCGGAGCTGAAGGCCGTCAGGAAGAGGGGCAACCAGGCTCCTCAAGATGTTGCTGCGTCCTGCAGCGACGCTATGGATGTGGTTGAGGTAGGCACTTCCCTGCCCAGTGTCACCCTAAGTGGGCCGTCGGCAGCTGGTTCTGCCCCAAACGCATGTGTCGATCCAGCCCTCGAAGCCTTCGAGGCCAAACTTTTTAGgtcaatcggctttatgctggacgcccgcttcgaaggcattaaggaccgcctccttccggagaagaaattgaggcctcctcttgcggccgacaaaaTATCGTCTGCCCAAGCCTCCTCAAAAGCGGCGCCAGCTGAGCCCGCGGTGGGTAAACCGGCCAAGCAACTGGCCAATCCTAAGCCCGCTGGTACGACTAAGGCCGGCCAGTCGGCCAAGAAGCAGTCTGCTCCCACTGTGGTTCCATCCACCTCCCGGAAGCCCTCGGCGCCCAAATCAGCACCCTCTGAGGCAGCCGAATCGGCGCCATCCAAGGCCCCGGTCGAGCAAGAGTGGACCAAGGCGGAGTCGAGGAAAAAGAGACGCAGGAGACGCGGGCAGAAACAAAATCAGCCCCCTCCGGAACAGCCCCAAGCTGGCAGTTCTAAGGCCAGCTATGCAGACGCGACCAAAAAGAAGCCGACCCGCGGTCAATCTGCCCCGGCCAAGACGAAAAAGAAGTCCTCCcctaagctggcgcctcctaaatcagctgcggtggtagtgacgttgaacgacgcggcggtcaggaatgGCAGCGACACGTCCGCCGCCGACGCGTCCACCTCGTCAGATGATGATGAGGGGGGCGCGGTGGCGGCGGCCGTCCTCGCGCCAAGTGTGCTGGGCGCGTTGTCGGGATCGCTTGTTGCATTTGATGCTCTGTCATCCGGTGCAAACGGTGGTTCCACAACGTGTCCAGACGGCGCATCCTGGGCGACTGCGAATTCATTATCCGCTCGTAGGGTAATGGGTTCGCAGCCGGCCAATCTCCAACACAGTGCGGCTGCCCTCGGGCATTGCACGGCCGCACAAACCCGTAGCCCTGCATTTATGTGGGGTCGGGGGCTGGGCGTATggggcttgccctgtgcgtctggctgtgaggaagaaaacctctctaaaaaattaccctGGTGGGGCCCCCTTGGGGGGCAGCGGAGCTTCGGCTCGGTGGATGGCGGCCTTCAAGGCCGCGGTCCGTTTTTGAGCGGATGGTGTTGGGAGCGGTTTCGCTCGTGGCGCACTCGCGTCATTTGTTGTAGCAAGGCTCTTCTCAGGGCCAGTGGTGCTTCGGCACGGTGCATGGCAGATCTCCAAGGTCTGCGGCGCGACATGCTTGCTTTCCCGGTAGTTGAGGAGAGAGAGGAAAGGAGTGGTAGGAGAAGTAGTGGTAGATTGAAGAAGAAGGCGCATTCCATCTGCGTGCAAGAGTGTGAGGTGGTTCTCACGGACTGCCTCAATGTCGCAATGTCGGACGATGATGGTTCGGCATCTGTTTGCAGTACAATCCTAGGGACAACATCAGGGAGAAAGCGACCACACGAGCCCACGCGGGAACGTGCTCCATTTGACTCAGACAGCGATTCCAGCGCTAAATCGGTCTTAGCATCGAAAGTGTCAGCAGCCGGCCCAAGCAGAGGCCGCGCTTCAAAAGTAGAAGAGCTCACAGGTCTCGCCGAAGCTAAACGGCAGCTTAATGCGGCCAAACGAGAGGAACTCCGGCTGAGAACTGAAGAAGATCTGGCAGATCGTCTGGACAGACGGAGCTTGCGATCCGGCTCGACGGGTGGTACGGACGTATTTATGTCCCCCGATGAAGGCCCGCTTGCAACACATATCGGGGCATCTGTGCAAGGCGACCTTGATattataagagaggttgccaaaaaatcaggccatctcaagggcacattccagaaggctcttaacgaggcCACGTGCTCGATAGCCAACAGCACACGTGCTCTACTGAAATGTTCGGCCTCGTCTGAAAACACCAAGCTGCTGGCGGACAATGAACGCCTAAAACGTGAAGTGGCTGAGCTCAGGCGAGAGCTTGCAGAGTTGCGAAGTGAATTCCGCACTAGAGAGTGGCGCGATGCATCGGCCCCGCTGGCCCAACCGGAAACGGGTGTACCAGCATACTTTGAGGAGTGGTCGCGCTCTATTATGAAATCCATGGGCAATATGATTGCTGCAAAGTTTGACGGACTAGAGCGCGATGAGAGGCTTCTGCCTCCCAAAAACCATCGGCCTCCGCTCGCCGCGGATAAGAGGAGAGATATGGAAGTCTCCACTGCTGTTGCGTCCACATCGGCGGCCTCTCAAAAGACCGCCCCATCGAGAATTTTCACCAGTTCCAAGACTGCGTCAGGGACAAAACCTGCAGCTGCCTCCTCTGTCCAACAAACTAAACAGGGGAAGGGAAAAAAGAAGGGTCAGAAGGCGGTACCAGCTCCACAGTCTATCCCACCGCTGACGTCTCAAAGTGTGACAGAAGCGCCTCCATCTGTGGCTGAGCCTGAACGTGACGGTGAAGGCTGGAGCACTGTGGACAGGCGCGCCAAAAAGAAAATCCGACCGGCGGCCTCATCGTCTGCGCCCGCTCCTGCTCCTTGGAGCTTCGGCTCGTGGGATGGCGGCCTTGAAGGCCGCGGTCCGCTTCATGCGGACGGTGTCGGGAGCTTTTGCTCGTGGCGCAGTCGCGCCTTTGTTGGAAAGGTCCTTTTCAGGACcagtggacttcggtcggtgtatggcgggccttcaaggcccgcggAACGTTCAGCGTTCGTTTTCGGCGTGGGGCGCTCCAACGCTCCGTTTGCGTCGGCTCTTGGGGCCTGCCTTGACTGGCCGGTCCCGGCGGGGCTTGCCTTGGTTGGCTGGCTcagcggccacctacgggtggcgtggcacggcggaccttcaagTTTAAGTTTCCCAGTCGGGAGTTGCTCCACAAGGAGCCTGAGATCAAAGGACAAAGCGCCCTGTCCGCAAGTGAGTGGCGCGGAGAGTGGCGATGAGGATGATGTGAGGGACGCGAGCAAAACTGCGTCGGACTTCGGCTCGTGTTGGTCAGTCGACAGCGTCGAATCTCAAATCAGCAGGAAGAGGGCAAGATCCCCGATAAAGAAGGGGCCAAATTATAGAAAGGCATCTGGCACCGACAGCGCATCCAGCGCAGAGTCTGAGAAGGCGCCGAAGCCCAAAAAACCTGCCGCTAGTCGTGGCCGCGGCCGTCCTATCAAAACCGGGGACTATGCCGGCCTCGCCAAAGCTCAGAGGGAATACAGCGCTGCATTGCGCGAGTCTATGCGCCTGGAGGCCGAGAAGGAGGTCGCCGCGGAACTAATTCAAAGGCGTTTGCGGTCGGAGTCGGCGGCGTCACGGCAGTCTGACTATTCTGATGTTATGTCGGTGGAGGAGGAGCCTTGTGCTACCAAACTGTATCAGTCTGTCGAGAGCGAGATAAGCTCGATACTCAAGCTCGTGTCCAGCTCGAGCAATCTCAAGGGCACCTATCAAAAGGCGATTAAGCTGTCCGTCTCTTCTATTAAGGAGCACACGCAAGCGCTTCTTCGTTGCACCATCAACGAAGAAGTGAGCAAGTTGACGCGGGAAAATAAGCGCTTGGAAGGCAGTATTCAGGACCTGCAGAGACAACTGGACGAGTTGCGCGCCAAGAGTAGTGCGCCTTCTCAGTCAGCCTCAGCAGTCCAGCCTACCCTGAACGCTGAAGAGATCGTCCGTGCTGTCACTACAGTGGTTGACGACAAGCTCCGCGCGGCGATGACATCAGTCACAAACATCATCGACGCCAGAATTGAGGGCCTGAAGATACCAGATCGTCCACGGCCACCGTTGGCCGCGGATAAAAAGAAAGAAGCTGCTCAATCGAAACCAACATTTGCAGCTACAGTGAAGGCGTCTCCCGTCATTAAGTCAAAATGCGGGACAATGACTTTAATCCCCTGCACATCGTCCCAAAAAAAGGGTAAAGGCAAGGGGAAGGGGAAGAGGACGGCTTCTGCGCCGACCACAAACCCAGTGACAAACCCGGAGCCCGGCCCGTCAACATCGTCGGCGCCCCTGCCAACCGCCCCCGTTTCTGAGGAGGAGGCGGAATGGAGTACAGTAGGGAAAAACGGGAAACAGAAGAAGACGCAGCCAGCTGTGACCCCTGGTCCAAAGCCTCAAGCAAAGGGCACCAAAGGCGCGCAGGCAAAGGCCAAAAAGCCCCGAAAGATTAGGGAGCCACGCTCGGCGGCCGTGGTTATTACTATCAGCCCAGAGGCGGTACAACGCGGCGTTTCGTACGCCGACGTAATAAAGAAGGCCCGAAATGGTATTAATCTTGTAGACATCGGCGTCGACCAGCCGCTGCAAATAAAAACAGCGgtcactggtgccaaaatattggagGCCTTGGCACCTGAACAGTAA
Protein Sequence: MDKAPCPQVSGAESGDEDDVRDASKTASDFGSCWSVDSVESQISRKRARSPIKKGSNYRKASGTDSASSAESEKAPKPKKPAASRGRGRPIKTGDYAGLAKAKREYSAALRESMRLEAEKEVAAELIQRRLRSESAASRQSDHSDIMSVEEEPCAAKLYQSVESEITSILKLVSSSSNLKGTYQKAIKMSAASIKEHTQALLRCTINEEVSKLTRENKRLEGSIQDLQRQLDELRAKSSAPSQSASAVQPTLNAEEIVRAVTTVVDDKLRAAMTSVTNIIDARIEGLKIPDRPRPPLAADKKKEAAQSKPTFAATVKASPVIKSKCGTMTLIPCTSSQKKGKGKGKGKRTASAPTTNPVTNPEPGPSTSSAPLPTAPVSEEETEWSTVGKNGKKKKTQPAVTPGPKPQAKGTKGAQAKAKKPRKIREPRSAAVVITISPEAVSGANSEESDHDAEKASNFGSCVSIDTVGSQSGRKRGRSYDSGSDSASSTEAAAAPKKPASTTTTRGRGRPIKTGEYSGLAKAREEYNTQMRESMRLEAEKEFAEELAQRRTRSTSVVSLANSGSVMSLEEEPSAAQIFKAVQEELQIILKVATTSSHLKGTYQKALKNSAASIKEYTQSLLSCTVSDEVAKLERENRRLRSDMDELRKQIGDMRAARPGPQEPGVSQPLDGDKILQAVSTVVDEKIRAAMTSATNMFNARIEGLKVADRPRPPLAADKVRDGTQSHVPSEKDFPPLAAPKARVPPAITSPCGTMSIIPCTSSQRKGKGKGKGKGKKTAPVPALPTPSETAPPVASTSKEAGWTTVGKGGKVKKVNPAAPASKTQAQTKPKPKSQGQAQAKTKKPRKPANLQHSAAAFGHCTAAQTRSPAFMWGRGLGVWGLPCASGCEEENLYKKSPSGGPLGGPVELRLVVWRPSRPRSASCGRGRELLLVAQSRLCWKGPFQDQWTSEKAPVVAEVSKDIEDAVFSDEPMSEAESVSSTETVGSRVGPRKRPRDTREKCRDSQSDSDDASSVSTKAAKVAPRGRGRPITTGEFAGLAEAKRLLNEAKKEELRLKAEESMALELDRRRLRSDSAHGSFVSDGFMSADEGPLASQLNEAVDKELEIIRRVANTSGNLKGTFQRALREAAEAIANSTKSMLKCTATTENAKLMADNQRLQSEVAEMRKELAELRAEMRGAGDRRDRSAPPSAADSETTVPPYFETWSRSVMNMISNMIGAKFDGLEKDGRLLPAKRHRPPLAADNRREASPPPMDLPPTSTTVPKAASKANAPSEKTSNAPANQSGAKKKPTKKGQKVQAASHAPAVPGPSTANPGPTASSSKPDSEGWVKVTNPKKKKKAQSAAPASAGPAAATKNTVRPATKGNKPKKPRPHKAATGSRSFLGSAKPSSTSSLCGVTCEPVESGRQAVSGPSGVKLVTEACVGSSEGRELRSRSAGALKSARSRSGSASSVNSRISLTNVEYVNKLVQNCSVRLVHKDIESSDAGTAISATSLKRKVDGSESSDKSFRSVVSGADSVLQAGDISDATTVTASGRQRQKQLKKKRKGAKASRSDSGSDSGGSDWTKRSLAPSSDSFGKGCGRGRPPTLEECLSLARAKREAAAAEKEARQLRYDSDIREMEKRALETRAKFFEARASSLPDVSHVVPAEKTALDLEEVVKSDCKVILEVSRKSSHLSGPFQKLLKNAAASIQDSFSEMAWRSVTEDHRILKAENEILKKEMVELRQMMKDLKAELKAVRKRGNQAPQDVAASCSDAMDVVEVGTSLPSVTLSGPSAAGSAPNACVDPALEAFEAKLFRSIGFMLDARFEGIKDRLLPEKKLRPPLAADKISSAQASSKAAPAEPAVGKPAKQLANPKPAGTTKAGQSAKKQSAPTVVPSTSRKPSAPKSAPSEAAESAPSKAPVEQEWTKAESRKKRRRRRGQKQNQPPPEQPQAGSSKASYADATKKKPTRGQSAPAKTKKKSSPKLAPPKSAAVVVTLNDAAVRNGSDTSAADASTSSDDDEGGAVAAAVLAPSVLGALSGSLVAFDALSSGANGGSTTCPDGASWATANSLSARRVMGSQPANLQHSAAALGHCTAAQTRSPAFMWGRGLGVWGLPCASGCEEENLSKKLPWWGPLGGQRSFGSVDGGLQGRGPFLSGWCWERFRSWRTRVICCSKALLRASGASARCMADLQGLRRDMLAFPVVEEREERSGRRSSGRLKKKAHSICVQECEVVLTDCLNVAMSDDDGSASVCSTILGTTSGRKRPHEPTRERAPFDSDSDSSAKSVLASKVSAAGPSRGRASKVEELTGLAEAKRQLNAAKREELRLRTEEDLADRLDRRSLRSGSTGGTDVFMSPDEGPLATHIGASVQGDLDIIREVAKKSGHLKGTFQKALNEATCSIANSTRALLKCSASSENTKLLADNERLKREVAELRRELAELRSEFRTREWRDASAPLAQPETGVPAYFEEWSRSIMKSMGNMIAAKFDGLERDERLLPPKNHRPPLAADKRRDMEVSTAVASTSAASQKTAPSRIFTSSKTASGTKPAAASSVQQTKQGKGKKKGQKAVPAPQSIPPLTSQSVTEAPPSVAEPERDGEGWSTVDRRAKKKIRPAASSSAPAPAPWSFGSWDGGLEGRGPLHADGVGSFCSWRSRAFVGKVLFRTSGLRSVYGGPSRPAERSAFVFGVGRSNAPFASALGACLDWPVPAGLALVGWLSGHLRVAWHGGPSSLSFPVGSCSTRSLRSKDKAPCPQVSGAESGDEDDVRDASKTASDFGSCWSVDSVESQISRKRARSPIKKGPNYRKASGTDSASSAESEKAPKPKKPAASRGRGRPIKTGDYAGLAKAQREYSAALRESMRLEAEKEVAAELIQRRLRSESAASRQSDYSDVMSVEEEPCATKLYQSVESEISSILKLVSSSSNLKGTYQKAIKLSVSSIKEHTQALLRCTINEEVSKLTRENKRLEGSIQDLQRQLDELRAKSSAPSQSASAVQPTLNAEEIVRAVTTVVDDKLRAAMTSVTNIIDARIEGLKIPDRPRPPLAADKKKEAAQSKPTFAATVKASPVIKSKCGTMTLIPCTSSQKKGKGKGKGKRTASAPTTNPVTNPEPGPSTSSAPLPTAPVSEEEAEWSTVGKNGKQKKTQPAVTPGPKPQAKGTKGAQAKAKKPRKIREPRSAAVVITISPEAVQRGVSYADVIKKARNGINLVDIGVDQPLQIKTAVTGAKILEALAPEQ

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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