Basic Information

Insect: Drosophila equinoxialis
Gene Symbol: -
Assembly: GCA_018150345.1
Location: JAECWI010000442.1:173056-188391[+]

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 32 6 1.9e+04 -3.7 4.4 39 62 288 314 264 330 0.65

2 32 2.7e-15 8.6e-12 45.7 4.4 1 86 506 578 506 579 0.85

3 32 7.6e-15 2.4e-11 44.3 5.2 1 87 606 675 606 675 0.83

4 32 1.5e-15 4.6e-12 46.6 0.5 1 87 698 770 698 770 0.84

5 32 6.7e-16 2.1e-12 47.7 5.3 1 87 821 891 821 891 0.82

6 32 3.5e-15 1.1e-11 45.4 3.2 1 86 915 986 915 987 0.81

7 32 1.4e-12 4.4e-09 37.1 0.5 1 87 1022 1090 1022 1090 0.80

8 32 5.9e-11 1.9e-07 31.8 1.6 1 86 1132 1201 1132 1202 0.77

9 32 1.5e-16 4.7e-13 49.8 0.4 1 86 1229 1298 1229 1299 0.83

10 32 1.1e-12 3.5e-09 37.4 2.1 1 86 1320 1389 1320 1390 0.80

11 32 3.6e-15 1.2e-11 45.3 1.3 1 87 1417 1489 1417 1489 0.85

12 32 2e-13 6.5e-10 39.7 1.4 1 85 1566 1634 1566 1636 0.83

13 32 3e-12 9.6e-09 36.0 0.1 1 86 1660 1728 1660 1729 0.82

14 32 3.9e-14 1.2e-10 42.0 2.3 1 87 1857 1926 1857 1926 0.81

15 32 1.8e-10 5.8e-07 30.3 0.1 1 87 2029 2096 2029 2096 0.82

16 32 0.00016 0.52 11.2 0.0 1 59 2115 2163 2115 2186 0.77

17 32 3.8e-13 1.2e-09 38.9 0.2 1 86 2192 2261 2192 2262 0.84

18 32 3.1e-14 1e-10 42.3 1.1 1 87 2324 2394 2324 2394 0.83

19 32 2.2e-11 7e-08 33.2 0.3 1 86 2429 2500 2429 2501 0.79

20 32 1.3e-13 4.1e-10 40.4 0.3 1 87 2513 2586 2513 2586 0.81

21 32 8.7e-14 2.8e-10 40.9 0.5 1 86 2614 2686 2614 2687 0.80

22 32 2.2e-08 6.9e-05 23.6 0.5 1 58 2723 2773 2723 2796 0.80

23 32 1.3e-13 4.1e-10 40.4 0.2 1 87 2811 2883 2811 2883 0.83

24 32 3.2e-15 1e-11 45.5 3.0 1 86 2935 3007 2935 3008 0.72

25 32 7.9e-06 0.025 15.4 0.2 1 58 3040 3089 3040 3104 0.81

26 32 1.1e-13 3.5e-10 40.6 0.5 1 87 3127 3199 3127 3199 0.82

27 32 1.5e-15 4.6e-12 46.6 0.4 1 87 3355 3428 3355 3428 0.84

28 32 3.9e-12 1.2e-08 35.6 3.3 1 85 3495 3564 3495 3566 0.80

29 32 1.4e-15 4.5e-12 46.6 5.6 1 86 3673 3743 3673 3744 0.85

30 32 1.2e-13 4e-10 40.4 0.2 1 86 3828 3897 3828 3898 0.85

31 32 1.8e-11 5.6e-08 33.5 0.1 1 58 3924 3974 3924 3984 0.82

32 32 3.1e-11 9.8e-08 32.7 0.7 6 87 3987 4053 3980 4053 0.74

#	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	32	6	1.9e+04	-3.7	4.4	39	62	288	314	264	330	0.65
2	32	2.7e-15	8.6e-12	45.7	4.4	1	86	506	578	506	579	0.85
3	32	7.6e-15	2.4e-11	44.3	5.2	1	87	606	675	606	675	0.83
4	32	1.5e-15	4.6e-12	46.6	0.5	1	87	698	770	698	770	0.84
5	32	6.7e-16	2.1e-12	47.7	5.3	1	87	821	891	821	891	0.82
6	32	3.5e-15	1.1e-11	45.4	3.2	1	86	915	986	915	987	0.81
7	32	1.4e-12	4.4e-09	37.1	0.5	1	87	1022	1090	1022	1090	0.80
8	32	5.9e-11	1.9e-07	31.8	1.6	1	86	1132	1201	1132	1202	0.77
9	32	1.5e-16	4.7e-13	49.8	0.4	1	86	1229	1298	1229	1299	0.83
10	32	1.1e-12	3.5e-09	37.4	2.1	1	86	1320	1389	1320	1390	0.80
11	32	3.6e-15	1.2e-11	45.3	1.3	1	87	1417	1489	1417	1489	0.85
12	32	2e-13	6.5e-10	39.7	1.4	1	85	1566	1634	1566	1636	0.83
13	32	3e-12	9.6e-09	36.0	0.1	1	86	1660	1728	1660	1729	0.82
14	32	3.9e-14	1.2e-10	42.0	2.3	1	87	1857	1926	1857	1926	0.81
15	32	1.8e-10	5.8e-07	30.3	0.1	1	87	2029	2096	2029	2096	0.82
16	32	0.00016	0.52	11.2	0.0	1	59	2115	2163	2115	2186	0.77
17	32	3.8e-13	1.2e-09	38.9	0.2	1	86	2192	2261	2192	2262	0.84
18	32	3.1e-14	1e-10	42.3	1.1	1	87	2324	2394	2324	2394	0.83
19	32	2.2e-11	7e-08	33.2	0.3	1	86	2429	2500	2429	2501	0.79
20	32	1.3e-13	4.1e-10	40.4	0.3	1	87	2513	2586	2513	2586	0.81
21	32	8.7e-14	2.8e-10	40.9	0.5	1	86	2614	2686	2614	2687	0.80
22	32	2.2e-08	6.9e-05	23.6	0.5	1	58	2723	2773	2723	2796	0.80
23	32	1.3e-13	4.1e-10	40.4	0.2	1	87	2811	2883	2811	2883	0.83
24	32	3.2e-15	1e-11	45.5	3.0	1	86	2935	3007	2935	3008	0.72
25	32	7.9e-06	0.025	15.4	0.2	1	58	3040	3089	3040	3104	0.81
26	32	1.1e-13	3.5e-10	40.6	0.5	1	87	3127	3199	3127	3199	0.82
27	32	1.5e-15	4.6e-12	46.6	0.4	1	87	3355	3428	3355	3428	0.84
28	32	3.9e-12	1.2e-08	35.6	3.3	1	85	3495	3564	3495	3566	0.80
29	32	1.4e-15	4.5e-12	46.6	5.6	1	86	3673	3743	3673	3744	0.85
30	32	1.2e-13	4e-10	40.4	0.2	1	86	3828	3897	3828	3898	0.85
31	32	1.8e-11	5.6e-08	33.5	0.1	1	58	3924	3974	3924	3984	0.82
32	32	3.1e-11	9.8e-08	32.7	0.7	6	87	3987	4053	3980	4053	0.74

Sequence Information

Coding Sequence: ATGTCACAACATAATCCACATTATCATCACCCCCATCCGNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNTTCCCTCTTCTCAGCAACAACAACAACAACATAAACAAATACAACAAAACCAATGGTATTCACATGTTGCTTCCACCTCTTCCACCACCCCCTACCCGCATCACTCATCATCAGCAGGCGCCTCCTCCTCCTCGGCGGTGGCGGGGGCAACAACTTCAGGCTCTAACAACAATCACATAATGAATGCCTATGGAACACATGGATATTATGGTGCCGCTGGCGGTGGCCTCAATGTCAATGCTGTGGGTGTCGCTGGTGGACATCATCCTCATCATTCCAATCCACATCATCATCATCATCATCATCATCACGGTATATATCCCTATATCAAAAGTGAACCCATGGAATATGGCCATAATACAATGGCTCCACCGCCAGCACCAAGCGGATCCACAGAAATGAGAATTAAATCGGAACCCATGGACGAACTTGCCTATAAATCGTCCAACTATATTGATGATAATACTCCATTTGCTGATTTTACTAAATACAATGAATTTAATGAAAATATGTTGAGTCCCAAAGTGGAAATGTCTGTAAAAAATGAATCTACACCATACAGCAAGAATTCGAATAATTATCCAAGACGTAAACTACAAACGGAACGTTCTTCAGAGAATTTGCCCATTTGTCAGCGATGCAAAGAAGTCTTCTTTAAGAAACAATCCTATCTACGTCATGTGGCCGAAAGTAATTGCAGCATTCATGAATATGAATTTAAATGCAACATTTGCCCCATGTCGTTTATGAGTGCCGAAGAATTGCAAAGACATAAACATTTGCATCGTACAGATAAATTCTTTTGTCATAAATATTGTGGTAAACATTTCGATACGATTGCGGAATGTGAATCCCATGAATATATGCAACATGAATATGATAGTTTTGTATGTAATATGTGTTCAATGACATTTGCCACACGAGAGCAGCTTTATACCCATTTGCCGCAACATAAATTCCAGCAACGTTACGATTGCCCCATTTGTCGTTTGTGGTATCAGACGGCCCTGGAGTTGCATGAGCATCTGCCCACAGCGCCGCCTCCATCAGTGGCAGCAGCTACAGGATCACACCACAAGACAAACGCCAACAGTTCATCCAGTTCCAGTTCAGCATTACCTGCCACGGCGGCATTGAGTTCACTGCTTCAACAGCGACAGGCAAATGCCGATGGAGCGGCTTTGTTTGCGGCCGCTGCCTCCTCCTCCAAGGGAGAGGTGAATGTTAAGTTGGAACGCAGCTATAGCAATTCGACAAGTGACTCTTCGTACGGAATGCACGACAACTCCAACACCAATTATAATAATAATAATAGCAGTAAAAATAATGCTTACGGCAGTGATAATTCCATACACGGGTCAGGAGCCATTGGTGGACCCCAAGCTCATTCCTCAACGCTGGATGACTCCGAGGACGCTCTGTGCTGTGTACCCATGTGCGGGGTAAGCAAAAGCACTAGTCCCACTCTCCAGTTCTTCACATTCCCCAAAGATGATAAATACCTGCATCAATGGCTACACAATTTAAAAATGTTTCATATACCCGCTTCGAGTTATACAAGTTTTCGGATATGTAGCATGCATTTTCCGAAACGCTGCATCAATCGGTATTCCTTATGCTATTGGGCAGTGCCCACATTCAATCTGGGACACGACGATGTGGCCAATTTATATCAGAATCGCGAACTGACGAATACCTTTACTACTGGCGAAGTGGCACGTTGCAGTATGCCACATTGCAATAGCCAGCGGGGTGAGAGCAATCTCAAGTTTTACAATTTCCCCAAAGATATCAAAAGTTTAATCAAATGGTGTCAAAATGCACGTCTGCCTGTTCAGGCCAAGGAGCCGCGGCATTTTTGCAGTCGTCACTTTGAAGAGCGTTGCATTGGTAAATTTCGTTTAAAACCATGGGCAGTACCCACATTGCATCTCGGTGGTGCACAATATGGCAAGATACATGACAATCCCAAGAATCTGTATGTGGAGGAAAAGCGTTGTTGCCTCAATTTTTGTCGCAGAAGTCGGTCGACGGATTTCAATATGTCGCTATATCGTTTCCCAAGGAATGAGGTCTTACTGCGACGCTGGTGCTATAATCTACGCCTCGATCCGGCAGTGTATCGTGGCAAGAATCATAAAATATGCAGTGCACATTTTATTAAAGAGGCATTGGGTTTGCGTAAATTATCACCAGGCGCTGTACCAACACTACATTTGGGACATAATGATACATTTAATATCTATGAGAATGAATTCTCAGCTTCTCATTATGTCGATCCGGATAATATGGGAAGCGGTGGATATTTAGGCATGGGTGGAAACTCTCTAACCGGTGGCATGAATGTCAGCGATAGCATGGACATTTGCTGTGTGCCAAGTTGTGAGAGTAAGCGTCATAATAGCGAGAACATCACATTCCATACGATACCTAGAAGACCTGAGCAAATGAGCAAGTGGTGTCATAATTTGAAAATCCCCGAAGACAAAATGCACAAGGGAATGCGTATATGTAGCCTACATTTCGAACCGTATTGCATTGGCGGTTGCATGCGTCCATTTGCAGTGCCCACGTTGCATTTGGGCCACGATGATACGGATATCCATCGAAATCCAGATGTGATTAAGAAGCTTAACATTCGGGAAACCTGCTGTGTGGCAGTTTGTAAAAGGAATCGGGACCGAGATCATGCAAATCTTCATCGTTTCCCCAGCAATGTGGCGCTCTTGACCAAATGGTGTGCCAATTTGCAAAGACCTGTGCCTGATGGCAGTAAACTGTTCAATGATGCCATTTGTGAAGTCCATTTCGAAGATCGTTGTTTGCGGAACAAGAGATTAGAGAAGTGGGCAGTGCCCACTCTGATGTTGGGTCATGAGGATATTGCCTATGAATTACCAACACCGGAGCAAGTGGCGGAGTTCTATGCGCGTCCACATGCTCCCAATAATGGCGAGGAGCAAGGAGAATGCTGTGTGGAAAGTTGTAAACGTAATCCCAGTGTGGATGACATTAAATTATATCGTCCACCTGAAGAATCCGATGTTCTGGCGAAATGGGCCCATAATCTGGAAATTGGTGTGGCCGAGTTACCCAATATGAGAATCTGTAATTTACATTTCGAATCGCACTGCATTGGCAAACGTATGAGACCTTGGGCCATACCAACATTGAATCTATCCTCGAACATTGAGAATCTCTATGAGAATCCAGAGCACTCGATGTTGTACAAGAGGAGAACAAGGCGAGATCCAAATCGAGATATATCATCGATGACGAAACCCACCTGGGTGCCCAGATGTTGTTTGCCACATTGCCGCAAGGTTCGAGCTCTGCACAATGTTCAGCTTTATCGTTTCCCCAAACTCAATCGTTCCACATTGGCCAAGTGGGCACACAATTTGCAAGTGCCCATGGTGGGTAGCGCCCAAAGGAGACTCTGTTCGGCGCATTTCGAACCTCATGTGCTGAGTAAAAAGTGTCCAGTGCCCTTGGCAGTGCCCACAATCGACTTGAATGCTCCGCCTGGATATAAAATCTATCAGAATCCAGCTAAACTAAAGGCCACCAAATTGTGCCTGCAGAGAGTTTGTATTGTGGAGAGTTGCCGACGCACCAGAGCTCAGGGAGTGCAGCTCTTCCGTTTGCCCCATAGCCCTACACAGTTAAGGAAATGGATGCATAACATCAAGACACGTCCGAGGGCAGCTACAAGGTCTCAATATCGCATCTGTTCGATACACTTTGAGTCGCATTCGTTTAATGGCAAGAGATTGAGTGCCGGAGCCATACCCACTCTAGAATTGGGTCACGACGATGACGATATCTACCCGAACGAGGCTCAAGCATTTGTCGATGAACACTGTGCGGTTGAGAGTTGTGAATCGTCGAAGGATCAACCCGATGTACGTCTCTTCCGTTTCCCGACCGAAGACGATGATTTATTATGGAAATGGTGTAATAATCTTAAAATGAATCCCGTCGATTGTGTGGGTGTACGCATTTGTAATAAGCACTTTGAAGTCGACTGCATTGGCCCGAAACATTTATTCAAATGGGCGATACCCACTCTAGAGCTGGGACACGATGATGCCCAAATTGAGCTCATCCCGAATCCAAAGCCGGAAGAGCGTTATGTGGATCCAGTGTTCAAATGTTGTGTACCGAGTTGTGGAAAAACCAGGAAATTCGATGAAGTGCAAATGAATAGTTTCCCCAAGGATCCGTTACTCTTCCAACGTTGGCGACACAATCTACGGCTGGAGCACTTAATCTTCAAGGAGCGCGATCGGTATAAGATCTGCAATGATCACTTTGAAGATGTTTGCATTGGCAAGACACGCCTGAATATTGGCTCCATACCGACTATTAATTTGGGTCACAACGAGACAGAAGATCTCTATCAAGTTGATCCAGCAGAACTGCAAAGTAATCTTTTTGGTCGTCCGCGAAGATTACACGGATCAGTCGATATAAAGTTAGAACCAATGGACGAGACCGAAATGCAGCAGGATGTAAAACCAAATATTGATGCCATGGCCGAAGCTACCGATATGAACACCAGGCAGGTGAAAATCAAGAAATCTCTTGCTGATCTTAAGTGTTGTGTGCGTAGCTGTGGACGCAGTCGCCTAGAGCATGGGGCTCGTCTATTTCCATTTCCCAGTGGCAAGCAGCAGCAACTTAAATGGCGGCACAACCTTCAACTTGAACCCGATGAAGTGGACAAAATGACACGGGTCTGCAGTGCCCATTTCAATCGTCGCTGCATTGATGGCAAGCAATTGCGTGGATGGGCTATGCCTACACAGCAATTGGGCCATCATCAGGAGCAGCCCATCTATGAGAATCCCAAGAATATACCGGGTTTCTTTACGCCGACATGTGCGCTCAGTCACTGCAGGAAACGGCGGAGTATTGATAATGATTTGCGCACCTATCGTTATCCCAGGAGTGAGGATCTATTGGAGAAATGGCGGGCTAATTTACATCTGTCTCCAGATCAATGTCGGGGACGGATTTGTGCTGATCACTTTGAACCTCTGGTTAGAGGCAAATTGAAATTGAAGACTGGAGCAGTGCCCACTCTTAAATTGGGTCACGATGAGGAATTGGTTTATGACAATGAAGCCATTAAGGCTAGCATGGCGGAGGAGGAAGATGGCAGCTTGGAATCTTCACCAAAAATAATACCGAAAAAAGAAATTTTCGAAGATGAAGACGATGAGGATGATCCTCATCAAGAAGGCGAGGTAGGAGAAGATGATGAGGAGGAAGACGCACCCGAAGATGCTGAGGAGCGTGAGGATTCACATTCCGATTACTTTGATCCATTGGAACTGGTTGAAACATATGCCGATGATCCACTACCAGACGATGAATTTACATCACCTGCTCCGCATCATCTACTTGCCCCGCCACATCCGTCATTGGGTGTTAGACGTGAGAAACCAGCAAATAATGTGACACCAATTTGTTGTCTCAGGCATTGCCGCAAGGAGCGAACACCCACCCATCAGTTAAGTACTTTTGGCTTTCCTAAAGATCATCAGCTTTTGCTTAAATGGTGTGCGAATCTTCACCTGGAACCCGTCGATTGTGTGGGACGTGTTTGCATTGAGCACTTCGAAGCGGAAATGTTGGGAACACGTAAACTAAAGCAGAATGCCGTTCCGACCATTAATGTGGGGCATCAGATGCCACTGCCCTACACATGCAACGGACAAGAGCGAAACANNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNNAGTCCAAGATCACTCGGATTTTCGGCTTTGGAGCCTGAAACATTGTCGCAAGAGGAAGCTAACGGAACCGCCGGATATTCGCCCAAAACTGGAGAAGAAGGAGGTGATTCCCATGATGATGATGAGTATGGGAGTGAGAGTGAAGAAAGAGAAGATGGAGGATGGGGAGGACCAGCAGCAGATGATGATGATGACGATGAATAAACCAAAGAAGTGTTGCCTTAGTCAATGTGGTAAAATGATGGGTTTGCAAAAATTCCCAAGAGATTTCCATTTGCTAAGAAAATGGTTGCACAACCTGAAATTAAATCTAAAGGAGGATTTGGATCCTGCACAACTTCGTCTATGTTTGGAGCACTTTGAGCCACATTTGGTTCGCAATGGCCAACTTGCCAGAGAGGCATTACCCACATTAAATTTGGGTCATAATGATAAAAATATTTATCAAATGACTATGGCTACTTCTGGTGGTTGCTTGGTGGCAAGTTGTCCGTGTGCTCGACTCAATCTATACAGAAGTTACGCCTTGCCACAGAATCCGCGTATCAGGGAGGCGTGGTTAACCTATTTAAAGCTGCCTCCAACTACCCAAGGACAATTGTGTGTTATGCACTTTATGCAGCTCTACGAGGATTTGCCATTTGAGGAGCTACGACCTATTTACGAGTCCATTGCGAATTCCACACAAGCGCTGAAATTACGTTGTGCCGTACCCGGATGTCATTCAAAGTATACGGATAATATACATTTGACGAAGCTGCCACAGAATCAAAATCTTCTCGAGAAATGGTTGCACAATACCATGATAAATTATGATCCTGGCAAGCATTCGATCTATCGTATATGCCTGCTGCATTTCGAACCGCATGCCTTGGGGCCAGCGTGTCCAAAGCCGTGGGCAGTGCCCACTTTGGAATTAAATCATCAGGATGACATTTACTTTAATCCAACGAAAGAGGAAATAATGCATCTTCCCTCGGAGACTCCTTTGCAAGTTAAAACCGAATTAACTCTGCCGTTGAGAATAAAAACTGAACTGGCCGCCATGAGCAGTCCCAGTCTTGGCTCGACACCTAGTCCCCGGGGTAAGGTGAGAATATGCTGTATCCAGTCGTGTCTGCAACAGGCCAATTCCCAATTGCGTCTCTATCGGTTTCCCAATACGGAGACGGCGCTGCTCAAGTGGCTAGTGAATACACAACAGCAGCCACGTCTGGTAGATCCACTGCAGTTGTATGTCTGTCAAACGCATTTCGAACCCGAAGCCATTTGTAAAAAACAATTGAGAAGTTGGGCTATTCCCACCTTGAATTTGGGACACGATGGTCATGTTATACCAAATGCCAGGCATAATGGAAACATTGCCGATAGCCAGGAGACGGAACAAGCTATGGAATTCATTAGAGCCAACTATTGTTCGGTACTCACATGTTTCCAGCCAAAGAGTGAGGCTCTCCGTTTACATCCCTATCCCAAAGATATGCCCACTATACGAAGATGGGCAGCCAATTGCAAGCATCGCTCCATGCAGGCCAGCAGTCATGGTTTCCAGGTGTGTCAATTGCATTTCGAAACGGATTGCTTTGATCCGGATACAGGAGACTTGCGTGATGGAGGTGTGCCCACTTTGGATCTAACAGTTAGTCGGGTTAGCTGCGAATTGCGTTGCCTGGTCGCTGGTTGCATTAAAGATGAATCTCTGCCGCGTCGTCGTTACCACAAGTTACCCAAGCGGCCAGCTCTTCTCGCTGAATGGTGTGTGAATCTTGGCCTAGATCCCGCTACCCTGCCGCAAAATATTGAACACAATGTGTGTGAGCGACATTTTGAAACTCGTTGCTTCAATTCCGGAAAACAATTGAGACCTGGAGCACGACCTACATTGCATTTGGGTCACACGGAAGATATCAAACTGCTACCGAATCCGGAGATTTTCAGTGATGAACTCGACGAAGATGTGGACTGTGTCTGCTGTGTGCCAGAATGTGGTGGCTCCAGGGAATCGGATAAAACACTTCAATTTAGTAGTTTTCCTAAAATGCGAAAACTCTCCGAGAAGTGGATATATAATTTACATCTTCCATTCGTTGGCCGGGACCAATTGGCCAAACTTCGTGTGTGTCATAGGCACTTCGAGGCAACTTGTTTCGACAATGGACAGTTGCGACAGGTGGCCATGCCCACTTTGGAGTTGGGCCACCAGAATACGGACATTTATCAAACTGATGAACCGAATCTGGGCAAAAGTCGCAAATCGAATAAGGTGTTGCCTGGCGTAAGGATTACAGGACTTGATTGCTGTTATCCTCAATGCATACAATTGCAGAAAAATTACCAACGGGTGGTCCACGACTTGCCCAAAGAGGAGAAGCTACGTCGCAGATGGCTACAGCATTTGGAAATTGAAGAAACTGAGGAGAGACCCTTGAAATTGTGTCCTCTTCATTTCATCATTCTATATGATTATAGTCAGGATAATTTTGAGGAACACTCTGCCGATGATGTGCTCGAAAGAAACTATGAAGATGCCCGAAATGGTTCGAGAATTCGTCTTATTACCTGTGCAGTACGAGGATGTGGAACACTTCAGCCTCGTGATGGAGGCAGATTGCATGGTCTACCCACAAATCCGGAGGTCTTCCAAATGTGGTTGGAAAACACCGAATTAGTCATCTATGAGCCGCAACGTTATATGATCAAAGTGTGTAGCAAACACTTTGAACCACAATGCTTTACGGATATACGCAAATTGAAATGCTGGAGTGTGCCCACACTCCATCTGCCCGGTGAGGTAGTACACCAAAATCCCACCGAGGAGGAATGGCAAAAGTTGAACGAAAAATTGCCTCCTGTGCCCGCCATTCAGGCAAGGGGAGATTTCGAAGAGAGTTCAATGCTTGAACCAGTTGTCGTCATGGAAGAGAACTGTGTGTGTTGTGTTCCCGATTGTGGGCGATCCAAGCAGGCGGATGAGTCCATACAATTTACCAGTTTCCCCAAGAGGCAAATGCTATGCGAGAAATGGTTGTATAACTTCCGTTTGAAAATCCCCAATGATCAATGGGCCAATCTTCGAGTATGCCATCGTCACTTTGAGCCATCTTGTTTCGAAAACGGACGCATACGTATTCGATATGCCATGCCCACTTTGGAGCTGGGTCATGACAATAGCGATATCTATCACACAGAGGAACCAGATGTTCAGAAGATACGAAAGCATCCCAAGCAAAGAACCGGTGCCCAGGATTGCTGTTATCCTCAGTGTGTGGAGCTGTTGAAGAATTTCCAACGGATGGTCTATAATTTGCCAAAAGAGCCTACACTACGGCAAAGTTGGCTCGAGTATATGGAATTGAAGGAAACAGATCAACGATTAAAATTGTGCCCACTCCACTATATAATCCTGTATGATCATAGTTTGAAAAATTTTGAGGCACATGCTCCGGAAAAGTTGCTTGATTTCAACTATGAGAATGCAAGGAATTGCGTACGTATACGGATTATTAGCTGTTCGGTTCAAGGCTGTAATACACTCCAGCCACGCGATGGTGGCCGAATGCATGGACTGCCGCCTAGATCGGATATCCTGCAAATGTGGCTGGATAATACGAGATTGCCGTTCCATGAGCATCAGCGTTATATGCTCAAAGTGTGCAGCAAACACTTTGAGCCCAAATGTTTCACAGACATACGCAAATTGAAGAGCTGGAGTATACCGACTCTGCATCTACCTGATGAGCCGGTGCATCAGAATCTCACGGAAAAGGAATGGCAACAGATGAATGAGAGATTTGCCGAGGCCAACAATCGCGAGGCCGAAAGTTTCGATGAAAATTCAATGCTGGAACCCATTGTTATGATGGAACATGCCGAGTCTGATGGAGAAATACATGAGAATGAGGTGGAGGAGGAGCAAGGGACACAAACACTCCACACTGAATTGGTGGCCAATGAACAACATTTGCAAGAAGATTCCCAAGATATTGCGGATGAGGATGAAATGCAGGCATTGGAAGTGCTTCTCGAAGTGGGCCATGTTGAAAAATGTTCCAGCTATGAGAAAATGGACAACAACAAATCTCATTTATCTTACTCCGAGACGGGGCCATTGAGTCCGTCGTTAGGATCTGTGCCTCCAGGACAACGTGGTGGCGGTTATGGTGGCAGTGGTGGCCACTATAATGCCCGACACTGCAGTGTCCAAGGTTGTCAGATAACTGCCAACGATGTAGACGGCAATATCAAGCTACACAAGTTCCCCACCTCCATGGAAGCTACCCAGAAATGGATGCATAACACCCAAGTCGATGTGGATGAGAACTATTCATGGCGCTACCGCATTTGTAGCTATCATTTCGAACAGGATTGCTTCAATGGGGCGCGCATACGAAGAGGTTCAATGCCCACCTTGCATTTGGGCCCACTTCGACCAAAGGATATCTATAAGAATGAGTTCCCGCAAATGGATATGGATGAAATTGGGCCAACAGAAGCGGCTAACTCGACTTTACCTCCAGCAGATGAGCCTGAACGTGTTGTGCCCCATATCAAAGGACGTGTGACCCAGCTTTGCCTGCCACGTCCTGCTCCACCACGGAAATCCAGTAAGTTCTGTCAAATTGAAGGCTGTTCGAATCACTTGACCAGTGAGAATATGACTCTGCACAAGTTTCCTCATTCGCTGGAGATGTGTGCCCGTTGGCAGCATAATACCCAGGTGCCATTTGATCCGGAGTATCGGTGGCGTTACCGCATATGTAGCATCCACTTCCATCCGGCTTGTTTGGTCAATATGCGACTGGTACATGGCAGTGTGCCTACGCGAAAACTTGGTCCTCGAGCACCTGCCCAATTGTTTGATAATGATTTCGAGGCTATCAACATGCGTTTGGACAAGAGGTCGCAATTGGAGCAGGGTACTCGGATCAAGCAAGAAAAGCCACAGCAACAACACCATCAAGAGATGGAGGGATTATACTTAGAGCCAGAAATGGAAATGGAAGTAGATGAGGATGAGGACGACGAACAAGATCATGATCAATCACAGTCAATGACATCTTTTGGCAGCTGGCGGCATCAATTGCGTCTACCGGCCGTTAAGCAGGATAAGATTTCGTATAATCCCATCAAATCTGGTTACGACAAATGCTCTCTACCCCATTGTCAGCGTCAGAGATCCCAGCATGGTGTTCATATCTATAAATTCCCAAAATCGAAACGTCATCAGCAACGTTGGATGCACAATTTACGGATACGCTATGACGAGCGTAAGCCATGGAAATACATGATCTGTAGTGTACACTTTGAGCCGCATTGTATACGCTTGAGGAAACTACGACCATGGGCAGTGCCGACATTGGAATTGGGTAAGAATGTGGCAGATCAGATCTATACCAATGAACAGTGCCAAGAAATGGCCTCAGATGTGAGCGAGGAGGATGAAGAGGAGGAAAGTGGTCACGAAGAGAGCTTACAGGAAGATGACGACGATGAAGCCGATCCAGATGCCGACACTGCTGGTGTGGGGACGCACGTAAAGCGTGAAAGACGTCCTTGGGGATCGGGTACAGGTGCTGGTGGTGGTCAGATGGCTCCGTGGAAAGTCAAACAATGCTGTCTACCCTATTGCCGAAGACCGCGTGGAGATGGCATCAAACTCTTCCGCTTGCCCAGCAATCCCAATTCCATACGAAATTGGGAAAAGGCCACTGGGATGACATTTAAAGCCTCACAGCGTAATACTCGCCTGATTTGTAGTCGTCACTTTGAGCCCGAGTTGATGGGAGTTCGCCGCTTGATGCGGAATGCCATACCCACAAGGCATTTGTATCATCAGAGGGAGAGCTACAGCCCCGAATTGGTAATACCCACAGATACGCCCGTACCCATTGGTCCCACATGCTGCATTCCTGATTGTCCAGCGCAAGATGGATCGGCCCAACTCCATCGATTTCCCAGTGATCCGCAGCTGCTGCAGCAATGGTGCGCATCACTGAAACTAGTGGGGAATCCCCAGCAGTATAGCGGACAATATGTTTGCTCTAATCACCTACCCGCCCAGGAAGCAGCAGCATCAGGATGCATTGTCTGTGGCGCCGAGGATGGACAATTGCCGCTTCTTGATTTTCCCGAGAATCGCAATCATAGAGCCAAATGGTGTTATAATCTCAAAATTGATACCATACCCAAATGGGACAATTCCAAGCAAATATGCTCGAAACATTTCGAATCCTATTGCTTTAGCCAGGAAACCGGAGAACTGCATCCGGAGGCAGCCCCCACATTGCATTTAAATCACAATGATTCGAATATATTTCTCAATGATTATGCCGTAGATCAGCACTCCATGATGCGTATCAAGGATGAACCCTTGGACAATGATGAAATGTTATTGGCTTGA
Protein Sequence: MSQHNPHYHHPHPXXXXXXXXXXXXXXXXXXXPSSQQQQQQHKQIQQNQWYSHVASTSSTTPYPHHSSSAGASSSSAVAGATTSGSNNNHIMNAYGTHGYYGAAGGGLNVNAVGVAGGHHPHHSNPHHHHHHHHHGIYPYIKSEPMEYGHNTMAPPPAPSGSTEMRIKSEPMDELAYKSSNYIDDNTPFADFTKYNEFNENMLSPKVEMSVKNESTPYSKNSNNYPRRKLQTERSSENLPICQRCKEVFFKKQSYLRHVAESNCSIHEYEFKCNICPMSFMSAEELQRHKHLHRTDKFFCHKYCGKHFDTIAECESHEYMQHEYDSFVCNMCSMTFATREQLYTHLPQHKFQQRYDCPICRLWYQTALELHEHLPTAPPPSVAAATGSHHKTNANSSSSSSSALPATAALSSLLQQRQANADGAALFAAAASSSKGEVNVKLERSYSNSTSDSSYGMHDNSNTNYNNNNSSKNNAYGSDNSIHGSGAIGGPQAHSSTLDDSEDALCCVPMCGVSKSTSPTLQFFTFPKDDKYLHQWLHNLKMFHIPASSYTSFRICSMHFPKRCINRYSLCYWAVPTFNLGHDDVANLYQNRELTNTFTTGEVARCSMPHCNSQRGESNLKFYNFPKDIKSLIKWCQNARLPVQAKEPRHFCSRHFEERCIGKFRLKPWAVPTLHLGGAQYGKIHDNPKNLYVEEKRCCLNFCRRSRSTDFNMSLYRFPRNEVLLRRWCYNLRLDPAVYRGKNHKICSAHFIKEALGLRKLSPGAVPTLHLGHNDTFNIYENEFSASHYVDPDNMGSGGYLGMGGNSLTGGMNVSDSMDICCVPSCESKRHNSENITFHTIPRRPEQMSKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLHLGHDDTDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNVALLTKWCANLQRPVPDGSKLFNDAICEVHFEDRCLRNKRLEKWAVPTLMLGHEDIAYELPTPEQVAEFYARPHAPNNGEEQGECCVESCKRNPSVDDIKLYRPPEESDVLAKWAHNLEIGVAELPNMRICNLHFESHCIGKRMRPWAIPTLNLSSNIENLYENPEHSMLYKRRTRRDPNRDISSMTKPTWVPRCCLPHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPMVGSAQRRLCSAHFEPHVLSKKCPVPLAVPTIDLNAPPGYKIYQNPAKLKATKLCLQRVCIVESCRRTRAQGVQLFRLPHSPTQLRKWMHNIKTRPRAATRSQYRICSIHFESHSFNGKRLSAGAIPTLELGHDDDDIYPNEAQAFVDEHCAVESCESSKDQPDVRLFRFPTEDDDLLWKWCNNLKMNPVDCVGVRICNKHFEVDCIGPKHLFKWAIPTLELGHDDAQIELIPNPKPEERYVDPVFKCCVPSCGKTRKFDEVQMNSFPKDPLLFQRWRHNLRLEHLIFKERDRYKICNDHFEDVCIGKTRLNIGSIPTINLGHNETEDLYQVDPAELQSNLFGRPRRLHGSVDIKLEPMDETEMQQDVKPNIDAMAEATDMNTRQVKIKKSLADLKCCVRSCGRSRLEHGARLFPFPSGKQQQLKWRHNLQLEPDEVDKMTRVCSAHFNRRCIDGKQLRGWAMPTQQLGHHQEQPIYENPKNIPGFFTPTCALSHCRKRRSIDNDLRTYRYPRSEDLLEKWRANLHLSPDQCRGRICADHFEPLVRGKLKLKTGAVPTLKLGHDEELVYDNEAIKASMAEEEDGSLESSPKIIPKKEIFEDEDDEDDPHQEGEVGEDDEEEDAPEDAEEREDSHSDYFDPLELVETYADDPLPDDEFTSPAPHHLLAPPHPSLGVRREKPANNVTPICCLRHCRKERTPTHQLSTFGFPKDHQLLLKWCANLHLEPVDCVGRVCIEHFEAEMLGTRKLKQNAVPTINVGHQMPLPYTCNGQERNXXXXXXXXXXXXXXVQDHSDFRLWSLKHCRKRKLTEPPDIRPKLEKKEVIPMMMMSMGVRVKKEKMEDGEDQQQMMMMTMNKPKKCCLSQCGKMMGLQKFPRDFHLLRKWLHNLKLNLKEDLDPAQLRLCLEHFEPHLVRNGQLAREALPTLNLGHNDKNIYQMTMATSGGCLVASCPCARLNLYRSYALPQNPRIREAWLTYLKLPPTTQGQLCVMHFMQLYEDLPFEELRPIYESIANSTQALKLRCAVPGCHSKYTDNIHLTKLPQNQNLLEKWLHNTMINYDPGKHSIYRICLLHFEPHALGPACPKPWAVPTLELNHQDDIYFNPTKEEIMHLPSETPLQVKTELTLPLRIKTELAAMSSPSLGSTPSPRGKVRICCIQSCLQQANSQLRLYRFPNTETALLKWLVNTQQQPRLVDPLQLYVCQTHFEPEAICKKQLRSWAIPTLNLGHDGHVIPNARHNGNIADSQETEQAMEFIRANYCSVLTCFQPKSEALRLHPYPKDMPTIRRWAANCKHRSMQASSHGFQVCQLHFETDCFDPDTGDLRDGGVPTLDLTVSRVSCELRCLVAGCIKDESLPRRRYHKLPKRPALLAEWCVNLGLDPATLPQNIEHNVCERHFETRCFNSGKQLRPGARPTLHLGHTEDIKLLPNPEIFSDELDEDVDCVCCVPECGGSRESDKTLQFSSFPKMRKLSEKWIYNLHLPFVGRDQLAKLRVCHRHFEATCFDNGQLRQVAMPTLELGHQNTDIYQTDEPNLGKSRKSNKVLPGVRITGLDCCYPQCIQLQKNYQRVVHDLPKEEKLRRRWLQHLEIEETEERPLKLCPLHFIILYDYSQDNFEEHSADDVLERNYEDARNGSRIRLITCAVRGCGTLQPRDGGRLHGLPTNPEVFQMWLENTELVIYEPQRYMIKVCSKHFEPQCFTDIRKLKCWSVPTLHLPGEVVHQNPTEEEWQKLNEKLPPVPAIQARGDFEESSMLEPVVVMEENCVCCVPDCGRSKQADESIQFTSFPKRQMLCEKWLYNFRLKIPNDQWANLRVCHRHFEPSCFENGRIRIRYAMPTLELGHDNSDIYHTEEPDVQKIRKHPKQRTGAQDCCYPQCVELLKNFQRMVYNLPKEPTLRQSWLEYMELKETDQRLKLCPLHYIILYDHSLKNFEAHAPEKLLDFNYENARNCVRIRIISCSVQGCNTLQPRDGGRMHGLPPRSDILQMWLDNTRLPFHEHQRYMLKVCSKHFEPKCFTDIRKLKSWSIPTLHLPDEPVHQNLTEKEWQQMNERFAEANNREAESFDENSMLEPIVMMEHAESDGEIHENEVEEEQGTQTLHTELVANEQHLQEDSQDIADEDEMQALEVLLEVGHVEKCSSYEKMDNNKSHLSYSETGPLSPSLGSVPPGQRGGGYGGSGGHYNARHCSVQGCQITANDVDGNIKLHKFPTSMEATQKWMHNTQVDVDENYSWRYRICSYHFEQDCFNGARIRRGSMPTLHLGPLRPKDIYKNEFPQMDMDEIGPTEAANSTLPPADEPERVVPHIKGRVTQLCLPRPAPPRKSSKFCQIEGCSNHLTSENMTLHKFPHSLEMCARWQHNTQVPFDPEYRWRYRICSIHFHPACLVNMRLVHGSVPTRKLGPRAPAQLFDNDFEAINMRLDKRSQLEQGTRIKQEKPQQQHHQEMEGLYLEPEMEMEVDEDEDDEQDHDQSQSMTSFGSWRHQLRLPAVKQDKISYNPIKSGYDKCSLPHCQRQRSQHGVHIYKFPKSKRHQQRWMHNLRIRYDERKPWKYMICSVHFEPHCIRLRKLRPWAVPTLELGKNVADQIYTNEQCQEMASDVSEEDEEEESGHEESLQEDDDDEADPDADTAGVGTHVKRERRPWGSGTGAGGGQMAPWKVKQCCLPYCRRPRGDGIKLFRLPSNPNSIRNWEKATGMTFKASQRNTRLICSRHFEPELMGVRRLMRNAIPTRHLYHQRESYSPELVIPTDTPVPIGPTCCIPDCPAQDGSAQLHRFPSDPQLLQQWCASLKLVGNPQQYSGQYVCSNHLPAQEAAASGCIVCGAEDGQLPLLDFPENRNHRAKWCYNLKIDTIPKWDNSKQICSKHFESYCFSQETGELHPEAAPTLHLNHNDSNIFLNDYAVDQHSMMRIKDEPLDNDEMLLA

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00604131;
90% Identity: iTF_00523731;
80% Identity: -