Basic Information

Insect: Zaprionus indianus
Gene Symbol: -
Assembly: GCA_018904595.1
Location: JAEIHA010000644.1:849327-861680[-]

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 25 1.1e-15 2.3e-12 47.4 3.8 1 86 361 433 361 434 0.85

2 25 2.1e-15 4.3e-12 46.5 4.6 1 87 461 530 461 530 0.83

3 25 0.00098 2 9.1 0.9 1 39 552 588 552 600 0.76

4 25 3.3e-16 6.8e-13 49.1 5.3 1 87 637 707 637 707 0.83

5 25 6.1e-15 1.2e-11 45.0 3.5 1 86 731 802 731 803 0.82

6 25 8.1e-13 1.7e-09 38.2 1.0 1 87 838 906 838 906 0.81

7 25 7.1e-11 1.5e-07 32.0 1.4 1 86 954 1023 954 1024 0.76

8 25 1.9e-16 3.9e-13 49.8 0.1 1 86 1051 1120 1051 1121 0.82

9 25 3.3e-13 6.8e-10 39.5 0.9 1 86 1142 1211 1142 1212 0.80

10 25 2.2e-14 4.5e-11 43.2 1.0 1 86 1239 1310 1239 1311 0.84

11 25 2.4e-14 5e-11 43.1 1.8 1 85 1385 1453 1385 1455 0.82

12 25 1.5e-12 3e-09 37.4 0.1 1 86 1478 1546 1478 1547 0.81

13 25 2.4e-13 4.9e-10 39.9 1.4 1 87 1693 1762 1693 1762 0.80

14 25 1.3e-12 2.7e-09 37.5 0.5 1 61 1836 1889 1836 1914 0.79

15 25 0.052 1.1e+02 3.6 0.0 1 58 1922 1972 1922 1994 0.74

16 25 1.8e-12 3.8e-09 37.1 0.4 1 86 2011 2080 2011 2081 0.86

17 25 1.7e-15 3.6e-12 46.8 1.5 1 86 2145 2214 2145 2215 0.82

18 25 1.6e-12 3.2e-09 37.3 1.4 1 86 2250 2321 2250 2322 0.81

19 25 1.2e-12 2.4e-09 37.7 1.9 1 87 2332 2404 2332 2404 0.80

20 25 3.5e-16 7.2e-13 49.0 0.1 1 86 2434 2508 2434 2509 0.79

21 25 4.6e-06 0.0095 16.6 0.2 1 58 2545 2599 2545 2621 0.84

22 25 5.7e-15 1.2e-11 45.1 0.3 1 86 2637 2709 2637 2710 0.82

23 25 3.6e-14 7.4e-11 42.6 3.3 1 86 2857 2929 2857 2930 0.82

24 25 8.5e-14 1.7e-10 41.3 2.8 1 87 2990 3061 2990 3061 0.82

25 25 6.6e-14 1.4e-10 41.7 3.6 1 86 3174 3244 3174 3245 0.84

#	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	25	1.1e-15	2.3e-12	47.4	3.8	1	86	361	433	361	434	0.85
2	25	2.1e-15	4.3e-12	46.5	4.6	1	87	461	530	461	530	0.83
3	25	0.00098	2	9.1	0.9	1	39	552	588	552	600	0.76
4	25	3.3e-16	6.8e-13	49.1	5.3	1	87	637	707	637	707	0.83
5	25	6.1e-15	1.2e-11	45.0	3.5	1	86	731	802	731	803	0.82
6	25	8.1e-13	1.7e-09	38.2	1.0	1	87	838	906	838	906	0.81
7	25	7.1e-11	1.5e-07	32.0	1.4	1	86	954	1023	954	1024	0.76
8	25	1.9e-16	3.9e-13	49.8	0.1	1	86	1051	1120	1051	1121	0.82
9	25	3.3e-13	6.8e-10	39.5	0.9	1	86	1142	1211	1142	1212	0.80
10	25	2.2e-14	4.5e-11	43.2	1.0	1	86	1239	1310	1239	1311	0.84
11	25	2.4e-14	5e-11	43.1	1.8	1	85	1385	1453	1385	1455	0.82
12	25	1.5e-12	3e-09	37.4	0.1	1	86	1478	1546	1478	1547	0.81
13	25	2.4e-13	4.9e-10	39.9	1.4	1	87	1693	1762	1693	1762	0.80
14	25	1.3e-12	2.7e-09	37.5	0.5	1	61	1836	1889	1836	1914	0.79
15	25	0.052	1.1e+02	3.6	0.0	1	58	1922	1972	1922	1994	0.74
16	25	1.8e-12	3.8e-09	37.1	0.4	1	86	2011	2080	2011	2081	0.86
17	25	1.7e-15	3.6e-12	46.8	1.5	1	86	2145	2214	2145	2215	0.82
18	25	1.6e-12	3.2e-09	37.3	1.4	1	86	2250	2321	2250	2322	0.81
19	25	1.2e-12	2.4e-09	37.7	1.9	1	87	2332	2404	2332	2404	0.80
20	25	3.5e-16	7.2e-13	49.0	0.1	1	86	2434	2508	2434	2509	0.79
21	25	4.6e-06	0.0095	16.6	0.2	1	58	2545	2599	2545	2621	0.84
22	25	5.7e-15	1.2e-11	45.1	0.3	1	86	2637	2709	2637	2710	0.82
23	25	3.6e-14	7.4e-11	42.6	3.3	1	86	2857	2929	2857	2930	0.82
24	25	8.5e-14	1.7e-10	41.3	2.8	1	87	2990	3061	2990	3061	0.82
25	25	6.6e-14	1.4e-10	41.7	3.6	1	86	3174	3244	3174	3245	0.84

Sequence Information

Coding Sequence: ATGATAATAAAATCGGAACCCATTGACGAACATGCGTATAAAACCAACTATATTGATGATAATACGCCGTTCGCTGATTTTAGTAAATTTCCGGAATTTGGCGACGATATGCTGAGTCCCAAGGTAGAGCTGACCGTCAAGGATGAGGCGTATCAAAAGAACCCGCTTAGTTATCCGCGGCGCAAGCTGCAATCGGAACGATCCTCGGAGAGCTTGCCGATTTGTCAGCGCTGCAAGGAGGTGTTCTTCAAGAAGCAAATCTACTTGCAGCATGTGGCAGAGAGTAGTTGCACCATACAGGAGTATGACTTCAAGTGCAACATATGTCCCATGTCTTTTATGAACACCGAAGAACTGCAAAAGCACAAACATCTTCACAGGGCCGATAAGTTCTTTTGCCATAAATATTGTGGCAAGTACTTTGATACCATTGCAGAGTGCGAGTCACATGAGTACATGCAGCACGAGTATGAGAGCTTTGTTTGCAACATGTGCTCGGTTACATTTGCCACACGGGAGCAGCTCTATGCGCACTTGCCACAGCATAAGTTCCAGCAACGTTTCGATTGTCCCATTTGCCGGCTATGGTATCAAACAGCATTAGAGCTGCACGAGCATCGTCTGGCGGCGCCCTATTTCTGTGGCAAGTATTACGCAGGCGCACAGGCCACACAGGCGCTTCAGCAGCAGCACACACAGCAACAGCATCAGCAGAGCGCCAACTACAAGTTGCAGGATTGTCACATGGGCACCATGGAAATGCCGACCCCACATCAAAAGGCAACTGCTGGCAGCGCATTACCGGCAACGGCGGCATTGAACTCGCTGTTGCAACAACGTCAGGCAAACGCCGATGGTGCCGCATTGTTTGCATCTTCTCTGAAGAACGAAGTGAACGTCAAACTGGAGCGAAGCTACAGCAATTCTACAACAAGCGAATCTGGCTACAGTCTGCATGACAGCAGCAACTATAACAATGCATATGGAAGCGATGCCTCGTTGCATGGAGGTGCAGGTGCCGGGGCTATTGGTGGTCCACAGGCGCATTCCTCAACGCTGGACGATTCTGAGGATGCGCTTTGCTGTGTGCCTCTATGTGGTGTGCGCAAGAGCACCAGCCCCACGCTGCAGTTCTTTACGTTCCCCAAAGACGAGAAGTACTTGCATCAATGGCTGCATAACCTTAAGATGTTTCATATTCCGGCCTCGAGTTATGCCACTTATCGCATCTGCAGCATGCATTTTCCGAAGCGCTGCATCAATCGATATTCATTGTGCTATTGGGCTGTGCCCACGTTCAATTTGGGACACGATGATGTTGCCAATCTATATCAGAATCGCGAGCTAACGAACACCTTTACCACCGGCGAGGTGGCGCGTTGCAGCATGCCCAACTGTACCAGTCAACGAGGGGAAAGCAATCTCAAGTTTTACAACTTCCCGAAGGACATAAAGAGTCTTATCAAGTGGTGCCAAAACGCACGTTTGCCCGTCCAGGCCAAGGAGCCGCGTCACTTCTGCAGTCGACACTTTGAGGAGCGATGCATTGGCAAGTTCCGGTTAAAGCCATGGGCGGTGCCAACACTGCATTTGGGTGCCCAATACGGCAAGATTCATGACAATCCCAAGAACTTGTATGTGGAAGAGAAGCGCTGTTGCCTTAACTTTTGTCGACGGAGCCGCTCCTCGGACTTTAACATGTCGCTGTATCGCTTCCCCAGAGATGAAGTTCTCTTGCGACTGCACATTTCATCAAAGAAGCACTGGGATTGCGAAAACTATCGCCGGGTGCCGTTCCTACGCTTCATTTGGGTCACAACGATACAGTTGAGTGCATCGTATATGGGCATGGGAAGTGGATCGGGTGGATCCGCGTCGGGCCTGAATGTGAGCGACAGCATGGATGTGTGCTGTGTGCCAAGTTGTGAGAGCAAGCGACACAACAACGAGAACATCACATTCCATACGATACCGAGGCGACCCGAACAGATGCGCAAATGGTGTCACAATCTTAAGATACCCGAGGATAAGATGCATAAGGGAATGCGGATTTGTAGTCTACACTTTGAGCCCTATTGCATTGGCGGCTGTATGCGTCCGTTCGCGGTACCCACACTGAATCTCGGGCACGACGACGATGATATACATCGCAATCCTGATGTAATTAAGAAGCTGAATATACGTGAAACCTGCTGTGTGGCTGTGTGCAAGCGTAATCGGGATCGCGATCATGCCAATCTGCACCGTTTCCCCAGCAATGTCTCGCTGCTGACCAAATGGTGCGCCAATCTGCAGCGACCTGTGCCCGATGGCACTAAACTCTTCAACGATGCCATCTGTGAGGTGCACTTTGAGGATCGTTGCCTGCGCAACAAGAGATTGGAGAAATGGGCAGTGCCTACGCTGGTGCTGGGACATGACAACATTGCATATCCACTGCCAACGCCGGAGCAGGTGGCCGAGTTCTATGCCCGTCCCAGTGCACCCAACAATGGTGAGGAACAGGGCGAGTGCTGTGTGGAGACCTGTAAACGTAATCCTAGTGTCGATGATATCAAACTCTATCGCCCGCCCGAGGAGTCGTCCGTGCTGGCGAAATGGGCACATAATCTCGAAGTGGATGCCGCCAAGTTGTCCAGCATGCGTATATGTAATCTACACTTTGAATCCCATTGCATTGGCAAGCGTATGCGTCCTTGGGCCATACCCACACTGAATCTGTCCAACAATGTTGAAAATATGTACGAAAATCCCGAGCATCATATGATCTACAAGCGTCGCACACAAATTAAGACCGAGAGAGGATCAGGTGCATCGGGAGCGGGAGCAAGCATGTCGAAACCCACTTGGGTGCCACGTTGCTGTTTGCCACATTGCCGCAAGGTGCGTGCTCTGCACAATGTGCAGCTCTATCGCTTCCCCAAACTGAATCGTTCCACGTTGGCAAAGTGGGCGCATAATCTGCAAGTGCCACTGGTGGGCAGTGCCCAGAGGCGACTCTGCTCTGCCCACTTTGAGCCGCATGTGTTGAGTAAAAAGTGTCCTGTACCGCTGGCGGTGCCCACACTGGACCTCAATGCGCCACCCGGCTATAAAATCTATCAGAATCCCGCCAAGCTCAAGGCCAACAAGCTGTGTCTGCAGCGAGTCTGCATTGTGGAGAGCTGCCGTCGTCAACGTGGTCAGGGCGTGCAGCTCTTCCGACTACCGCACAGTCCCACGCAGCTGCGCAAATGGATGTACAACATACGGATGCGACCCAGAGGTGCCATGCGGCAACAGTATCGCATCTGCTCTAAACACTTTGAGACGCATTCGTTCAATGGAAAGCGACTGAGTGCGGGAGCGATACCAACACTGGAGTTGGGCCACGACGACGAGGACATCTATCCAAATGAGGCGCAATCATTTGTAGAGGAACACTGTGCCATCGAAGGATGCGAGTCATCCAAAGAGCAGCCAGATGTGCGTCTCTTCCGCTTTCCCACCAATGATGAGGATTTGCTCTGGAAATGGTGTAACAATCTGAAAATGAATCCTGTCGATTGTATCGGCGTGCGCATCTGTAACAAACACTTCGATGGAGATTGCATAGGACCGAAGCATCTTTACAAGTGGGCGATACCCACGATGGAGTTGGGCCACGATGACTCTCAGATTGAGCTTATTACGAATCCCAAGCCAGAGGAACGTTATGTTGATCCCGTGTTCAAGTGTTGTGTTCCCACCTGCGGCAAGACGCGTAAATTCGATGAAGTACAAATGAATAGCTTCCCCAAAGATCCTACACTTTTCGAGCGCTGGAAACACAATCTGCGACTGGAGCATCTCCAGTTTAAGGAGCGCGAACGTTATAAGATCTGTGATGCACACTTTGAGGACATTTGCATTGGCAAGACACGTCTTTATATTGGTTCCATACCCACATTAGAGTTGGGACACGACGATACGGAAGATCTATTCCGGGTAAATCCTGCAGAGTTGCAAAGCAACTTGTTTGGTCGTCAGCGACGTGTACAGGAATCAGGTCTGAGGGTCAGAATAAAGCAGGAGGAGCACTCCGAGCAAGAGGAGACGGATGTTACTATGTCAGAGGCTACGGATTTAAATACCAAGCAGGTAAAAATAAAGAAACGCCTTGCGGACTTGAAGTGCTGCGTGCCCAATTGTGGTCGCAGTCGACTGGAGCACGGCGCACGTTTATTTCCCTTTCCAACTGGCAAACAACAGCAGAGCAAGTGGCGCCACAACTTGCGTCTGGATGCCAGCGAAGTGGACAAGACGTCGCAAGTTTGCAGCGCACACTTCAATCGACGTTGCATCGATGGCAAGCAGCTGCGTGGCTGGGCAATCCCCACACAGCAGCTGGGACATCAAGAGCAACCGATTTATGAGAATCCAAAGAATATACCGGGCTTCTTTACGCCCACCTGTGCGCTGGCGCACTGCCGCAAGCGGCGAAGTATTGACAATGACTTGAGGACTTATCGTTATCCCCGCAGCGAGGAGTTGCTGGAAAAATGGCGAGTGAATTTACGCTTGGCTCCAGATCAGTGTCGCGGACGCATTTGTGCCGATCATTTCGAGCCAATGGTGCGTGGCAAGCTGAAGCTTAAGACGGGTGCAGTGCCAACACTTAAGCTGGGACATGATGAGGGCGTGGTCTTTGACAACGAGGCCATTAAGGCGGGACTGCAGATGGATGGAGTCGCAGAGCCAGAGGTGGAGGAGGGTGAGGCAAGCAGAGAATCGCTGATTAAGATTAAAAAGGAAAAAATTGAACCAGATGAGGAGGAGGCGGAGGCAGAGCAGACACAGCTGGAAAATGGAGATGATGATGATGATGAGCAGGAAGAAGATGTGGATGCAGATGAGGATGATGATCATGGTTACTTCGATCCATTGGAACTGGTTGAAACCTTTGCTGACGACCATGCAGCCGATGATGATGAAGGTGATATTCCTGGCAATGATGATGAGCTTCTGTTGCTGCCTGATACGCCGCAAGTGAAGCTAGAGCATCCGCTCCCGCCGCTGCTACGTCGCGAGAAGCCCGTGAATAATGTGACGCCAATTTGTTGTCTAAGGCATTGCCGCAAAGAACGCACTGCAACACATCAGCTGAGCACCTTTGGTTTTCCCAAGGATCGCCTGCAGCTGCGCAAGTGGAGTATCAATCTACAAATTCCCGAGAGCGATTGCGTGGGACGTGTTTGCATTGAGCATTTCGAGGCGGAGGTTCTGGGCACGCGTAAGCTCAAACAGCATGCAGTGCCCACATTAAATTTGGGCCATGACACGCCCCTAATCTACAGATGCAACGGACAAGCGCAGCCCATGGGAGGCATCTTCGATGAGCAGCCGCAACATTCGGTTTTTCGGCTTTGGAGCCTGAAACACTGTCGCAAAAGGAAGCTGGAAGCAATGGAACCGCCCGATCATCATCATCATCAACGAGCAGTGATTAAGCAGGAGATGGAGGAGGAGCAGGAGGATGGGCTCAGCTGTTGCCTGCCCCACTGTGGCAAGCGGGCAAATGACGTACAGCTACATCGTCTGCCCAGCAATCGCTTTCGACTGCGCAAATGGTTGCACAATCTCAATCTACCCCAGAGCATTCCCATCGGCAGTCAGACACGTGTCTGCAGCGAACACTTTGATGTGCAACCGGGTGAGGCACTTGAGGATTGTATGCCAACCTTGAACCTGGGTCACAATGATACCAATCTATATAGAAATCAAAACTCCACCGCCTCATCTTCCTGCTTGGTGCCAAGCTGCCCGTGTGCACGCCTCAATCTCTATCGTGGCTATGATTTGCCTGAGCATCATCTTGTACAGCAGGCTTGGCTTGAGTTCCTTCGGCAACCCATGCCTCAGCTGCCCGGCGATGGCCAGCTCTGTGTGATGCACTACATGCAGCTATACGAGCAGGTCTCGCTGCCGCAGGAGGTGCCAGCGACAGTGTTGCGTCAACTGCAGGAAACCTACGAACAGATTGCCAACTCCACCATGGCCATGAAGTTGCGCTGCGCCGTGCCCGGCTGCTATTCCAAGTATACCGATAACATAAGGTTGACCAAGCTGCCCACCTGCTCGGAGATGTTTGCCAAGTGGCTGCACAATACCAAGATCAAATACGATGCCAACAGGCATTATATCTATCGCATTTGTATGCTCCACTTTGAGCCACGTTGTCTGGGTCCAGTGCGTCCCAAATTGTGGGCGGTGCCGACGCTGCAACTACACCACAACGATGCAAATATCTATAGGAATCCCAAGTTGGATGCGAGTGGACAAGAGGTAGAGCAAGTCCTTCCACAACCTGTACCCGTGCCCTTAGAGCTGCCATTGCGGATCAAGACAGAGCTGGCTTTCACTGGCAGTCCGAGTGCCAGCGCAAGTCCAAGTCCACGTGGCAAGTTGCGCATGTGTTGCATTCCCAGCTGTGGCCAGCAGGCCAACTCGTTGGTGCGTCTCTTTCGCTTTCCCACTTCTGAAACATTGCTGCTCAAGTGGCTGGTGAACACACAGCAGAAGCCACGTCTGGCGGATCCACAGCATCTGTTTGTCTGCCAGGATCATTTCGAAGCGGAAGCCATTTGCAAGAAGCAGCTAAGCAGTTGGGCTGTGCCCACATTGAAGCTAGGACACGATGGTCATATCATTCCCAATGCCAAGCACAATGGAAACATTGCGGACACACATGAGAATCGACACACGCTGCAATTTATTTGGGCCAACTACTGCTCTGTGCTGGACTGTTTTGAGCCTCGTAGTGAGCATCTGCGTCTCTTTCCATATCCCACAGATCGACCCACCATACGCAAGTGGGCTGCCAATTGCAAGCATCGTTCCATGCAGGCCAGCAGCGATGGCTTTCAGGTTTGTCAATCTCACTTTGAGCCACATTGTTTTAATCCGGATACAGGAGAGTTGCGAGCGGATGCAGTGCCTACGCTGGAGCTTAGTCGTGGCATCAATAAGACGGGTTGCGTGGTGCCCGGTTGTGTAAAAGATGAAAATGGACCGCGTCGCCGCCTGTTCAAGATGCCGAAACGTTTCACGCAGTTGTTAGATTGGTGTCACAATTTGCAGCTGGATCGATCGACCATCTCAATTGAGAAGAGTGTTGTGTGTGATCGTCACTTCGAGTCGCATTGCTTGAATGTGCATAAACAGCTGCGTCGGGGAGCACGTCCCACACTTCATTTGGGTCACACTGCGGATGTTGAGATATTGCAGAACCCTTCGAATTGGGCCCGTTGCACCGAGGTGTCTGAGACTCCTGCTGATGTCTGCTGTGTGCCCAATTGTGGACGGGATAAGGATGCAGAGGAAGAGGATACTGATGTGCAGCTCTTCAGTTTTCCCAAGGTGCGAACACTGGCAGAAAAATGGCTGAGGAACATTCGTCTCGAGGCAAACAAGGAACAGTTGGCGGAGTTGAAAGTCTGCAATGCGCACTTTGAGGTCTACTGTCTGGAGAATGGACGCCTACAGTTGGGTGCCATGCCCACACTGCAGTTGGGACACGATGATCATCAAGATATACATCGCTCCAGTTGTCTGACTTCGTTGTCGGCTTCCAAAATGAAACGTTATTGCAATAGAAATGGATACAGCTATGATTGTTGTTTTCCTCAGTGTGTGGAGTTGCAGAAGAGTTATCTACGGATAAGCTACAATTTGCCACAGTCGCAAGAGATGCGTAACGCCTGGATAGCCTACATGGAGTTGGAGGAACCGAAGGAGCAAGAAAAGAAGCAGCAACTAAAATTGTGCCCGCTCCATTTGATCCTTCTTTACGAGCACAGCGTAGATAATTTCCCCGAGCACACAACAGAGGAACTTCTGCAGGATAACTATGCAGCTGCGAGAAATAGTGTGCGCATACGTATCATTAGTTGTGCCGTGCGTGGCTGCAGGACTCTGAAAACCCGCGATGGCGGCTGCCTTCATGGTCTGCCCACGCGTCGGGATATACTTCAGATGTGGTTGCACAACATGCAGTTGGTGTTCTACGAGCAACAGCGTTACATGTACAAGATCTGTAGCAAACACTTTGAGCCCAATTGCTTTACGGACACAACACGCCGCCTCAAGCCATGGAGTATGCCAACGTTGGAGTTGCCTGAGCCCGAACCAGGTGAACCGGAAATATATCAGAATCCCACAGAGGCTGAATGGCAACAAATGAATGAACAATGGGCAGCAGAGCAGGCGCAAATAGCTCAGCCAATGATGGAGGATGAAGAGCATGATGAAGCTGTGCAAGTCAAGCTTGAGCCCGAAACGGAGATGGAACAGGAGAATCTGCTGGCATATGAAGAAGAGGATTACTCGCAGCCTCCAGTGGATGGAGGGGAGGATGCTAGTTCGCAGCAGCCGCTGGAGATGCAACCGTTGGAGGTGCTGCTTGAGGTGGGCCATGTGGAGAAGTGCAGAACATACGAGCAAATGGACACAAAGGCAAATCTTAATTATGCCGAACAACAGGCGGCGGCTGGACCGTTGCCTAGCAATGGAATCTTTGCCAGTAATGGCAACAAGTACACTGCACGCAATTGCAGTGTACAAGGCTGCCACGTGACCTTGAACGATATCTGTGGCAGTGTGAAATTACACAAATTTCCCACGTCGTGGGAGTCAATGCAAAAGTGGATGCACAACACCCAAGTGAAGGTGTGCAGAAGTGTCTCGTGGCGTTTTCGCATTTGCAGTTATCATTTTGATGAAGATTGTTTTCAAGGCTCTCGCCTAAGGCGTGGTGCCATGCCCACATTGCAGTTGGGCCCCAACCGACCTTCGAATATCTATGAGAGTGAATTCAATGTTGGCGATGGCGATGAGGAGCAGCCCATTGAGCAGCCATTAGAACAAACACCAAAGTCAAGGGTGGTAGGTGGCGATAATATAAGTCTGTGCCTGCCTAGCCCAGCACCACCTCGCAAGTCGAGCAAGTTCTGCCAAGTCGATGGTTGTCCTAATCATTTGACCACCGAGAACATGACGCTGCACAAATTTCCCCACTCGCAGGACATGTGTGCCAAGTGGCAGCATAATACACAGGTGCCATTTGATCCCGTCTTCCGTTGGCGTTATCGCATATGCAGCGCTCACTTTGAGCCGATCTGTCTCTTGAATATGCGCCTGTTGCACGGCAGTGTGCCCACGCTGCACTTGGGTCCACGTGCTCCCTTGCAGCTCTTCGACAGCGACTTTGAGGCCATCAGCATGCGCTTGGATAAGCAGAAGAGCAGCTCAGAGCAACACTTGTATATCAAAGAGGAGCAGGAAGAGGATCACGATGATGCGATGCAAGATGAGGATGAGTTTAGTTTTCTGGTGCCAGAGATGCAGCTGCATGAGGATGCAGGGGTAGAGGAAGCTAACATAAAGACGGAGCACAGTCAAACCTATAACGGACGCTGGAAGGATCTGCGCTTGCCCAGTATTAAGCAGGAGGATACAACGACCATGACGTGCTATAATCCAGTCAAGTCGGGCTACGACAAGTGCTCGCTGGTGCATTGTCAGCGTCAACGATCTCTGCACGGTGTGCATATCTATAAATTCCCCCGTTCCCATCAACTACAGCAGCACTGGATGCATAATCTGCGAATACGCTATGATGAACGGAGGCCCTGGAAAACAATGATATGCAGTGTACACTTTGAGGCGCAATGTATTCGTCTGCGTAAGCTGCGTCCCTGGGCGGTGCCCACACTGGAGCTAGGGTGA
Protein Sequence: MIIKSEPIDEHAYKTNYIDDNTPFADFSKFPEFGDDMLSPKVELTVKDEAYQKNPLSYPRRKLQSERSSESLPICQRCKEVFFKKQIYLQHVAESSCTIQEYDFKCNICPMSFMNTEELQKHKHLHRADKFFCHKYCGKYFDTIAECESHEYMQHEYESFVCNMCSVTFATREQLYAHLPQHKFQQRFDCPICRLWYQTALELHEHRLAAPYFCGKYYAGAQATQALQQQHTQQQHQQSANYKLQDCHMGTMEMPTPHQKATAGSALPATAALNSLLQQRQANADGAALFASSLKNEVNVKLERSYSNSTTSESGYSLHDSSNYNNAYGSDASLHGGAGAGAIGGPQAHSSTLDDSEDALCCVPLCGVRKSTSPTLQFFTFPKDEKYLHQWLHNLKMFHIPASSYATYRICSMHFPKRCINRYSLCYWAVPTFNLGHDDVANLYQNRELTNTFTTGEVARCSMPNCTSQRGESNLKFYNFPKDIKSLIKWCQNARLPVQAKEPRHFCSRHFEERCIGKFRLKPWAVPTLHLGAQYGKIHDNPKNLYVEEKRCCLNFCRRSRSSDFNMSLYRFPRDEVLLRLHISSKKHWDCENYRRVPFLRFIWVTTIQLSASYMGMGSGSGGSASGLNVSDSMDVCCVPSCESKRHNNENITFHTIPRRPEQMRKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLNLGHDDDDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNVSLLTKWCANLQRPVPDGTKLFNDAICEVHFEDRCLRNKRLEKWAVPTLVLGHDNIAYPLPTPEQVAEFYARPSAPNNGEEQGECCVETCKRNPSVDDIKLYRPPEESSVLAKWAHNLEVDAAKLSSMRICNLHFESHCIGKRMRPWAIPTLNLSNNVENMYENPEHHMIYKRRTQIKTERGSGASGAGASMSKPTWVPRCCLPHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPLVGSAQRRLCSAHFEPHVLSKKCPVPLAVPTLDLNAPPGYKIYQNPAKLKANKLCLQRVCIVESCRRQRGQGVQLFRLPHSPTQLRKWMYNIRMRPRGAMRQQYRICSKHFETHSFNGKRLSAGAIPTLELGHDDEDIYPNEAQSFVEEHCAIEGCESSKEQPDVRLFRFPTNDEDLLWKWCNNLKMNPVDCIGVRICNKHFDGDCIGPKHLYKWAIPTMELGHDDSQIELITNPKPEERYVDPVFKCCVPTCGKTRKFDEVQMNSFPKDPTLFERWKHNLRLEHLQFKERERYKICDAHFEDICIGKTRLYIGSIPTLELGHDDTEDLFRVNPAELQSNLFGRQRRVQESGLRVRIKQEEHSEQEETDVTMSEATDLNTKQVKIKKRLADLKCCVPNCGRSRLEHGARLFPFPTGKQQQSKWRHNLRLDASEVDKTSQVCSAHFNRRCIDGKQLRGWAIPTQQLGHQEQPIYENPKNIPGFFTPTCALAHCRKRRSIDNDLRTYRYPRSEELLEKWRVNLRLAPDQCRGRICADHFEPMVRGKLKLKTGAVPTLKLGHDEGVVFDNEAIKAGLQMDGVAEPEVEEGEASRESLIKIKKEKIEPDEEEAEAEQTQLENGDDDDDEQEEDVDADEDDDHGYFDPLELVETFADDHAADDDEGDIPGNDDELLLLPDTPQVKLEHPLPPLLRREKPVNNVTPICCLRHCRKERTATHQLSTFGFPKDRLQLRKWSINLQIPESDCVGRVCIEHFEAEVLGTRKLKQHAVPTLNLGHDTPLIYRCNGQAQPMGGIFDEQPQHSVFRLWSLKHCRKRKLEAMEPPDHHHHQRAVIKQEMEEEQEDGLSCCLPHCGKRANDVQLHRLPSNRFRLRKWLHNLNLPQSIPIGSQTRVCSEHFDVQPGEALEDCMPTLNLGHNDTNLYRNQNSTASSSCLVPSCPCARLNLYRGYDLPEHHLVQQAWLEFLRQPMPQLPGDGQLCVMHYMQLYEQVSLPQEVPATVLRQLQETYEQIANSTMAMKLRCAVPGCYSKYTDNIRLTKLPTCSEMFAKWLHNTKIKYDANRHYIYRICMLHFEPRCLGPVRPKLWAVPTLQLHHNDANIYRNPKLDASGQEVEQVLPQPVPVPLELPLRIKTELAFTGSPSASASPSPRGKLRMCCIPSCGQQANSLVRLFRFPTSETLLLKWLVNTQQKPRLADPQHLFVCQDHFEAEAICKKQLSSWAVPTLKLGHDGHIIPNAKHNGNIADTHENRHTLQFIWANYCSVLDCFEPRSEHLRLFPYPTDRPTIRKWAANCKHRSMQASSDGFQVCQSHFEPHCFNPDTGELRADAVPTLELSRGINKTGCVVPGCVKDENGPRRRLFKMPKRFTQLLDWCHNLQLDRSTISIEKSVVCDRHFESHCLNVHKQLRRGARPTLHLGHTADVEILQNPSNWARCTEVSETPADVCCVPNCGRDKDAEEEDTDVQLFSFPKVRTLAEKWLRNIRLEANKEQLAELKVCNAHFEVYCLENGRLQLGAMPTLQLGHDDHQDIHRSSCLTSLSASKMKRYCNRNGYSYDCCFPQCVELQKSYLRISYNLPQSQEMRNAWIAYMELEEPKEQEKKQQLKLCPLHLILLYEHSVDNFPEHTTEELLQDNYAAARNSVRIRIISCAVRGCRTLKTRDGGCLHGLPTRRDILQMWLHNMQLVFYEQQRYMYKICSKHFEPNCFTDTTRRLKPWSMPTLELPEPEPGEPEIYQNPTEAEWQQMNEQWAAEQAQIAQPMMEDEEHDEAVQVKLEPETEMEQENLLAYEEEDYSQPPVDGGEDASSQQPLEMQPLEVLLEVGHVEKCRTYEQMDTKANLNYAEQQAAAGPLPSNGIFASNGNKYTARNCSVQGCHVTLNDICGSVKLHKFPTSWESMQKWMHNTQVKVCRSVSWRFRICSYHFDEDCFQGSRLRRGAMPTLQLGPNRPSNIYESEFNVGDGDEEQPIEQPLEQTPKSRVVGGDNISLCLPSPAPPRKSSKFCQVDGCPNHLTTENMTLHKFPHSQDMCAKWQHNTQVPFDPVFRWRYRICSAHFEPICLLNMRLLHGSVPTLHLGPRAPLQLFDSDFEAISMRLDKQKSSSEQHLYIKEEQEEDHDDAMQDEDEFSFLVPEMQLHEDAGVEEANIKTEHSQTYNGRWKDLRLPSIKQEDTTTMTCYNPVKSGYDKCSLVHCQRQRSLHGVHIYKFPRSHQLQQHWMHNLRIRYDERRPWKTMICSVHFEAQCIRLRKLRPWAVPTLELG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_01548887;
90% Identity: iTF_01558329;
80% Identity: -