Basic Information

Insect: Drosophila hawaiiensis
Gene Symbol: -
Assembly: GCA_037043685.1
Location: JBAMBA010000109.1:463853-474245[-]

Transcription Factor Domain

TF Family: THAP
Domain: THAP domain
PFAM: PF05485
TF Group: Zinc-Coordinating Group
Description: The THAP domain is a putative DNA-binding domain (DBD) and probably also binds a zinc ion. It features the conserved C2CH architecture (consensus sequence: Cys - 2-4 residues - Cys - 35-50 residues - Cys - 2 residues - His). Other universal features include the location of the domain at the N-termini of proteins, its size of about 90 residues, a C-terminal AVPTIF box and several other conserved residues. Orthologues of the human THAP domain have been identified in other vertebrates and probably worms and flies, but not in other eukaryotes or any prokaryotes [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 20 10 1.7e+04 -3.6 0.3 50 62 345 359 330 381 0.57

2 20 10 1.7e+04 -4.3 1.9 21 61 394 433 355 455 0.53

3 20 4.7e-15 8.1e-12 45.7 4.2 1 86 577 649 577 650 0.85

4 20 2e-15 3.4e-12 46.9 4.6 1 87 677 746 677 746 0.83

5 20 4.9e-16 8.3e-13 48.8 0.4 1 87 768 840 768 840 0.85

6 20 4.3e-16 7.3e-13 49.0 5.7 1 87 935 1005 935 1005 0.83

7 20 1.6e-05 0.027 15.2 1.2 1 40 1029 1069 1029 1079 0.78

8 20 9.7e-13 1.7e-09 38.3 1.0 1 87 1115 1183 1115 1183 0.81

9 20 2.1e-11 3.6e-08 34.0 1.9 1 86 1231 1300 1231 1301 0.77

10 20 4.3e-17 7.4e-14 52.2 0.3 1 86 1328 1397 1328 1398 0.82

11 20 2.4e-12 4.1e-09 37.0 1.3 1 86 1419 1488 1419 1489 0.80

12 20 9.4e-16 1.6e-12 47.9 1.7 1 86 1516 1587 1516 1588 0.85

13 20 2.1e-13 3.5e-10 40.4 1.7 1 85 1664 1732 1664 1734 0.82

14 20 2.1e-12 3.7e-09 37.2 0.1 1 86 1757 1825 1757 1826 0.82

15 20 3.5e-14 6e-11 42.9 0.9 1 86 1979 2047 1979 2048 0.82

16 20 6.5e-12 1.1e-08 35.6 0.7 1 61 2101 2155 2101 2176 0.80

17 20 1.7e-05 0.029 15.0 0.1 1 58 2182 2233 2182 2257 0.79

18 20 2e-11 3.4e-08 34.1 0.2 1 86 2272 2341 2272 2342 0.83

19 20 1.9e-14 3.2e-11 43.8 1.5 1 87 2400 2470 2400 2470 0.81

20 20 6.6e-10 1.1e-06 29.2 1.7 1 62 2505 2560 2505 2567 0.83

#	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	20	10	1.7e+04	-3.6	0.3	50	62	345	359	330	381	0.57
2	20	10	1.7e+04	-4.3	1.9	21	61	394	433	355	455	0.53
3	20	4.7e-15	8.1e-12	45.7	4.2	1	86	577	649	577	650	0.85
4	20	2e-15	3.4e-12	46.9	4.6	1	87	677	746	677	746	0.83
5	20	4.9e-16	8.3e-13	48.8	0.4	1	87	768	840	768	840	0.85
6	20	4.3e-16	7.3e-13	49.0	5.7	1	87	935	1005	935	1005	0.83
7	20	1.6e-05	0.027	15.2	1.2	1	40	1029	1069	1029	1079	0.78
8	20	9.7e-13	1.7e-09	38.3	1.0	1	87	1115	1183	1115	1183	0.81
9	20	2.1e-11	3.6e-08	34.0	1.9	1	86	1231	1300	1231	1301	0.77
10	20	4.3e-17	7.4e-14	52.2	0.3	1	86	1328	1397	1328	1398	0.82
11	20	2.4e-12	4.1e-09	37.0	1.3	1	86	1419	1488	1419	1489	0.80
12	20	9.4e-16	1.6e-12	47.9	1.7	1	86	1516	1587	1516	1588	0.85
13	20	2.1e-13	3.5e-10	40.4	1.7	1	85	1664	1732	1664	1734	0.82
14	20	2.1e-12	3.7e-09	37.2	0.1	1	86	1757	1825	1757	1826	0.82
15	20	3.5e-14	6e-11	42.9	0.9	1	86	1979	2047	1979	2048	0.82
16	20	6.5e-12	1.1e-08	35.6	0.7	1	61	2101	2155	2101	2176	0.80
17	20	1.7e-05	0.029	15.0	0.1	1	58	2182	2233	2182	2257	0.79
18	20	2e-11	3.4e-08	34.1	0.2	1	86	2272	2341	2272	2342	0.83
19	20	1.9e-14	3.2e-11	43.8	1.5	1	87	2400	2470	2400	2470	0.81
20	20	6.6e-10	1.1e-06	29.2	1.7	1	62	2505	2560	2505	2567	0.83

Sequence Information

Coding Sequence: atgtcacaacaacaacacaatccCCCTCCACAtcaccaacatcaacatcactactatcagcaacagcagcaacagcaacaacaacaacaacatctgcagcagcagcagcatttacagcataagcaaatacaacaacagcacagtTGGTACTCACATGTTGCTTCCTATCCGCCCCCGCATGCCGCTGCCTTTGCGTCGCCctgcaaaagcagcagcagcaacaacaataacaacaacaacaacaaccacattaTGAATGCATACGGCACGGGTGCAGGAGCGTATTATGGCTCAGCGGGAGCGGGTGACGTTGGGGTTGGCTATAACCTTGAGGCCAATACTGTGGCCTATGCGCACAACCAGCTGCtgcaataccaacaacaacaacaacagcagcaacaacaacagcatcagcaacaacaacaacatcagcagcagctcagccaGCGCTCGTATATGCCACCACATATAATGCACAGCTCGTATCCGTACATTAAGAGCGAACCTTTGGAGCCACTGCCCGAAcgccatcatcagcagcagcaacaacagcaactcttTCAGAATCCTATGGCACCGCCGCCAGCACCCGCCATTGCTAACCGTCATTCGCTCGATGCTAGTGGcgaaatgataattaaatCGGAACCCATTGACGAACATGCTTTCAAGTCCAACTATATCGATGATAATACTCCCTTTGCCGATTTTAGTAAATATCCCGAATTCGGCGACGATATGCTAAGTCCCAAGCTAGAGCTAAACGTCAAGGATGAGCCCTATGGAAACCAAAAAaaCCCGCTGAACTACCCACGTCGCAAGCTACAAACGGATCGCTCCGCGGAGAGTATGCTCATTTGTCAGCGCTGCAAAGAGGTGTTCTTCAAGAAGCACATTTACCTGCAGCATGTGGCCGAAAGCAGTTGCAGCATACACGAGTATGAGTTCAAGTGCAACATCTGTCCCATGTCCTTTATGGGCGGCGAGGAGCTGCAGAAGCACAAGCATCTGCATCGAACCGACAAGTTCTTCTGCCACAAATACTGTGGCAAGCACTATGACTCGATTGCAGAGTGCGAATCGCACGAGTACATGGAGCACGAGTACGATAGCTTTGTGTGCAATATGTGCTCTGTTACGTTCCCCACACGGGAACAGCTGTATGCCCATTTGCCACAACACAAGTTCCAACAGCGTTACGATTGCCCCATTTGCCGGTTGTGGTATCAAACGGCATTAGAGCTGCACGAGCATCGACTGGCGGCGCCCTACTTTTGTGGCAAGTATTACGCTGCGgcacaccagcaacagcagcaacagcaacaacagcaacaacaacaacaacagccgcagcagcagcatacacaacaacatcagcaacagggCAACTACAAACTGCAGGATTGTCACATGGGCACTATTGAAAtgaCTCCACCGCAGCACAAGGTGAATGCGGCATTACCGGCAACGGCGGCGCTCAATtcgctgttgcagcaacgCCAGGCGAACGCTGATGGCGCCGCTTTATATGCCTCGGCGCTGAAGAGCGAGACGAACGTGAAACTGGAGCGCAGCTATAGCAACTCCACCAGCGAGTCTGGTTACAGTATGCACGAGAGCAGCTATAACAATGCCTACGCCAGCGATAATTCTCTGCACGGCGGGGGCGGGGCAATTGGTGGTCCGCAAGCGCATTCCTCGACGCTGGACGATTCGGAGGATGCGCTGTGCTGTGTGCCACTTTGCGGGGTGCGCAAGAGCACAAGCCCGACGCTGCAATTCTTTACGTTTCCCAAAGATGACAAGTACTTGCATCAGTGGCTGCACAACCTCAAGATGTTCCACATTCCGGCGTCGAGCTATGCCAGCTTTCGCATCTGCAGCATGCACTTCCCTAAGCGTTGCATCAATCGTTACTCTCTGTGCTATTGGGCGGTGCCCACATTTAATCTGGGCCACGACGATGTGGCCAATCTCTATCAGAATCGTGAGCTGACCAACACATTCACCACCGGCGAGGTGGCCCGCTGCAGTATGCCAAACTGTACTAGTCAGCGTGGTGAGAGTAATCTGAAGTTCTACAACTTTCCCAAGGACATCAAGAGTTTGATTAAGTGGTGCCAAAACGCTCGCCTGCCCGTCCAGGCCAAGGAGCCGCGTCACTTCTGCAGTCGCCATTTCGAGGAGCGTTGCATCGGCAAGTTCCGACTGAAGCCTTGGGCAGTGCCCACGTTACACCTTGGCGCCCAGTACGGCAAGATTCATGACAATCCCAAAAATCTGTATGTGGAGGAGAAGCGCTGCTGCCTCAACTTTTGTCGTCGCAGTCGGTCCTCCGACTTCAACATGTCGCTGTATCGCTTCCCCAGGGATGAGGTGCTACTGCGTCGTTGGTGCTACAATCTACGCCTTGATCCAGCTGTCTATCGTGGCAAGAATCACAAAATTTGTAGCGCCCACTTTATTAAAGAAGCATTGGGATTGCGCAAACTATCTCCGGgCGCTGTGCCCACGCTGCATCTGGGTCATAATGACACCTTTAACATCTACGAGAACGAACTGTGGCCACCGCCAACGCCCTCCACGCCCACTCAcaatcatcagcagcagctgcagcaacaccagttgcagcagcagccgcaacaagtGCATCATAAATATCAGCGGCACTCGGCTGCATCCACATCCTCGTCGGCCTCGTCGACATCGCATTATGTGGATCCGGAGCTAAGTTCATCCTACATGAGCATGGGCGCTGGAGGCTCATCGTCTGGCCTTAATGTCAGCGACAGCATGGATGTCTGCTGTGTGCCCAGCTGCGAGAGCAAGCGCCACAACAATGAGAACATCACATTCCACACAATACCTAGGCGGCCAGAGCAGATGCGCAAGTGGTGTCACAATCTCAAGATACCCGAGGACAAGATGCACAAGGGCATGCGGATATGTAGCTTGCACTTTGAGCCCTACTGCATTGGCGGCTGCATGCGTCCGTTTGCGGTGCCGACATTGCATCTGGGCCACGACGACGAGGACATTCACCGCAATCCGGATGTGATCAAGAAGCTCAACATACGTGAAACTTGCTGCGTGGCTGTTTGCAAACGCAATCGTGACCGGGACCATGCCAATCTGCATCGCTTTCCCAGCAATGTGCCGCTGTTGACCAAATGGTGCACTTTGAGGATCGATGCCTGCGCAACAAACGGCTGGAGAAGTGGGCGAGTGCCCACACTCATCCTTGGGCATGAGAATATACCCTATCCGCTGCCCACGCCGGAGCAAGTTGCCGAGTTCTATGCGCGTCCCACTGCGCCTAACAATGGCGAGGAGCAGGGCGAGTGCTGTGTAGAGACGTGCAAGCGTAATCCCAGTGTTGATGACATCAAGCTATATCGCCCGCCCGAGGAGTCGCAGGTGCTGGTAAAGTGGGCACACAATCTCCAACTGGAGATCGCCCAGCTGCCCAATATGAGAATATGCAATCTGCACTTCGAAGCCCACTGCATTGGCAAGCGGATGCGTCCCTGGGCAATACCCACGCTCAATCTGGCAACTAACATAGAGAATCTCTACGAGAATCCCGAACACCAAATGCTCTACAAGCGACGCAATCATCTCAAGCCGGGCAGAGCAGCGCGAGGCTCTGAAGCAAGCGCTGGTGGTGTGAAGCCCACCTGGGTGCCacgctgctgcttgccacactgCCGCAAGGTGCGTGCCACACACAATGTCCAGCTGTATCGCTTCCCCAAACTCAATCGCTCCACGCTGGCCAAGTGGGCGCATAATCTGCAGGTGCCGCTCGTGGGCAGCGCTCAGCGTCGCCTCTGCTCCGCACACTTTGAGCCGCATGTGCTCAGCAAGAAATGCCCGGTGCCCATGGCGGTGCCCACACTGGACCTCAATACACCATCCGGCTACAAGATCTATCAGAATCCGGCCAAGCTCAAGGCGAATAAACTGTGCTTGCAACGTGTCTGCATTGTGGAGAGCTGCCGGCGTCAGCGGGCACAGGGGGTGCAGCTCTTCCGTCTGCCTCACAGCCCCACCCAGCTGCGTAAGTGGATGCACAACATCCGGATGCGGCCCCGAGGAGCTATGCGACAACAGTATCGCATCTGCTCGAAGCACTTCGAGACGCACTCGTTCAATGGAAAGAGACTCAGTGCGGGTGCAATTCCAACACTTGAGTTGGGCCATGAGGACGAAGACATATTTCCGAATGAGGCGCAGTCTTTCGTGGAGGAGCACTGCACCGTTGAGGGCTGCGATGCCGTCAAGGAGCAACCGGATGTGCGTCTCTTCCGCTTCCCCAACGACGATGAGGATCTGCTCTGGAAGTGGTGCAACAATCTGAAAATGAGTCCGGTCGACTGCATCGGCGTTCGCATCTGCAACAGACACTTCGAGACTGATTGCATTGGACCAAAGCACCTGTTCAAGTGGGCCATTCCCACGCTCTCCCTCGGccacgatgatgatgacatcGAGCTGATGCTAAATCCCAAGCCGGAGGAGCGCTATATTGATCCGGTATTCAAGTGCTGTGTGCCCTCGTGCGGCAAGACGCGTAAATTCGATGAAGTACAGATGAACAGTTTTCCCAAAGATCCGGAGCTCTTCCAGCGCTGGCGCCACAATCTCCGCCTCGAGCATCTCAACTTCAAGGAGCGCGAACGCTATAAGATCTGCAACGCTCACTTCGAGGACATTTGCATTGGTAAGACGCGCTTGAACATTGGCTCCATACCGACACTGGAGCTTGGCCACGACGAGACTGATGACTTGTTCCAAGTCAACCCCGAGGAGCTGCAGAGCAATCTCTTTGGACGCCAGAGACGCGTGCAGGATTCCATGAGGATCAACATTAAGCAGGAGGCGCATTCCGACCTCGATGAAGACACTAAACCGGACATTAACATGTCGGAGGCCACAGATTCAAATACAACACAGGTTAAAATCAAGAAATCTATGACCGATTTCAAGTGCTGTGTGCCGAACTGTGGTCGCAGTCGCCTGGAGCATGGTGCCCGCCTCTTTCCGTTTCCGAACgggaaacagcagcagagcaagTGGCGCCACAATCTCCGGCTGCTTGCTGCCGACGTGGACAAGACGACGCGCATCTGCAGCGCCCACTTCAATCGCCGTTGCATCGATGTCAATCAGCTGAGGGGCTGGGCAATGCCCACACAGCAGCTGGGCCATCAGGAGCTGCCGATCTATGAGAATCCAAAGAATATACCGGGCTTCTTTACGCCCACCTGTGCGCTGGCGCACTGCCGCAAGCGGCGCAGCATTGACAACGATCTCCGTACCTATCGCTATCCACGCAGCGAGGAGCTGCTCGAGAAGTGGCGTGTCAATCTGCGCTTGTCGCCGGACCAATGCCGCGGACGCATCTGTGCGGATCATTTCGAGCCACTGGTGCGTggcaagctgaagctgaagacTGGAGCAGTGCCTACGCTCAAATTGGGACACGACGAGGGCGTAGTCTTCGATAATGAGGGCATTAAGGCGGGTCTGCcgctggaggaggaggcggaggaaGAAGAGGGCGATGCCAGCTTGAAGTCGTTGGTCAAAGTAAAGACTGAGCAGGAGGATGAGCAGGAGCTAGAAAATGAAGATGaagagcagctggagcaggagcaggatcTGGAGCAGGATCAGGATATGGACGAGGATGGGGAAGAGCATCGAGACTCTGAGGAACATGGCTATTTTGATCCCTTGGAACTTGTGGAAACCTACGCTGAGCACCACAGCGATGATAACTCTGCCGGACATGATAATctcgacgatgatgatgacgaagaTGAGGACATTCCCGGCAATGATGATGAGCTGCTTCTGCCTGATACGCGGCCACTTCGAATGACAATGGCTCCGCGGCGCGAGAAGGCTGTGAATAATGTGACGCCTATTTGCTGTCTGAAGCACTGTCGCAAGGAGCGCACCGCCATCCATCATCTGAGCACCTTTGGCTTTCCAAAGGatccgcagctgctgctcaagtgGAGCGCCAATCTGCAGCTGCCATTGGAGTCGTGCATGGGTCGTGTATGCGTCGAGCACTTTGAGCCCTCGATGCTAGGCACGCGCAAGCTGAAGCAGAATGCGGTGCCCACCTTGAAACTGGGCCATGCCACACCGCTCACATACAGCTGTAATGGCCGGATGCTGTCGGGCATTTACGATGAACAGCCGCAGCATTCGGTTTTTCGGCTTTGGAGCCTGAAACACTGCCGCAAACGGAAACCGGATCTGGCGGAGATTAAGCCCGGTCGTCGCTGTTGCCTGCCAAGTTGCGGCAAACAGTCGGAGTCGCACGGCGTCCAGCTGCAGCGTCTGCCCAAGGATCGTTTGATGCTGCGCAAATGGTTGCACAACCTGAAGCTGCCTCCAACGATGGACTGCACACAAATGTTCCTCTGCAGCGATCACTTTGAGCTGAATGCACCGTGTCCCACTTTGAAACTGGGCCACTCGGATACCAATATTTATCGCCACAGTGTGGCTAGCACCAGTGGCAGCTGCCTGGTGCCCAAATGTAGTTGTGCTCGCCTCAATCTCTATCGCGGCTATGGTCTGCCTGCGCATCCGCAGGTGCAACAGGCCTGGCTACACTGGCTGCAGCTGCCCCATCCGCAGCCGTCGCCCAGGCACGCCCAGCTGTGTGTGATGCACTTTATGCAGCTCTACGAACTGGTGCCGCTACCCGAATCGGTGCCAGATGTTGTGCGCAGGCAGCTGCGTGAGACTTACGAACTGATATCCAGCTCCAGCATGGCCATGAAGCTGCGTTGCGCTGTGCCCGGCTGCTACTCAAAATATACGGACAATGTGCGTCTGACCAAGCTGCCCGTTTACCCCGACACCTGCGCCAAGTGGGTGCACAACACCAAGATTCAATATGATCCGGCCAGACACTATGTCTATCGAGTCTGCATGTTGCACTTTGAGCCAGGCTGCCTGGGCCCAGTTCGTCCCAAAGTGTGGGCAATGCCAacgctgcagctgcaccaCAAGGATGCCAACATCTATTTAAATCCAAAGCTGGATGGCAGTCAAACACAGCCGGCCGTGCCGCTGGACCTGCCGCTGCGCATTAAAACTGAGCTGCCGATGTGCAACAGTCCCAGCTTTAGTGCGAGTGCCAGTCCCAGTCCGCGTGGCAAGCTGCGCACTTGCTGCATTCCCAGCTGCGGTCAGCAGGCTTCGGCTCTGACGCGTCTCTTTCGCTTTCCCAGCGCAGAGACGTCGATGCTGAAGTGGCTGGTGAAtacccagcagcagccgcgcTTTGTCGATGCACAACGGCTGTTTGTCTGCCAGGATCACTTCGAGACGGAGGCCATTTGCAAGAATCAGCTGCGCAGTTGGGCGGTGCCAACACTGAACCTAGGACACGATGGACACATCATACCGAATGCCAAGCACAATGGCAACATTGCCGACAGCCAGGAGAACAAGCAGACGCTGCAGTTCATCTGGGCCAACTATTGTTCGGTGCTGACCTGCTTCCAGCAAAGTAGCGAGCAGCTGCGGCTCTACCAATACCCAACGGATCGGCCAACCATCCGCAAGTGGGCCGCCAATTGTAAGCATCGCTCCATGCAGGCGAGCAGTGATGGATTCCAGGTCTGTCAGTCGCATTTTACGCCGGATTGCTTTGATCCTGATACCGGGAGCTGA
Protein Sequence: MSQQQHNPPPHHQHQHHYYQQQQQQQQQQQHLQQQQHLQHKQIQQQHSWYSHVASYPPPHAAAFASPCKSSSSNNNNNNNNNHIMNAYGTGAGAYYGSAGAGDVGVGYNLEANTVAYAHNQLLQYQQQQQQQQQQQHQQQQQHQQQLSQRSYMPPHIMHSSYPYIKSEPLEPLPERHHQQQQQQQLFQNPMAPPPAPAIANRHSLDASGEMIIKSEPIDEHAFKSNYIDDNTPFADFSKYPEFGDDMLSPKLELNVKDEPYGNQKNPLNYPRRKLQTDRSAESMLICQRCKEVFFKKHIYLQHVAESSCSIHEYEFKCNICPMSFMGGEELQKHKHLHRTDKFFCHKYCGKHYDSIAECESHEYMEHEYDSFVCNMCSVTFPTREQLYAHLPQHKFQQRYDCPICRLWYQTALELHEHRLAAPYFCGKYYAAAHQQQQQQQQQQQQQQQPQQQHTQQHQQQGNYKLQDCHMGTIEMTPPQHKVNAALPATAALNSLLQQRQANADGAALYASALKSETNVKLERSYSNSTSESGYSMHESSYNNAYASDNSLHGGGGAIGGPQAHSSTLDDSEDALCCVPLCGVRKSTSPTLQFFTFPKDDKYLHQWLHNLKMFHIPASSYASFRICSMHFPKRCINRYSLCYWAVPTFNLGHDDVANLYQNRELTNTFTTGEVARCSMPNCTSQRGESNLKFYNFPKDIKSLIKWCQNARLPVQAKEPRHFCSRHFEERCIGKFRLKPWAVPTLHLGAQYGKIHDNPKNLYVEEKRCCLNFCRRSRSSDFNMSLYRFPRDEVLLRRWCYNLRLDPAVYRGKNHKICSAHFIKEALGLRKLSPGAVPTLHLGHNDTFNIYENELWPPPTPSTPTHNHQQQLQQHQLQQQPQQVHHKYQRHSAASTSSSASSTSHYVDPELSSSYMSMGAGGSSSGLNVSDSMDVCCVPSCESKRHNNENITFHTIPRRPEQMRKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLHLGHDDEDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNVPLLTKWCTLRIDACATNGWRSGRVPTLILGHENIPYPLPTPEQVAEFYARPTAPNNGEEQGECCVETCKRNPSVDDIKLYRPPEESQVLVKWAHNLQLEIAQLPNMRICNLHFEAHCIGKRMRPWAIPTLNLATNIENLYENPEHQMLYKRRNHLKPGRAARGSEASAGGVKPTWVPRCCLPHCRKVRATHNVQLYRFPKLNRSTLAKWAHNLQVPLVGSAQRRLCSAHFEPHVLSKKCPVPMAVPTLDLNTPSGYKIYQNPAKLKANKLCLQRVCIVESCRRQRAQGVQLFRLPHSPTQLRKWMHNIRMRPRGAMRQQYRICSKHFETHSFNGKRLSAGAIPTLELGHEDEDIFPNEAQSFVEEHCTVEGCDAVKEQPDVRLFRFPNDDEDLLWKWCNNLKMSPVDCIGVRICNRHFETDCIGPKHLFKWAIPTLSLGHDDDDIELMLNPKPEERYIDPVFKCCVPSCGKTRKFDEVQMNSFPKDPELFQRWRHNLRLEHLNFKERERYKICNAHFEDICIGKTRLNIGSIPTLELGHDETDDLFQVNPEELQSNLFGRQRRVQDSMRINIKQEAHSDLDEDTKPDINMSEATDSNTTQVKIKKSMTDFKCCVPNCGRSRLEHGARLFPFPNGKQQQSKWRHNLRLLAADVDKTTRICSAHFNRRCIDVNQLRGWAMPTQQLGHQELPIYENPKNIPGFFTPTCALAHCRKRRSIDNDLRTYRYPRSEELLEKWRVNLRLSPDQCRGRICADHFEPLVRGKLKLKTGAVPTLKLGHDEGVVFDNEGIKAGLPLEEEAEEEEGDASLKSLVKVKTEQEDEQELENEDEEQLEQEQDLEQDQDMDEDGEEHRDSEEHGYFDPLELVETYAEHHSDDNSAGHDNLDDDDDEDEDIPGNDDELLLPDTRPLRMTMAPRREKAVNNVTPICCLKHCRKERTAIHHLSTFGFPKDPQLLLKWSANLQLPLESCMGRVCVEHFEPSMLGTRKLKQNAVPTLKLGHATPLTYSCNGRMLSGIYDEQPQHSVFRLWSLKHCRKRKPDLAEIKPGRRCCLPSCGKQSESHGVQLQRLPKDRLMLRKWLHNLKLPPTMDCTQMFLCSDHFELNAPCPTLKLGHSDTNIYRHSVASTSGSCLVPKCSCARLNLYRGYGLPAHPQVQQAWLHWLQLPHPQPSPRHAQLCVMHFMQLYELVPLPESVPDVVRRQLRETYELISSSSMAMKLRCAVPGCYSKYTDNVRLTKLPVYPDTCAKWVHNTKIQYDPARHYVYRVCMLHFEPGCLGPVRPKVWAMPTLQLHHKDANIYLNPKLDGSQTQPAVPLDLPLRIKTELPMCNSPSFSASASPSPRGKLRTCCIPSCGQQASALTRLFRFPSAETSMLKWLVNTQQQPRFVDAQRLFVCQDHFETEAICKNQLRSWAVPTLNLGHDGHIIPNAKHNGNIADSQENKQTLQFIWANYCSVLTCFQQSSEQLRLYQYPTDRPTIRKWAANCKHRSMQASSDGFQVCQSHFTPDCFDPDTGS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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