Basic Information

Insect: Drosophila sturtevanti
Gene Symbol: -
Assembly: GCA_018150375.1
Location: JAECWJ010000027.1:1511756-1523399[-]

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 31 3.5e-15 7.3e-12 45.8 4.3 1 86 127 199 127 200 0.85

2 31 8.8e-15 1.9e-11 44.5 5.2 1 87 227 296 227 296 0.83

3 31 2.6e-15 5.4e-12 46.2 0.3 1 87 319 391 319 391 0.84

4 31 5.3e-16 1.1e-12 48.4 5.5 1 87 416 486 416 486 0.82

5 31 4.1e-15 8.7e-12 45.6 3.2 1 86 510 581 510 582 0.81

6 31 5.4e-13 1.1e-09 38.8 0.7 1 87 617 685 617 685 0.81

7 31 7.8e-11 1.7e-07 31.8 1.4 1 86 728 797 728 798 0.76

8 31 1.6e-16 3.4e-13 50.1 0.4 1 86 825 894 825 895 0.83

9 31 1.3e-12 2.6e-09 37.6 2.4 1 86 916 985 916 986 0.80

10 31 4.5e-15 9.4e-12 45.4 1.7 1 86 1013 1084 1013 1085 0.85

11 31 4.5e-13 9.5e-10 39.0 2.0 1 85 1162 1230 1162 1232 0.82

12 31 2.5e-12 5.3e-09 36.6 0.1 1 86 1256 1324 1256 1325 0.82

13 31 1.4e-13 3e-10 40.6 2.9 1 87 1449 1518 1449 1518 0.80

14 31 6e-10 1.3e-06 29.0 0.1 18 86 1582 1639 1548 1640 0.80

15 31 0.0011 2.2 9.0 0.0 1 59 1659 1707 1659 1731 0.74

16 31 5e-13 1.1e-09 38.9 0.2 1 86 1736 1805 1736 1806 0.83

17 31 1e-13 2.2e-10 41.1 0.9 1 87 1872 1942 1872 1942 0.81

18 31 2.3e-13 4.9e-10 40.0 0.7 1 86 1977 2048 1977 2049 0.80

19 31 2.8e-10 6e-07 30.1 0.2 1 87 2061 2134 2061 2134 0.77

20 31 1e-12 2.1e-09 37.9 0.1 1 86 2160 2232 2160 2233 0.80

21 31 4.1e-09 8.7e-06 26.3 1.0 1 58 2269 2320 2269 2337 0.86

22 31 6.2e-13 1.3e-09 38.6 0.1 1 87 2358 2430 2358 2430 0.81

23 31 8.3e-16 1.8e-12 47.8 2.2 1 86 2482 2553 2482 2554 0.81

24 31 2e-05 0.042 14.5 0.3 1 58 2587 2636 2587 2655 0.79

25 31 3.3e-13 7e-10 39.5 0.3 1 87 2674 2746 2674 2746 0.82

26 31 1.2e-14 2.5e-11 44.1 0.3 1 87 2891 2964 2891 2964 0.83

27 31 1e-12 2.2e-09 37.9 2.6 1 86 3031 3101 3031 3102 0.81

28 31 9e-15 1.9e-11 44.5 4.5 1 86 3206 3276 3206 3277 0.85

29 31 3.2e-13 6.7e-10 39.5 0.1 1 86 3357 3426 3357 3427 0.85

30 31 2.2e-11 4.7e-08 33.6 0.3 1 58 3453 3502 3453 3518 0.84

31 31 5.3e-11 1.1e-07 32.4 1.1 18 87 3519 3578 3508 3578 0.76

#	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	31	3.5e-15	7.3e-12	45.8	4.3	1	86	127	199	127	200	0.85
2	31	8.8e-15	1.9e-11	44.5	5.2	1	87	227	296	227	296	0.83
3	31	2.6e-15	5.4e-12	46.2	0.3	1	87	319	391	319	391	0.84
4	31	5.3e-16	1.1e-12	48.4	5.5	1	87	416	486	416	486	0.82
5	31	4.1e-15	8.7e-12	45.6	3.2	1	86	510	581	510	582	0.81
6	31	5.4e-13	1.1e-09	38.8	0.7	1	87	617	685	617	685	0.81
7	31	7.8e-11	1.7e-07	31.8	1.4	1	86	728	797	728	798	0.76
8	31	1.6e-16	3.4e-13	50.1	0.4	1	86	825	894	825	895	0.83
9	31	1.3e-12	2.6e-09	37.6	2.4	1	86	916	985	916	986	0.80
10	31	4.5e-15	9.4e-12	45.4	1.7	1	86	1013	1084	1013	1085	0.85
11	31	4.5e-13	9.5e-10	39.0	2.0	1	85	1162	1230	1162	1232	0.82
12	31	2.5e-12	5.3e-09	36.6	0.1	1	86	1256	1324	1256	1325	0.82
13	31	1.4e-13	3e-10	40.6	2.9	1	87	1449	1518	1449	1518	0.80
14	31	6e-10	1.3e-06	29.0	0.1	18	86	1582	1639	1548	1640	0.80
15	31	0.0011	2.2	9.0	0.0	1	59	1659	1707	1659	1731	0.74
16	31	5e-13	1.1e-09	38.9	0.2	1	86	1736	1805	1736	1806	0.83
17	31	1e-13	2.2e-10	41.1	0.9	1	87	1872	1942	1872	1942	0.81
18	31	2.3e-13	4.9e-10	40.0	0.7	1	86	1977	2048	1977	2049	0.80
19	31	2.8e-10	6e-07	30.1	0.2	1	87	2061	2134	2061	2134	0.77
20	31	1e-12	2.1e-09	37.9	0.1	1	86	2160	2232	2160	2233	0.80
21	31	4.1e-09	8.7e-06	26.3	1.0	1	58	2269	2320	2269	2337	0.86
22	31	6.2e-13	1.3e-09	38.6	0.1	1	87	2358	2430	2358	2430	0.81
23	31	8.3e-16	1.8e-12	47.8	2.2	1	86	2482	2553	2482	2554	0.81
24	31	2e-05	0.042	14.5	0.3	1	58	2587	2636	2587	2655	0.79
25	31	3.3e-13	7e-10	39.5	0.3	1	87	2674	2746	2674	2746	0.82
26	31	1.2e-14	2.5e-11	44.1	0.3	1	87	2891	2964	2891	2964	0.83
27	31	1e-12	2.2e-09	37.9	2.6	1	86	3031	3101	3031	3102	0.81
28	31	9e-15	1.9e-11	44.5	4.5	1	86	3206	3276	3206	3277	0.85
29	31	3.2e-13	6.7e-10	39.5	0.1	1	86	3357	3426	3357	3427	0.85
30	31	2.2e-11	4.7e-08	33.6	0.3	1	58	3453	3502	3453	3518	0.84
31	31	5.3e-11	1.1e-07	32.4	1.1	18	87	3519	3578	3508	3578	0.76

Sequence Information

Coding Sequence: ATGGCTACTATGGAAATGCCCGGAGCACCGCCGTCATCATCATCAGCGGGTTTACATCACAAGTCTAATGTAGCCGGGACATCATCAACATTACCAGCTACGGCAGCGCTAAATTCTCTGCTCCAACAGCGTCAGGCCAATGCCGATGGTTCGGCCATGTTTGCTGCTGCTGTATCCTCAACGCCCCATAAGGGCGAAGTGAATGTAAAATTGGAACGGAGCTATAGCAATTCTACAAGTGACTCTTCATTTGGAATGCATGAATCCAATTATAATAATAATAATGTCTATGGGAGTGATAATTCTATTCATGGATCAGGTGCCGTTGGTGGGCCACAAGCTCATTCCTCAACCCTGGATGACTCTGAGGATGCTCTTTGTTGTGTGCCCATGTGCGGGGTAAGCAAGAGCACTAGTCCCACCCTCCAGTTCTTCACATTCCCCAAGGATGACAAATATCTTCATCAATGGCTACACAATTTAAAGATGTTTCACATACCCGCCTCCAGCTATACGACTTTTCGCATCTGTAGTATGCATTTTCCTAAACGTTGTATCAATCGGTATTCGTTGTGTTATTGGGCAGTGCCCACCTTTAATCTGGGACACGATGATGTTGCCAATCTTTATCAGAATCGCGAGCTAACAAATACCTTTACCACCGGTGAAGTGGCACGTTGCAGTATGCCGCACTGTAATAGCCAGCGGGGAGAGAGTAATCTCAAATTCTATAACTTTCCTAAAGATATTAAAAGTTTAATCAAATGGTGCCAGAACGCCCGCCTGCCTGTCCAGGCCAAGGAGCCGCGTCACTTTTGTAGCCGTCACTTTGAGGAACGTTGCATTGGAAAATTTCGTTTGAAACCCTGGGCAGTGCCCACATTACATCTGGGTGGTGCACAATATGGAAAAATCCATGACAATCCGAAAAATTTGTATGTGGAGGAGAAGCGTTGTTGCCTTAACTTTTGTCGCCGCAGTCGCTCAACGGATTTCAATATGTCGCTCTATCGTTTCCCAAGGAATGAGGTATTATTGCGACGCTGGTGCTATAATCTGCGACTGGATCCGGGTGTTTATCGGGGCAAGAATCATAAAATATGCAGTGCTCACTTTATTAAAGAGGCGTTGGGTTTAAGGAAACTTTCCCCAGGTGCTGTTCCTACACTTCATTTGGGGTATCCTGGCATGGGTGGTGCCAATTCTTTATCCGGAGGAATGAATGTTAGCGATAGCATGGACATTTGTTGTGTTCCAAGCTGCGAGAGTAAGCGGCATAACAGCGAAAATATCACATTCCATACGATACCCAGAAGGCCCGAGCAGATGAGGAAATGGTGTCACAATTTGAAAATACCAGAGGATAAAATGCACAAAGGGATGCGGATATGTAGTCTTCATTTCGAACCTTACTGCATTGGAGGCTGCATGCGTCCATTTGCAGTGCCAACACTTCATTTGGGACATGATGACAAGGATATACATCGTAATCCGGATGTGATTAAGAAATTAAACATAAGGGAAACATGTTGTGTGGCAGTCTGTAAAAGGAATCGTGATCGTGATCATGCCAATCTACATCGATTCCCTAGCAATGTGGCCCTATTAACCAAATGGTGTGCCAATCTGCAAAGACCCGTGCCGGATGGCAGTAAACTCTTTAATGATGCCATATGTGAAGTACATTTCGAAGATCGTTGTTTGCGCAATAAGAGATTGGAAAAATGGGCAGTGCCCACCTTGATGTTGGGTCATGAAGATATTGCCTATCAGTTGCCCACATCCGAGCAAGTGGCCGAGTTTTATGCACGTCCAAATGCACCGAATAATGGTGAGGAGCAGGGCGAATGTTGTGTGGAAAGCTGTAAACGTAATCCGAGTGTGGATGATATTAAACTATACCGTCCACCCGAAGAGTCCGATGTATTAGCCAAATGGGCCCACAATCTTGAATTGGATGTCGCCGAGTTGCCCAATATGAGAATATGCAATCTACATTTCGAATCCCATTGCATTGGCAAACGGATGAGACCTTGGGCCATACCAACATTAAACCTGTCTTCTAATATAGAGACTCTCTTTGAGAATCCAGAGCACTCGATGTTGTACAAGAGGCGAACAAAGCGTGATCCAAATCGTGATACATCCCTAGGGGCAACGAAACCTACTTGGGTCCCCAGATGTTGTTTGCCACATTGCCGCAAAGTCCGAGCTCTGCACAATGTTCAGCTCTATCGATTCCCCAAACTGAATCGTTCCACATTGGCTAAATGGGCACACAATCTACAAGTGCCAATGGTGGGCAGTGCTCAAAGGAGACTTTGTTCCGCCCATTTCGAACCTCATGTTTTGAGTAAGAAATGTCCCGTACCCTTGGCTGTACCCACTCTCGATTTGAATGCTCCGCCAGGTTATAAAATCTATCAAAATCCAGCTAAACTTAAAGCCAGCAAATTGTGCCTGCAAAGAGTTTGCATTGTGGAGAGTTGCCGGCGCACCAGGGCGCAAGGAGTTCAACTCTTCCGTTTGCCTCATAGTCCTACCCAGTTAAGAAAATGGATGCACAATATTAAGACACGTCCACGCGCAGCTACAAGAACCCAGTATCGTATATGTTCTATACACTTTGAATCGCATTCGTTTAATGGCAAGAGATTAAGTGCTGGAGCCATTCCCACATTGGAATTGGGACATGACGATGACGATATCTATCCAAATGAGGCGCAAGCTTTTGTCGATGAGCATTGTGTGGTCGAGAGTTGTGAATCATCAAAGGATCAACCAGATGTACGCCTCTTCCGTTTCCCCACCGAAGATGATGATCTTCTATGGAAATGGTGCAACAATCTCAAAATGAATCCAGTAGACTGTGTGGGTGTGCGGATTTGTAATAAACATTTTGAAACTGATTGCATTGGTCCCAAACATTTATTCAAATGGGCCATACCCACAATGGAGCTTGGACACGATGATGGTGAAATCGAACTGATACCCAATCCCAAGCCGGAGGAGCGTTATGTTGATCCAGTTTTTAAGTGTTGTGTACCGACTTGCGGCAAGACAAGGAAATTCGATGAGGTACAAATGAATAGTTTCCCCAAAGATCCAATGCTCTTTCAACGTTGGCGTCATAATCTCCGCTTGGATCACCTCAATTTTAAGGAGCGAGAACGCTACAAGATATGCAATGATCATTTTGAGGATGTTTGCATTGGAAAGACTCGTTTAAATATAGGTTCCATACCCACTCTCCAGTTGGGTCACGATGAGACGGAGGATCTGTATCAAGTTAATCCTGCGGAATTGCAAAGTAATCTATTTGGTCGACCACGTAGACTACATGGCGGTGTTGACATTAAGCTAGAATATCCGGATGAATCCGAATCGGAATCAGGATTGCAGGATGTTAAACCAAATATCTATGAGATGACTGACATAAATACCAGGCAGGTGAAAATTAAGAAAACTCTCGCTGATCTAAAGTGTTGTGTACGCAGCTGTGGTCGTAGTCGCCTTGAGCATGGTGCTCGCCTCTTCCCCTTTCCCAATGGCAAGCAACAGAATCTGAAATGGCGGCACAATCTGCAACTTGAACCAGAAGAAGTGGACAAAATGACACGCGTTTGCAGTGCGCATTTTAATCGCCGTTGCATAGATGGAAAACATCTGCGAGGTTGGGCGATACCCACACAGCAATTGGGTCATCATAACGAACAGTCTATCTATGAGAATCCCAAGAATATACCTGGCTTCTTTACACCAACATGTGCCCTAAGCCACTGTAGACAGAGGCGGAGTATTGACAATGATTTACGCACCTATCGTTATCCGAGAAGTGAAGATCTATTGGAGAAATGGCGTGCCAATTTACGTTTGGCTCCTGATCAATGCCGTGGACGGATTTGTGCTGATCACTTTGAGCCTCTGGTTAGGGGTAAATTGAAATTAAAGACAGGAGCTGTTCCCACACTGAAATTGGGACATGATGAGGAATTAGTTTATGATAATGAAGCAATCAAAGCTAATCTAGTGGATGAGGAAGATGTCAGTTTAGAATCACCACCGCACGTAATACCTAAAAAAGAAATTTTGGAGGAGGACGAAAATGATGAGGATGAACCCGAAGTGCATGAGGAAGAAGAGGATGAGGATGAAGAGAACGATCTAGCAGAAGAGGATTCACATTCCGATTACTTTGATCCCCTTGAATTGGTAGAAACATATGCCGATGATACAGTACCGGAAGATGAATATAACTCATCTGCTCACCAACTCCCAGCACCATCGTTGGCTGCTCCACCCCTTGTTAGGCGTGAGAAACCGGCGAATAATGTAACTCCTATTTGTTGTCTAAAGCATTGTCGTAAGGAACGTACACCTACCCATCACTTGAGTACATTTGGCTTTCCCAAAGATCATCAGCTTTTATTGAAATGGTGTGCTAATCTTCATCTGGAACCTATGGATTGTGTGGGGCGTGTTTGTATTGAGCATTTCGAAGCGGAAATGTTGGGGACACGCAAACTTAAACAGAATGCTGTTCCCACTGTTAATGTGGGACATCAGATGCCCCTAGCCTATACCTGCAATGGTCAGGAGCGTAGCGATGAGAAGGAGGATAATTCGGTTTTTCGGCTTTGGAGCCTGAAACATTGTCGCAAGAGGAAACTAACGGAACCACCAGACATTCACCCAAAAGTGGAGAAGAACGAGATAATGGATCAGATGGGTCTAGTGAAAACAGTCGACTTACAAAGATTTCCAAGAGATTATAATTTATTAAGAAAATGGTTACACAATCTAAAATTGAACCTTGACGAGGATTTGGATCCATCACAATTGCGTTTGTGTTTGAAGCACTTTGAGGGTCATTTGATACGAAATGGTCATCTTTCTAAAGATGCATTGCCTACTCTCGAATTGGGACATCAGGATAAGAATATTTATAGAGCGACTGTGGCAACTTCTGGTGGTTGCCTGGTGGCAAGTTGTCCATGTGCTCGTCTAAATCTTTATAGAAGTTATGCTCTACCCAAGGAACCTCATATTAAAGCGGCCTGGTTAAATTACCTAAAGCTGCCGGCAATTACCCATGGACAATTGTGCGTAATGCATTTTATGCAATTATATGAAGATATTCCGTTTAAGGAATTGCGACATATCTATGAATCCATTGCTAATTCCACACAAGCCTTGAAATTGCGTTGTGCCGTACCCGGCTGTCGGTCAAAGTACACGGATAATATACATTTAACAAAATTACCGCAAAATCAAAGTTTACTCGCCAAATGGTTGCACAACACCATGATGACCTATGATCCCAGCAAACATTCAATTTATCGCATTTGCCTGCTGCATTTCGAGTCGCACGCATTGGGACCGGCATGCCCAAAGCCATGGGCAATACCCACATTGGAATTGAATTATCAGGATGACATTTACTTTAATCCCACAAAAGAGGAATTGACTAATCAAAGAGAATATCAACGTGTTAATATTCCACTTCAAATTAAAACCGAATTCACTTTACCTTTGAAAATAAAAACAGAATTAACCGCATTGAGCAGTCCCAGTGTTGGTTCAACACCAAGTCCAAGGGGCAAAGTTAGAATATGTTGCATACAATCATGTTTGCAACAGGCAAGTTCCCAATTGCGTCTCTATCGTTTCCCCAATACAGAATCCGCTCTACTCAAGTGGCTGGTGAATACGCAACAGCAACCCCGTCTGGTTGATCCCATGCAGTTGTATGTGTGTCAATCCCATTTCGAACTTGAAGCGATCTGTAAGAAACAATTAAGAAGTTGGGCTGTACCCACGTTAAATTTGGGACACGATGGTCACATAATTCCGAATGCCAGGCATAATGGAAATATTGCCGATAGCCAAGAAACGGAACAGGCAATGGAATTCATTAGAGAAAACTATTGTTCCGTTTTGAGTTGCTTTCAACCAAAGAGTGAGGCTTTGCGTTTGCATCCCTATCCCAAGGACATGCCTACCATAAGAAAATGGGCAGCCAATTGTAAACATCGTTCCATGCAGGCCAGCAGTCATGGATTCCAGGTTTGTCAATTGCATTTTGAGTCCGATTGCTTTAATCCAGACACTGGTGATTTACGTGATGGAGCTGTGCCCACTCTGGATCTAACAGTGAGTCGACTTAGCAACGAGTTGCGTTGTTTGGTGCCTGGCTGCATCAAGGATGAGACTGTACCAAGATGTCGTTATTATAAGTTACCAAAGCGGTCAGGTTTGCTCGGTGAATGGTGCACCAATCTCGCTTTGGATCCAGCTGGACTGCCACAAGGTGTTGATCATCATGTCTGTGAACGTCACTTTGAATCTCGCTGCTTTAACATACACAAACAATTGCGTACAGGATCGCGCCCGACATTAAATTTGGGTCACAATGAAAATGTCACGTTGCTACCAAATCCGGAGACATTCAGTGATGAGATTGACGATGCTTGTGTTTGTTCAGTGCCAAATTGTGGTCAATCCAAGTTAACGGATGAATCGATTCAATTAAATATTTTTCCCAGAATGCGGAAGATTGCTGAGAAATGGTTGTATAATTTGCATCTACCATTCACTGGAAAGGAGCAACTGGCCAAGTTGCGTGTTTGCCAAAGGCATTTCGATCCATCTTGTTTTGAAAATGGACAATTGCGTCAGGGATCTATGCCCACATTGGAGTTAGGTCATGAATTTGACGATATTTATCAAACGGATGAGCAGACTCTGGGCAAATATCGAAAGTATCATAAAACGGCGCCTGGATTACGAGTATCGGGACACGACTGTTGTTATCCTCAATGTACCCAACAGCAAAAGAATTACCAACGAATGGTCTACGATCTGCCCAAAGAAGAGAAACTGCGTCAAAAATGGCTACAGCATTTGGAAATTGATGAGAAAGAAAGAGAGAAACCATTGAGATTATGCCCACTCCATTATATATTCCTATACGATTATAGTGTAAAGAACTTTGAGGAACATGTTCCGAATGAACTACTCGAAAGTAATTATGAAGATGCAAGGAATGGTTCGAGAATCCGGCTTATTAGTTGCGCTGTGCGAGGATGTGGAACGCTTCAGCCACGTGATGGCGGCAGATTGCATGGTCTGCCAACGAATCCAGAGATCTTTCAGATGTGGTTAGACAACACAGAATTGGTCATATATGAACCGCAGCGTTATATGATCAAAGTGTGTAGCAAACACTTTGAATCTATATGTTTTACCGATATTCGTAAACTGAAATGTTGGAGTGTGCCGACACTTCATTTACCCGGTGAGGTAGTGCATCAAAATCCAACCGAGGAGCAATGGCAAAAGATAAATGAAAGATTAGCTCTACCAGTTGCTCAGGCAGTGGAACCCTCCGATGATAATTCAATGCTAGAGCCAGTTGTAGTAATGGAAGAGGAGGACTCTGTCTGTTGTGTACCTAATTGTCAACGCTCCAAGCAGATGGATCAATCTATTCAGTTCACCACCTTCCCCAAAGTGAATTTGCTGGCCGAGAAGTGGATGCTTAACATGCGCCTAAAAGTAAACAAGGAACAATTGGCTAATCTTCGAGTATGTCATCGCCATTTTGATAAATCTTGTTGGGAAAATGGTCGATTACGAAGGGGAGTCATACCAACCTTGGAATTGGGACATGAGGATGGTGATATTTACCATAACACGGAAAACATACCTGATCCCTTCAGGCCTCGCAAGCAAACCAAGAGGTCTAGTGCTCAGGGATGTTGTTTCCCTCAGTGTGTGGAACTTTTAAAGAGTTTTCAGCGTACGGTCTATGATATGCCAAGAGAGGCAAAATTACGACAAAGTTGGTTACATTATATGGAATTGACGGAATCAGAGCAGCCCTTAAAACTGTGTCCACTCCATTATATTATCCTGTATGATCACAGTGCGAAAAACTTTGAGGAACATGCTCCGGAAAAGTTGCTTGATTTTAACTATAAATGTGCAAGAAATTGTGTAAGAATACGGATTATTAGCTGTTCGGTGGAAGGATGTAATACACTACAGCCACGTGATGGTGGTCGAATGCATGGTCTACCACCAAGATCAGATATACTCCAGATGTGGCTGGACAATACAAGATTGGTATTTCATGAGCATCAGCGTTATATGCTTAAAGTGTGCAGCAAACATTTTGAGCCAAAATGTTTTACGGATATACGCAAGTTAAAGAGCTGGAGTATTCCAACGCTACACCTGCCCAATGAGGCAGTGCATCAAAATCTTACCGAAAGAGAATGGCAGCAAATGAATGAGAGACTTGCCGAGTCCATCAATCGGGATGAGGAAAGTTTTGATGATAATTCAATGCTCGAACCGATTGTTATGATGGAACATGCTGAATCTGAAGCAGAAATGGATGAGCAGGAAGAAACTATGCCTCGACAGAAATCGGTGACTCATGATAATTTACAGCAGGATTCCCACGATGGTGGTGTTAATAATGAGGATCATGATGAAATGCAGGCATTGGAAGTACTACTCGAAGTGGGTCACGTTGAAAAATGTTCCAGTTATGAGAAAATGGACAATAAATCCCATTTGCCTTATTCCGAGTCAAGGCCATTGAGTCCATCAATGCCATCTATGCCACCTGGTCCGCGCAGTGGTCATTATAATGCTCGTCACTGTAGTGTCCAGGGCTGTCAAATAACTGCCAATGATGTAGACGGTAATATCAAGCTGCACAAGTTCCCCACCTCGATTGATGCTACTGAAAAATGGATGCATAACACCCAAGTAGATGTGGATGAAAACTATTCCTGGCGTTATCGCATTTGCAGTTACCACTTTGAACAGGAATGCTTCAATGGGGCACGCATACGAAGGGGATCTATGCCCACATTACATTTGGGTCCACTCCGACCCAAGGATATTTTCATGAATGAGTTTCCGATATTGGATGCGGATGAAACAATTGAAGAGTCAATTCCTAAAATTAATGCCACTGAAGAAATTGAGGAACCCACCAGGCAGCAGCATACAAAGGGTGAGGTTACACAATTATGCCTGCCACGTCCTGCTCCGCCTCGGAAGTCTAGTAAATTCTGTCAGATTGAAGGCTGTTCGAATCATTTGACCAGTGAGAATATGACTTTGCACAAGTTTCCCCATTCATTGGAGATGTGTGCACGCTGGCAACACAATACCCAAGTGCCATTCGATCCTGAGTATCGTTGGCGCTATCGCATCTGCAGTATTCATTTTCATCCAGTGTGTTTGGTCAATATGAGATTATTGCATGGCAGTGTGCCAACTTTAAAATTGGGTCCTCGAGCGCCCTCTCAGCTGTTTGACAATGATTTCGATGCCATCAATATGAGATTGGATAAGAGATCCCACTTGGAACAGGGATGTAGTAAGATCAAGCAAGAGAGGGGACAACATCAGCAGCAATCGGAGGCGCTCTATCTAGAGCCAGAAATGGAAATGGAGGTGGATGAGGAGGAGCACCATGAGCAAGATCAATCGCACTCTATGACATCCTTTGAAAGCTGGAAGCATCAACTGCGACTACCAGCAGTTAAACAAGACAAGAGTCCCTACAATTCCATCAAACCTGGCTACAATAAATGCTCTTTAACGCATTGCCAGCGTCAAAGAACTCTGCACGGTGTCCACATATATAAATTTCCACGATCGAAACGCCATCAACAGCGATGGATGCACAATTTGCGCATACGCTATGATGAGAAGAAACCATGGAAATACATGATATGTAGTGTTCACTTCGAGCCAAATTGTATACGCCTAAGAAAACTGCGTCCATGGGCAGTGCCCACTTTGGAGTTGGGTTCAAATGTGACAGATCAGATTTATACCAATGAACAGTGCCAGGAAATGGCATCAGATGTGAGTGAAGAAGAGGAAAGTGGAGCGGAAGAAAGTGGACAAGAAGAAGATGAGGATGATGAAGTGGATGAGGATGAAGAGACTGGTGCAGATACTCAAATAAAACGGGAAAGGCGCTCCTGGGGTATGGCCGGAGGTCCTGGTGGACAAATGGTTCCTTGGAAAGTGAAACAATGCTGTCTACCCTATTGTCGCCGACCACGAGGAGATGGTATCAAGCTATTCCGATTGCCTGGCAATCCAACTTCCATAAAAAATTGGGAAAAGGCAACTGGCATGACATTTAAAGCATCACAGCGAAACACCCGCCTGATCTGTAGTCGTCACTTTGAGCCGGAGTTAATGGGTGTGCGGCGTTTAATGAGGAATGCCATACCCACGCGACATTTATATCATCAAAGGGAGAGTTACAGCCCAGAATTGGTGATACCCACAAACACGCCTACACCTATTGGTCCTAAATGTTGCATCCCTGATTGTCCACCACATGATGGATCGTCCCAACTTCATCGGTTTCCGAGTGATCCGCAACTGCTGCAGCAATGGTGTGAATCTCTGAAACTTACAGATTTCCAACGATATATCGGACAATACGTTTGTTCTAATCATCTTCCTGCCCAGGATTTAGCCTGCATTATTTGTGGTGTAGAGGATATGCAATTGCCGCTCCTTGATTTTCCCGAAAATCGAAATTATCGTGCCAAATGGTGTTATAATCTCAAAATCGATACAATACCCAAATGGGATAACTCTAAGCATATTTGCTCGAAACACTTTGAATCCTATTGCTTCAGTCAGCAAAATGGTGAATTGCATCCAGAGGCAGCTCCGACATTGCATTTAAATCACAATGACACGAATATATTCCTCAACGATTATGCCATGGAACAGCACTCTTTGATGAGGATTAAAGATGAGCCCTTCGACAACGATGAAATGTTGTTGGCTTAG
Protein Sequence: MATMEMPGAPPSSSSAGLHHKSNVAGTSSTLPATAALNSLLQQRQANADGSAMFAAAVSSTPHKGEVNVKLERSYSNSTSDSSFGMHESNYNNNNVYGSDNSIHGSGAVGGPQAHSSTLDDSEDALCCVPMCGVSKSTSPTLQFFTFPKDDKYLHQWLHNLKMFHIPASSYTTFRICSMHFPKRCINRYSLCYWAVPTFNLGHDDVANLYQNRELTNTFTTGEVARCSMPHCNSQRGESNLKFYNFPKDIKSLIKWCQNARLPVQAKEPRHFCSRHFEERCIGKFRLKPWAVPTLHLGGAQYGKIHDNPKNLYVEEKRCCLNFCRRSRSTDFNMSLYRFPRNEVLLRRWCYNLRLDPGVYRGKNHKICSAHFIKEALGLRKLSPGAVPTLHLGYPGMGGANSLSGGMNVSDSMDICCVPSCESKRHNSENITFHTIPRRPEQMRKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLHLGHDDKDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNVALLTKWCANLQRPVPDGSKLFNDAICEVHFEDRCLRNKRLEKWAVPTLMLGHEDIAYQLPTSEQVAEFYARPNAPNNGEEQGECCVESCKRNPSVDDIKLYRPPEESDVLAKWAHNLELDVAELPNMRICNLHFESHCIGKRMRPWAIPTLNLSSNIETLFENPEHSMLYKRRTKRDPNRDTSLGATKPTWVPRCCLPHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPMVGSAQRRLCSAHFEPHVLSKKCPVPLAVPTLDLNAPPGYKIYQNPAKLKASKLCLQRVCIVESCRRTRAQGVQLFRLPHSPTQLRKWMHNIKTRPRAATRTQYRICSIHFESHSFNGKRLSAGAIPTLELGHDDDDIYPNEAQAFVDEHCVVESCESSKDQPDVRLFRFPTEDDDLLWKWCNNLKMNPVDCVGVRICNKHFETDCIGPKHLFKWAIPTMELGHDDGEIELIPNPKPEERYVDPVFKCCVPTCGKTRKFDEVQMNSFPKDPMLFQRWRHNLRLDHLNFKERERYKICNDHFEDVCIGKTRLNIGSIPTLQLGHDETEDLYQVNPAELQSNLFGRPRRLHGGVDIKLEYPDESESESGLQDVKPNIYEMTDINTRQVKIKKTLADLKCCVRSCGRSRLEHGARLFPFPNGKQQNLKWRHNLQLEPEEVDKMTRVCSAHFNRRCIDGKHLRGWAIPTQQLGHHNEQSIYENPKNIPGFFTPTCALSHCRQRRSIDNDLRTYRYPRSEDLLEKWRANLRLAPDQCRGRICADHFEPLVRGKLKLKTGAVPTLKLGHDEELVYDNEAIKANLVDEEDVSLESPPHVIPKKEILEEDENDEDEPEVHEEEEDEDEENDLAEEDSHSDYFDPLELVETYADDTVPEDEYNSSAHQLPAPSLAAPPLVRREKPANNVTPICCLKHCRKERTPTHHLSTFGFPKDHQLLLKWCANLHLEPMDCVGRVCIEHFEAEMLGTRKLKQNAVPTVNVGHQMPLAYTCNGQERSDEKEDNSVFRLWSLKHCRKRKLTEPPDIHPKVEKNEIMDQMGLVKTVDLQRFPRDYNLLRKWLHNLKLNLDEDLDPSQLRLCLKHFEGHLIRNGHLSKDALPTLELGHQDKNIYRATVATSGGCLVASCPCARLNLYRSYALPKEPHIKAAWLNYLKLPAITHGQLCVMHFMQLYEDIPFKELRHIYESIANSTQALKLRCAVPGCRSKYTDNIHLTKLPQNQSLLAKWLHNTMMTYDPSKHSIYRICLLHFESHALGPACPKPWAIPTLELNYQDDIYFNPTKEELTNQREYQRVNIPLQIKTEFTLPLKIKTELTALSSPSVGSTPSPRGKVRICCIQSCLQQASSQLRLYRFPNTESALLKWLVNTQQQPRLVDPMQLYVCQSHFELEAICKKQLRSWAVPTLNLGHDGHIIPNARHNGNIADSQETEQAMEFIRENYCSVLSCFQPKSEALRLHPYPKDMPTIRKWAANCKHRSMQASSHGFQVCQLHFESDCFNPDTGDLRDGAVPTLDLTVSRLSNELRCLVPGCIKDETVPRCRYYKLPKRSGLLGEWCTNLALDPAGLPQGVDHHVCERHFESRCFNIHKQLRTGSRPTLNLGHNENVTLLPNPETFSDEIDDACVCSVPNCGQSKLTDESIQLNIFPRMRKIAEKWLYNLHLPFTGKEQLAKLRVCQRHFDPSCFENGQLRQGSMPTLELGHEFDDIYQTDEQTLGKYRKYHKTAPGLRVSGHDCCYPQCTQQQKNYQRMVYDLPKEEKLRQKWLQHLEIDEKEREKPLRLCPLHYIFLYDYSVKNFEEHVPNELLESNYEDARNGSRIRLISCAVRGCGTLQPRDGGRLHGLPTNPEIFQMWLDNTELVIYEPQRYMIKVCSKHFESICFTDIRKLKCWSVPTLHLPGEVVHQNPTEEQWQKINERLALPVAQAVEPSDDNSMLEPVVVMEEEDSVCCVPNCQRSKQMDQSIQFTTFPKVNLLAEKWMLNMRLKVNKEQLANLRVCHRHFDKSCWENGRLRRGVIPTLELGHEDGDIYHNTENIPDPFRPRKQTKRSSAQGCCFPQCVELLKSFQRTVYDMPREAKLRQSWLHYMELTESEQPLKLCPLHYIILYDHSAKNFEEHAPEKLLDFNYKCARNCVRIRIISCSVEGCNTLQPRDGGRMHGLPPRSDILQMWLDNTRLVFHEHQRYMLKVCSKHFEPKCFTDIRKLKSWSIPTLHLPNEAVHQNLTEREWQQMNERLAESINRDEESFDDNSMLEPIVMMEHAESEAEMDEQEETMPRQKSVTHDNLQQDSHDGGVNNEDHDEMQALEVLLEVGHVEKCSSYEKMDNKSHLPYSESRPLSPSMPSMPPGPRSGHYNARHCSVQGCQITANDVDGNIKLHKFPTSIDATEKWMHNTQVDVDENYSWRYRICSYHFEQECFNGARIRRGSMPTLHLGPLRPKDIFMNEFPILDADETIEESIPKINATEEIEEPTRQQHTKGEVTQLCLPRPAPPRKSSKFCQIEGCSNHLTSENMTLHKFPHSLEMCARWQHNTQVPFDPEYRWRYRICSIHFHPVCLVNMRLLHGSVPTLKLGPRAPSQLFDNDFDAINMRLDKRSHLEQGCSKIKQERGQHQQQSEALYLEPEMEMEVDEEEHHEQDQSHSMTSFESWKHQLRLPAVKQDKSPYNSIKPGYNKCSLTHCQRQRTLHGVHIYKFPRSKRHQQRWMHNLRIRYDEKKPWKYMICSVHFEPNCIRLRKLRPWAVPTLELGSNVTDQIYTNEQCQEMASDVSEEEESGAEESGQEEDEDDEVDEDEETGADTQIKRERRSWGMAGGPGGQMVPWKVKQCCLPYCRRPRGDGIKLFRLPGNPTSIKNWEKATGMTFKASQRNTRLICSRHFEPELMGVRRLMRNAIPTRHLYHQRESYSPELVIPTNTPTPIGPKCCIPDCPPHDGSSQLHRFPSDPQLLQQWCESLKLTDFQRYIGQYVCSNHLPAQDLACIICGVEDMQLPLLDFPENRNYRAKWCYNLKIDTIPKWDNSKHICSKHFESYCFSQQNGELHPEAAPTLHLNHNDTNIFLNDYAMEQHSLMRIKDEPFDNDEMLLA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00604131;
90% Identity: -
80% Identity: -