Basic Information

Insect: Drosophila repletoides
Gene Symbol: -
Assembly: GCA_018150835.1
Location: JAECWQ010000221.1:1732594-1743148[+]

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 1e-15 1.2e-12 48.3 5.6 1 86 20 89 20 90 0.82

2 25 4.3e-15 5.3e-12 46.3 3.4 1 86 114 185 114 186 0.82

3 25 8.6e-13 1.1e-09 38.9 0.9 1 87 221 289 221 289 0.80

4 25 1.1e-10 1.4e-07 32.1 1.4 1 86 335 404 335 405 0.76

5 25 1.1e-16 1.4e-13 51.4 0.3 1 86 432 501 432 502 0.82

6 25 5.4e-13 6.7e-10 39.5 2.3 1 86 523 592 523 593 0.80

7 25 7.2e-16 8.8e-13 48.8 1.4 1 86 620 691 620 692 0.85

8 25 3e-14 3.6e-11 43.6 0.7 1 86 771 840 771 841 0.82

9 25 2.4e-12 3e-09 37.5 0.1 1 86 864 932 864 933 0.82

10 25 1.2e-13 1.5e-10 41.6 1.1 1 87 1074 1143 1074 1143 0.80

11 25 2e-12 2.5e-09 37.7 0.5 1 62 1205 1264 1205 1283 0.78

12 25 0.0034 4.1 8.2 0.0 1 58 1288 1338 1288 1354 0.79

13 25 4.1e-12 5e-09 36.7 1.3 1 86 1377 1446 1377 1447 0.86

14 25 7.4e-15 9.1e-12 45.5 1.5 1 87 1528 1598 1528 1598 0.83

15 25 2.3e-11 2.8e-08 34.3 0.3 1 86 1633 1704 1633 1705 0.80

16 25 4e-13 4.9e-10 40.0 0.5 1 87 1715 1787 1715 1787 0.81

17 25 2.5e-13 3e-10 40.6 0.1 1 86 1818 1888 1818 1889 0.79

18 25 0.00072 0.89 10.3 0.0 1 57 1925 1974 1925 1993 0.80

19 25 1.8e-14 2.2e-11 44.3 0.1 1 87 2013 2086 2013 2086 0.82

20 25 8.8e-14 1.1e-10 42.1 0.8 1 86 2218 2290 2218 2291 0.81

21 25 4.1e-13 5.1e-10 39.9 2.5 1 86 2357 2427 2357 2428 0.82

22 25 1.4e-12 1.7e-09 38.2 3.7 1 86 2536 2606 2536 2607 0.85

23 25 2e-13 2.5e-10 40.9 0.1 1 87 2697 2767 2697 2767 0.85

24 25 6.9e-07 0.00085 20.0 0.1 1 58 2786 2834 2786 2848 0.86

25 25 7.7e-10 9.5e-07 29.4 0.7 18 87 2851 2909 2841 2909 0.75

#	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	1e-15	1.2e-12	48.3	5.6	1	86	20	89	20	90	0.82
2	25	4.3e-15	5.3e-12	46.3	3.4	1	86	114	185	114	186	0.82
3	25	8.6e-13	1.1e-09	38.9	0.9	1	87	221	289	221	289	0.80
4	25	1.1e-10	1.4e-07	32.1	1.4	1	86	335	404	335	405	0.76
5	25	1.1e-16	1.4e-13	51.4	0.3	1	86	432	501	432	502	0.82
6	25	5.4e-13	6.7e-10	39.5	2.3	1	86	523	592	523	593	0.80
7	25	7.2e-16	8.8e-13	48.8	1.4	1	86	620	691	620	692	0.85
8	25	3e-14	3.6e-11	43.6	0.7	1	86	771	840	771	841	0.82
9	25	2.4e-12	3e-09	37.5	0.1	1	86	864	932	864	933	0.82
10	25	1.2e-13	1.5e-10	41.6	1.1	1	87	1074	1143	1074	1143	0.80
11	25	2e-12	2.5e-09	37.7	0.5	1	62	1205	1264	1205	1283	0.78
12	25	0.0034	4.1	8.2	0.0	1	58	1288	1338	1288	1354	0.79
13	25	4.1e-12	5e-09	36.7	1.3	1	86	1377	1446	1377	1447	0.86
14	25	7.4e-15	9.1e-12	45.5	1.5	1	87	1528	1598	1528	1598	0.83
15	25	2.3e-11	2.8e-08	34.3	0.3	1	86	1633	1704	1633	1705	0.80
16	25	4e-13	4.9e-10	40.0	0.5	1	87	1715	1787	1715	1787	0.81
17	25	2.5e-13	3e-10	40.6	0.1	1	86	1818	1888	1818	1889	0.79
18	25	0.00072	0.89	10.3	0.0	1	57	1925	1974	1925	1993	0.80
19	25	1.8e-14	2.2e-11	44.3	0.1	1	87	2013	2086	2013	2086	0.82
20	25	8.8e-14	1.1e-10	42.1	0.8	1	86	2218	2290	2218	2291	0.81
21	25	4.1e-13	5.1e-10	39.9	2.5	1	86	2357	2427	2357	2428	0.82
22	25	1.4e-12	1.7e-09	38.2	3.7	1	86	2536	2606	2536	2607	0.85
23	25	2e-13	2.5e-10	40.9	0.1	1	87	2697	2767	2697	2767	0.85
24	25	6.9e-07	0.00085	20.0	0.1	1	58	2786	2834	2786	2848	0.86
25	25	7.7e-10	9.5e-07	29.4	0.7	18	87	2851	2909	2841	2909	0.75

Sequence Information

Coding Sequence: ATGGGAAACACTGGAGGCTCGTCCACAGCACTAAATGTCAGCGACAGCATGGACATATGCTGCGTGCCTAAATGCGAGAGCAAGCGACACAATAATGAGAATATTACATTCCATACAATACCCAGACGGCCGGAACAGATGCGCAAATGGTGTCATAATTTAAAAATACCTGAAGATAAAATGCACAAGGGCATGCGCATATGCAGTCTACACTTTGAGCCCTATTGCATTGGCGGCTGTATGCGTCCGTTTGCCGTACCCACACTCCAACTGGGCCACGACGATGACGATATACACCGTAATCCCGATGTGATTAAGAAGCTGAATATACGCGAAACTTGTTGTGTGGCCGTGTGCAAACGTAATCGGGATCGGGATCATGCCAATCTGCATCGTTTTCCCAGCAATTTGTCGCTGTTGACCAAATGGTGCGCTAATCTACAGCGTACGGTACCAGATGGTAGCAAGCTCTTCAACGATGCCATTTGTGAGGTACACTTTGAGGATCGTTGTCTGCGCAACAAAAGGCTAGAAAAATGGGCGGTGCCCACATTGGTGCTAGGTCATGAGAATATTGCATATCCGTTGCCGACTCCGGAGCAGGTGGCTGAGTTCTATGCGAAACCCACGGCACCGAACAATGGCGAGGAGCAGGGCGAGTGCTGTGTTGCTACTTGTAAGCGAAATCCCAGCGTGGATGATATTAAACTTTATCGGCCGCCTGAGGAGTCGGAGGTGTTGGCCAAATGGGCGCACAATCTGGAAGTGGATGTGGCTCAGTTGCCCAGTATGAGAATCTGTAATCTGCACTTTGAATCCCATTGCATTGGCAAACGTATGCGACCTTGGGCCGTACCCACGCTCAATCTAGCAGCAAATATTGAGAATCTCTACGAGAATCCCGAACATCATTTACTTTACAAGCGGCGCAAACATCTCAATACGAACAGAGACAGCGATGCTCATAGAGCTAGCGTTGTTAAGCCCACTTGGGTGCCACGTTGTTGTTTGCCGCACTGCCGCAAGGTGCGAGCTCTGCATAATGTACAGCTGTATCGCTTCCCCAAGCTCAATCGATCCACGCTAGCCAAGTGGGCGCACAATTTACAAGTGCCTTTGGTTGGCAGCGCGCAAAGACGACTCTGTTCTGCTCATTTTGAGCCGCATGTGTTGAGTAAGAAGTGTCCAGTGCCGCTAGCGGTGCCTACGCTGGACCTGAATACGCCGCCCGGCTATAAGATTTATCAGAACCCCGCCAAGCTTAAGGCCAACAAGCTGTGCCTCCAACGTGTATGCATTGTGGAGAGCTGCCGGCGTCAACGTGCGCCAGGTGTACAGCTATTCCGGCTGCCGCATAGTCCATCCCAATTGCGCAAATGGATGCACAATATACGCATGAGGCCTCGAGGTCAAATGCGGCAACAGTATCGAATCTGTTCTAAGCATTTTGAGACGCACTCTTTCAATGGAAAGCGGCTAAGCGCTGGTGCTATACCAACACTGGAACTGGGCCATCAAGATGATGACATTTATCCGAATGAGGCGCAATCATTTGTGGAGGAACACTGCACCATTGAGGGCTGCGATTCAAACAAGGAGCAGCCGGACGTACGTCTATTCCGCTTTCCCACCGACGATGAGGATCTACTCTGGAAGTGGTGCAATAATCTTAAAATGAATCCCGTCGATTGCCATGGCGTACGCATCTGCAATAAGCATTTTGAGACGGATTGCATTGGTCCTAAACATCTGTATAAGTGGGCCATACCCACAATGCAACTTGGCCATGACGATATGGAAATTGAATTGATAACCAATCCCAAGCCAGAGGAACGCTATGTTGATCCCGTTTTCAAGTGCTGTGTGCCCACCTGCGGCAAAACGCGCAGATTCGATGAGGTGCAAATGAACAGCTTTCCCAAGGATCCCACACTGTTCCAGCGCTGGCGCCACAATCTCCGTCTCGAGCATCTCAACTTCAAGGAGCGTGAACGCTACAAGATTTGCAATGCTCATTTTGAGGATATTTGTATAGGCAAAACGCGCCTAAATATTGGGGCCATTCCCACGCTAGAATTGGGACACGACGAGATGGATGATCTTTTCCACGTAAATCCTGCGGACCTGCAGAGCAATTTGTTCGGACGCCAACGTCGAGTCTCATCGGGATTGGGTCTAGGTGTCACCATCAAACAGGAATCGCAATCCGAGCAGGAGGAAGAAAATATCAATCCGGATTTTACTATGTCGGAGGCTACAGATTTCAATACCAACCAGGTAAAGATCAAGAAATCCGTAACGGATCTGAAGTGCTGTGTGCCAAGCTGTGGGCGAAGCCGCCTGGAACACGGAGCCCGCTTGTTTCCGTTTCCAAGCGGCAAGCAACAGCAGACCAAGTGGCGCCACAACCTTCAGCTTGATGCTGACGATGTGGATAAACTGACTCGTGTGTGCAGCGCACACTTTAATCGTCGCTGCATTGACGGCAAACAATTGAGAGGCTGGGCCATGCCCACCTTGCAGCTGGGACATCAGGAGCAGCCGATCTATGAGAATCCAAAGAATATACCGGGCTTCTTTACGCCCACTTGTGCACTGGCGCATTGCCGCAAGCGACGGAGCATTGATAATGATTTGCGCACCTATCGGTATCCGCGCAGCGAGGAGCTGCTCGAGAAGTGGCGGGCAAATCTGCGCTTAGCCCCGGATCAGTGCCGTGGTCGCATTTGTGCGGATCACTTTGAGCCGTTGGTGCGAGGCAAGCTAAAGTTGAAGACAGGTGCCGTACCTACGCTCAAACTGGGCCACGAAGAGGGCGTACTCTTTGACAATGAAGTCATTAAAGCCGGTCTGCTGCAGGATGATGAGGAGGCCGAGGAGGGCGAGGCCAGCAATGAGTCGCTGGCGACGCGAGTTCAGATAAAGACTGAGTTGCCTGATGAGGAAGAAGATGTGGATCAGCAACAGGATGAAGAAGATGATGAAGATGAGGCTCTGGAGGCACTGGATGATGATGACGACCAGGGTGGTCATGGTTATTTCGATCCCTTGGAACTAGTTGAAACATTTGCAGAGCATCATGGCGAGGATAATGCTGCAGGAGAGGAGGATTATGCGAACGACGATGATGATGAGCTTTTGCTGCCGGATACACAGCCAATCCAAGTGACACCAATGCTTCCACGGCGTGAGAAGGCAGTGAATAATGTAACACCGATTTGCTGCCTGAAGCATTGCCGTAAAGAGCGCACCGCAAGTCATCAACTAAGTACATTTGGCTTTCCCAAGGATCAGCAACAGTTGCTTAAATGGAGTGCCAATCTTCAGCTTTCACTCGACGACTGTGTGGGACGCGTCTGCATAGAACATTTCGAGGCAGAAATGTTGGGCACGCGCAAGCTGAAGCAACATGCGGTGCCCACAGTTAATTTAGGGCATTTCGCTCCGTTGCCTTACAGCTGCAATGGACAACCAATGGACATACACGATGAACAGTCGCAACATTCGGTTTTTCGGCTTTGGAGCCTGAAACACTGCCGCAAAAGGAAACTTCCAACGGAACCACCGGATCAAGTGCCAGCGATTAAACAGTCGCCACAGTTACAAAAACGCTGCTGCTTGCCCAGCTGTGGTAAGCAGCCAACACTGCATGGCGTTAAGTTACATCGATTTCCCCGTAATCGTCTAGTGTTACGCAAATGGCTGCATAATCTTAAACTTCCGCTGCACATGGTGCAGTGCAGCCAGGAAATGCTATGCAGCGAACACTTTGAACCGCAGCTGTCATCGGTGGAGGAACAGTTGCCCACTTTAAAGTTGGGTCATGCCGACAGCAATATATATCGCAATCAGACTAGCGCCTGTCTCGTGCCTAGTTGTCCGTGTGCTCGTCTCAATCTTTATCGCTGCCATGAGATGCCGGATCATCCGCTGGTGCAGAAGGCCTGGTTACAGTGGCTGCAGCTGCCCATGCCACAGCTGGCTAGCGATGCACAGCTTTGTGTTATGCACTATATGGAACTTTATGAACAAGTTTCGCTGCCCGACGGATTGCCTGAGCTAGTGTTACGACAGCTGCGTGATACCTATGACTACATAGGAAACTCTACTATGGCTATGAAGCTGCGCTGCGCCGTGCCTGGCTGTTACTCCAAATATACGGATAATATAAGGTTAACCAAGCTCCCGCTCTGCACTGATACCTGTGCCAAATGGGTGCATAATACCAAGATAACTTATGATGCTTCGCGACATTATATTTATCGAATATGTATGCTGCACTTTGAACCGCACTGCCTGGGTCCAGTACGACCTAAGCAGTGGGCAGTGCCCACGCTGAAACTACACCACAACGATCCGAATATCTACCAGAATCCCAAGCAGGAAGGGTATTCAGGCCCAGTGCCAGTTGCTCTCCATCCAATGCCTGCTGCCCAGCCAGTGCCTGTTGTCCACCCAGTACCCAAGGCACTTCCTCCACTGACTCTGGAGATGCCATTACGCATTAAAACAGAGCTACCGTTAAGATTTAGTGTCAGCCCCAGCGCCAGCGCTAGTAACAGTCCACGAAATATGCGCTTCTGCTGCATACCAAGCTGCTCGGTTCAAGCCAGCTCACAGTTGCGTCTCTTCCGCTTCCCCACCGCCGAGACGCTCCTGCTCAAGTGGCTAGTGAACACACAACAACAGCCGCGTCTCGTGGATACCCAACAGCTATTTATCTGTCCGGAACACTTTGAGACAGAGGCCATATGCAAGAAGCAGCTGCGTAGCTGGGCTGTGCCCACGCTTAACTTGGGTCATGATGGATTTATCATACCCAATGCCAAGCATAATGGCAACATTGCGGATAGCCAGGAGAACAAGCAGGCATTGCAATATATCTGGGAAAACTATTGCTCTGTATTGAGCTGTTTTCAGCCGGCCAGCGAGGATGTGCGACTTTATCCATATCCCACGGATCGACCCACGATACGCAAATGGGCGGCCAACTGCAAGCATCGCAGCATGCAGGCCAGCAGTGATGGCTTCAAGGTATGCCAGGTACACTTCGGACCACATTGTTTTGAACCAGATACGGGTGAGTTGCTAGAGACCGCTGTGCCCACCCTAGAGCTGACCAGATGCATCAATGAGGCACGCTGCATAGTGCCTGGATGTTTGAGAGATGAAGATGCACCGCGTCGTCGCTTATTTAAGATGCCCAAGCGCTCTACCCAGCTGGTCGAATGGTGTCATAATCTGCGTCTGGATATGGCTGCGATTACCGGCACGGAGCAGCACGTGTGTGAGCGTCATTTTGAGGCACACTGCTTTAATATGTACAAACTGTTGCGTCCAGGAGCTCGACCCACCCTGCACTTGGGGCATGGAGACGACCAGGTGGAGTTGTTGCCCAATCCGGCGAATTGGACCAAAACAGGCGTAGAGGATCCAATGCCTGCTGGTGTATGCTGTGTACCCAACTGTGGACGCAGCAAAGATGTGGATGATGTGCAGCTATTTGGCTTACCCAAGCTACGGCCACTGGCAGAGAAGTGGCTACAAAATGTACGCCTAGAGCCAGCCAGGGAGCAGCTACTAAAACTAAAATTCTGCAGTGTTCACTTTGAGCCCAGCTGCCTGGAACAGGGTCGCCCACAACTGGGTGCCATGCCTACGTTGCAGCTAGGACACGAAGAGCCGGACAAGATACATCTTAGCGAGCAGGTGACACCTGTGAAGCGCGAAAGTGGCAAGCGTTACCTAAATCGCAATGGCTCCTGCTATGAATGCTGCTATCCGCAGTGTGTGGAACTCCAAAAGAATTATTTGAGAATCAGCTATGATCTGCCACAGCAGGAGCAGATGCGTCGCGCCTGGCTTGATTACATGGAAGTAAAGGACTCGCCGGCACTGCCTCTGAAGCTTTGCCCGTTGCACTTGATTCTGCTCTATGATTACAGTGTGGAAAATTTGGAAGAGCATTTGCAGGAGGATCGGCTGTTGGCCAGCTATGAGGACGCGCGTAACAGTGTGCGCATACGCGTCATCAGCTGTGCAGTCCCTGGCTGCAGGATGCTGAAGCCACGGGATGGAGGGCGGCTACATGGTCTACCCCAGCGTCGAGATGTGCTGCAGATGTGGCTGCACAATATGAAGCTGGTTTTCTACGAGCAGCAGCGGTATATGATCAAGGTGTGCAGCGCCCACTTTGAGCCTAACTGTCTCACAGAAACCACACGTCGTTTGAAGCCATGGAGTATGCCTACGCTGAACTTGCCGGAGCGAGAACCGGACGAAGAGCCAATACACCAGAATCTCACAGAAGCAGAGTGGCAGCGCCTGAATGAACTGTTTGCTGAGCAGCAACTTGAGGTACCGCCTGCTGAAGATCAGCCGCTAATGAAACTAGGGCTGGAGAACCAACCAGCAGCAGAAGAGATACCTGAGGATTACTGCAATCCTGATCAATTTCTGGAGCAATCACAAGAAGAGGACTCACAACAGCCGTTAGAAATGCAAGCATTAGAGGTGCTACTTGAGGTAGGTCACGTTGAAAAGTGTTCCACCTATGAACAAATGGATAAAGAGGCAGAGCAGCAGGCACTAGAGCCATCAGCAAGTAGTGGCACCCTTGTTAGCAATGGTATTAAATACAGCGCGCGCCACTGCAGCGTACGAGGTTGTGATGTGACGGATCGGGATGTGTGTGGTGAGCTTAAGCTGCATAAGTTTCCCACGTCGCTGGATGCCATGCAGAAATGGATGCACAATACCCAAGTGCTAGTGGATACCAATTTTGCCTGGCGCTTTCGCATTTGCAGCCATCATTTTATCCAGGATTGCTTTAATGGTTCGCGCATTCGGCGTGGAGCTATGCCCACGCTACGTCTGGGTCCGCGTAAGCCGGCGCATATTTATGATAATGAGTTCAATGCGTTGCCTCCGCCATCATCGACATCACTGGACGTGGCAACACCTAGCCACACTGCTGCGAAGGCGCTGCCGAATCCGCTTCAGTTAAAGAACGCTGAGATTATTCTGTCATTACCAATACCAGCGCCGCCGCGAAAATCCAGCAAATTTTGTCAAATTGACGGTTGTCCGAATCACTTGACCAGCGAGCGTTTGACCCTGCACAAATTTCCCCACTCGCGGGACATGTGTGTAAAGTGGCAGCACAATACACAGGTGCCCTTTGACCCAGAGTTTCGCTGGCGTTACCGCATTTGCAGCGCACACTTTGAGCCCATCTGCCTAGTCAATATGCGACTACTGCATGGCAGTGTGCCCACATTACAGCTTGGCGCACGAGCTCCTCGCCAGCTATTTGATAACGACTTTGAAGCTATTACCATGCGCCTGGATAAACAGATTAAACAAGACAACTGGGAGCAAGGTCAACTGCAGCAGGCGCAAGAAATGGAGGAGGACGACCAAGAAGAGCAGGAATATGGGCATGATGAGTTGAGTTTTCTAGTGCCAGAGATGCAGTTGCACGAGGATGAGGAGGAAAAGGCCGACAGAGAGCAACAGCAAACTAATTGGAAGGAGCTACGACTGCCCAGCATCAAGCGGGAGGAAAGCCCCATCTATAATCCAGTCAAATCTGGCTACGACAGGTGTTCCCTGGTCCATTGTCAGCGCCAGCGTTCACAGCACGGCGTTCACATCTATAAGTTTCCACGCTCACGTTCATTGCAGCTGCGCTGGATGCACAATTTGAGAATCAAATACGATGAGCGCCGGCCCTGGAAAACTATGATATGCAGCGTACACTTTGAACCGGATTGCATCCGTCTCCGTAAACTGTGCACCTGGGCAGTGCCCACATTGGAGTTAGGTGACAATGTGCCGGATCAGATCTATACGAATTCGCAGAGTCAACAGCTCGAGGATGGCAGCGATAACGAGGAGCAGGATTCGGATGTAGATGTGGATGTGGAGGACACCATGCTGGAAGAGGATGAAGAAGATGATGATGATGATCTTGTTGATGATGACGAAACTGAGCTATTGCCACATGAGTCTTATGTGAAGAGGGAGCGTCGCTCACGCTTTGATCCCTTGCCGCCAGGAAAGCTGCCTCCTTGGAAAATCAAACTGTGTTCTCTGCCCCACTGCCGTAGTCCACGTGGTGATGGCATAAAGCTTTTCCGGCTACCTAACAATCTTAGTTCCATACGCAAATGGGAGCGTGCCACAGGCATGCGCTTCACTGAATCCCAACGCAACACGAAACTCATCTGTAGTCGACACTTTGAACCACAACTAATTGGTGTGCGGCGTCTCATGTATAATGCCGTTCCAACGCTTCATTTGGGCCCCATGGGCGCAGCCAGCAACTCAGTATTGCCTCCTCTCGGTCCGGGCTGTTGCCTGGCTAATTGTCAAGAGGATGCGCCTGCTCTGCTGCAGAAGTTTCCCAATGATCCCGTTCAACTACAACAGTGGTGCGATGAATTAAGTCTCTCAGATATCAATCGGTACCGGGGAAAGTACGTATGCGCTGCTCATTTGCCCGCCAGCATGCTCCGATGTCTTATTTGTGATCTGGATGAAGTGCAATTGCCTTTGTTGGACTTTCCTGAGAATCGCAATCAGCGTGCCAAATGGTGTTATAATCTAAAAATCGACATTATACCCAAATGGGACAACTCCAAACGCATTTGCAGCAAACATTTCGAGACCTACTGCTTCATGCAGCCGGGTCACCTGCTCCCGGAGGCAGCACCCACTTTGCATTTAAGGCATTGCGATAGTAACATATTCCTAAACGATTATAATGATAGTATGCCACTACGGATTAAGGATGAACCCATGGACAGCGAGGATTTGATGCTGTAA
Protein Sequence: MGNTGGSSTALNVSDSMDICCVPKCESKRHNNENITFHTIPRRPEQMRKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLQLGHDDDDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNLSLLTKWCANLQRTVPDGSKLFNDAICEVHFEDRCLRNKRLEKWAVPTLVLGHENIAYPLPTPEQVAEFYAKPTAPNNGEEQGECCVATCKRNPSVDDIKLYRPPEESEVLAKWAHNLEVDVAQLPSMRICNLHFESHCIGKRMRPWAVPTLNLAANIENLYENPEHHLLYKRRKHLNTNRDSDAHRASVVKPTWVPRCCLPHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPLVGSAQRRLCSAHFEPHVLSKKCPVPLAVPTLDLNTPPGYKIYQNPAKLKANKLCLQRVCIVESCRRQRAPGVQLFRLPHSPSQLRKWMHNIRMRPRGQMRQQYRICSKHFETHSFNGKRLSAGAIPTLELGHQDDDIYPNEAQSFVEEHCTIEGCDSNKEQPDVRLFRFPTDDEDLLWKWCNNLKMNPVDCHGVRICNKHFETDCIGPKHLYKWAIPTMQLGHDDMEIELITNPKPEERYVDPVFKCCVPTCGKTRRFDEVQMNSFPKDPTLFQRWRHNLRLEHLNFKERERYKICNAHFEDICIGKTRLNIGAIPTLELGHDEMDDLFHVNPADLQSNLFGRQRRVSSGLGLGVTIKQESQSEQEEENINPDFTMSEATDFNTNQVKIKKSVTDLKCCVPSCGRSRLEHGARLFPFPSGKQQQTKWRHNLQLDADDVDKLTRVCSAHFNRRCIDGKQLRGWAMPTLQLGHQEQPIYENPKNIPGFFTPTCALAHCRKRRSIDNDLRTYRYPRSEELLEKWRANLRLAPDQCRGRICADHFEPLVRGKLKLKTGAVPTLKLGHEEGVLFDNEVIKAGLLQDDEEAEEGEASNESLATRVQIKTELPDEEEDVDQQQDEEDDEDEALEALDDDDDQGGHGYFDPLELVETFAEHHGEDNAAGEEDYANDDDDELLLPDTQPIQVTPMLPRREKAVNNVTPICCLKHCRKERTASHQLSTFGFPKDQQQLLKWSANLQLSLDDCVGRVCIEHFEAEMLGTRKLKQHAVPTVNLGHFAPLPYSCNGQPMDIHDEQSQHSVFRLWSLKHCRKRKLPTEPPDQVPAIKQSPQLQKRCCLPSCGKQPTLHGVKLHRFPRNRLVLRKWLHNLKLPLHMVQCSQEMLCSEHFEPQLSSVEEQLPTLKLGHADSNIYRNQTSACLVPSCPCARLNLYRCHEMPDHPLVQKAWLQWLQLPMPQLASDAQLCVMHYMELYEQVSLPDGLPELVLRQLRDTYDYIGNSTMAMKLRCAVPGCYSKYTDNIRLTKLPLCTDTCAKWVHNTKITYDASRHYIYRICMLHFEPHCLGPVRPKQWAVPTLKLHHNDPNIYQNPKQEGYSGPVPVALHPMPAAQPVPVVHPVPKALPPLTLEMPLRIKTELPLRFSVSPSASASNSPRNMRFCCIPSCSVQASSQLRLFRFPTAETLLLKWLVNTQQQPRLVDTQQLFICPEHFETEAICKKQLRSWAVPTLNLGHDGFIIPNAKHNGNIADSQENKQALQYIWENYCSVLSCFQPASEDVRLYPYPTDRPTIRKWAANCKHRSMQASSDGFKVCQVHFGPHCFEPDTGELLETAVPTLELTRCINEARCIVPGCLRDEDAPRRRLFKMPKRSTQLVEWCHNLRLDMAAITGTEQHVCERHFEAHCFNMYKLLRPGARPTLHLGHGDDQVELLPNPANWTKTGVEDPMPAGVCCVPNCGRSKDVDDVQLFGLPKLRPLAEKWLQNVRLEPAREQLLKLKFCSVHFEPSCLEQGRPQLGAMPTLQLGHEEPDKIHLSEQVTPVKRESGKRYLNRNGSCYECCYPQCVELQKNYLRISYDLPQQEQMRRAWLDYMEVKDSPALPLKLCPLHLILLYDYSVENLEEHLQEDRLLASYEDARNSVRIRVISCAVPGCRMLKPRDGGRLHGLPQRRDVLQMWLHNMKLVFYEQQRYMIKVCSAHFEPNCLTETTRRLKPWSMPTLNLPEREPDEEPIHQNLTEAEWQRLNELFAEQQLEVPPAEDQPLMKLGLENQPAAEEIPEDYCNPDQFLEQSQEEDSQQPLEMQALEVLLEVGHVEKCSTYEQMDKEAEQQALEPSASSGTLVSNGIKYSARHCSVRGCDVTDRDVCGELKLHKFPTSLDAMQKWMHNTQVLVDTNFAWRFRICSHHFIQDCFNGSRIRRGAMPTLRLGPRKPAHIYDNEFNALPPPSSTSLDVATPSHTAAKALPNPLQLKNAEIILSLPIPAPPRKSSKFCQIDGCPNHLTSERLTLHKFPHSRDMCVKWQHNTQVPFDPEFRWRYRICSAHFEPICLVNMRLLHGSVPTLQLGARAPRQLFDNDFEAITMRLDKQIKQDNWEQGQLQQAQEMEEDDQEEQEYGHDELSFLVPEMQLHEDEEEKADREQQQTNWKELRLPSIKREESPIYNPVKSGYDRCSLVHCQRQRSQHGVHIYKFPRSRSLQLRWMHNLRIKYDERRPWKTMICSVHFEPDCIRLRKLCTWAVPTLELGDNVPDQIYTNSQSQQLEDGSDNEEQDSDVDVDVEDTMLEEDEEDDDDDLVDDDETELLPHESYVKRERRSRFDPLPPGKLPPWKIKLCSLPHCRSPRGDGIKLFRLPNNLSSIRKWERATGMRFTESQRNTKLICSRHFEPQLIGVRRLMYNAVPTLHLGPMGAASNSVLPPLGPGCCLANCQEDAPALLQKFPNDPVQLQQWCDELSLSDINRYRGKYVCAAHLPASMLRCLICDLDEVQLPLLDFPENRNQRAKWCYNLKIDIIPKWDNSKRICSKHFETYCFMQPGHLLPEAAPTLHLRHCDSNIFLNDYNDSMPLRIKDEPMDSEDLML

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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