Basic Information

Insect: Drosophila parvula
Gene Symbol: -
Assembly: GCA_018904695.1
Location: JAEIIG010020961.1:1-9838[+]

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 4.3e-16 1.1e-12 48.5 5.3 1 87 105 175 105 175 0.82

2 25 1.5e-15 3.8e-12 46.8 3.6 1 86 199 270 199 271 0.82

3 25 2.4e-13 6.1e-10 39.7 1.1 1 87 306 374 306 374 0.81

4 25 4.8e-11 1.3e-07 32.3 1.6 1 86 416 485 416 486 0.77

5 25 3e-17 7.8e-14 52.2 0.4 1 86 513 582 513 583 0.83

6 25 5.5e-13 1.4e-09 38.6 1.0 1 86 604 673 604 674 0.79

7 25 3.9e-15 1e-11 45.5 0.5 1 86 701 772 701 773 0.85

8 25 1.2e-12 3.1e-09 37.5 3.7 1 85 847 915 847 917 0.82

9 25 3e-13 7.8e-10 39.4 0.2 1 86 940 1008 940 1009 0.83

10 25 2.1e-13 5.5e-10 39.9 2.5 1 87 1157 1226 1157 1226 0.80

11 25 3e-13 7.7e-10 39.4 0.1 1 86 1312 1381 1312 1382 0.82

12 25 0.0093 24 5.8 0.0 1 59 1397 1447 1397 1462 0.75

13 25 4.3e-12 1.1e-08 35.7 0.3 1 86 1476 1546 1476 1550 0.73

14 25 1.4e-12 3.5e-09 37.3 0.4 1 87 1599 1669 1599 1669 0.82

15 25 2.6e-11 6.8e-08 33.2 0.1 1 86 1704 1779 1704 1780 0.81

16 25 6.7e-12 1.7e-08 35.1 0.0 1 86 1790 1863 1790 1864 0.80

17 25 1e-11 2.6e-08 34.5 0.1 1 85 1889 1961 1889 1963 0.70

18 25 0.0005 1.3 9.9 0.1 1 58 1985 2035 1985 2060 0.71

19 25 1.3e-11 3.4e-08 34.2 0.2 1 86 2075 2146 2075 2147 0.81

20 25 4e-16 1e-12 48.6 0.4 1 86 2259 2331 2259 2332 0.81

21 25 2.2e-12 5.7e-09 36.6 3.5 1 86 2395 2465 2395 2466 0.80

22 25 2.2e-14 5.7e-11 43.0 3.1 1 86 2558 2628 2558 2629 0.85

23 25 6.6e-12 1.7e-08 35.1 0.1 1 86 2708 2777 2708 2778 0.84

24 25 1.9e-10 4.9e-07 30.4 0.4 1 58 2802 2851 2802 2863 0.83

25 25 2.9e-10 7.5e-07 29.8 0.7 18 87 2869 2927 2858 2927 0.77

#	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	4.3e-16	1.1e-12	48.5	5.3	1	87	105	175	105	175	0.82
2	25	1.5e-15	3.8e-12	46.8	3.6	1	86	199	270	199	271	0.82
3	25	2.4e-13	6.1e-10	39.7	1.1	1	87	306	374	306	374	0.81
4	25	4.8e-11	1.3e-07	32.3	1.6	1	86	416	485	416	486	0.77
5	25	3e-17	7.8e-14	52.2	0.4	1	86	513	582	513	583	0.83
6	25	5.5e-13	1.4e-09	38.6	1.0	1	86	604	673	604	674	0.79
7	25	3.9e-15	1e-11	45.5	0.5	1	86	701	772	701	773	0.85
8	25	1.2e-12	3.1e-09	37.5	3.7	1	85	847	915	847	917	0.82
9	25	3e-13	7.8e-10	39.4	0.2	1	86	940	1008	940	1009	0.83
10	25	2.1e-13	5.5e-10	39.9	2.5	1	87	1157	1226	1157	1226	0.80
11	25	3e-13	7.7e-10	39.4	0.1	1	86	1312	1381	1312	1382	0.82
12	25	0.0093	24	5.8	0.0	1	59	1397	1447	1397	1462	0.75
13	25	4.3e-12	1.1e-08	35.7	0.3	1	86	1476	1546	1476	1550	0.73
14	25	1.4e-12	3.5e-09	37.3	0.4	1	87	1599	1669	1599	1669	0.82
15	25	2.6e-11	6.8e-08	33.2	0.1	1	86	1704	1779	1704	1780	0.81
16	25	6.7e-12	1.7e-08	35.1	0.0	1	86	1790	1863	1790	1864	0.80
17	25	1e-11	2.6e-08	34.5	0.1	1	85	1889	1961	1889	1963	0.70
18	25	0.0005	1.3	9.9	0.1	1	58	1985	2035	1985	2060	0.71
19	25	1.3e-11	3.4e-08	34.2	0.2	1	86	2075	2146	2075	2147	0.81
20	25	4e-16	1e-12	48.6	0.4	1	86	2259	2331	2259	2332	0.81
21	25	2.2e-12	5.7e-09	36.6	3.5	1	86	2395	2465	2395	2466	0.80
22	25	2.2e-14	5.7e-11	43.0	3.1	1	86	2558	2628	2558	2629	0.85
23	25	6.6e-12	1.7e-08	35.1	0.1	1	86	2708	2777	2708	2778	0.84
24	25	1.9e-10	4.9e-07	30.4	0.4	1	58	2802	2851	2802	2863	0.83
25	25	2.9e-10	7.5e-07	29.8	0.7	18	87	2869	2927	2858	2927	0.77

Sequence Information

Coding Sequence: ACAGGTGCCGTGCCCACACTTCATCTGGGCCACAATGACACCTTCAACATCTACGAGAACGAACTGTGGCCGCCGCCGACACCTACACCCTCCTCGTGTCACCTGCAACAACAACAGCAGTCATCACTTCACTCGCTGCAACAGCAGATACACAGCAAGTCCTACCAGCGTCGTTCCGTGGCATCCACTTCATCGTCGGCGAGCTCGGCCTCGCATTACGTGGACCCGGAGATGAGTGCCTCATACCACCTAGCCATGTCCGCCTCCGCCGGTGGCTCTGCGGCGGTGAACGCCAGCGACAGCATGGATGTCTGTTGCGTGCCCAGTTGCGAGAGCAAGCGGCACAATAGCGAGAACATAACATTCCACACGATACCGCGACGGCCCGAGCAGATGCGCAAGTGGTGTCACAACCTCAAGATAGCCGAGGATAAGATGCACAAGGGCATGCGGATATGCAGCCTTCACTTCGAGCCCTACTGCATCGGCGGCTGTATGCGACCGTTTGCAGTGCCCACTCTTCACTTGGGCCACGACGACGAGGACATTCACCGCAATCCGGACGTGATCAAGAAGCTGAACATCCGGGAGACGTGCTGCGTGGCCGTGTGCAAGCGGAACAGGGACAGGGACCACGCCAACCTGCATCGTTTCCCCAGCAACGTGGCGTTACTGAAGAAATGGTGCGCCAACTTGCAGCGCAGTGTCCCCGATGGCAGTAAACTCTTCAATGATGCCATCTGCGAGGTCCACTTTGAGGATCGCTGCCTGCGTAACAAGAGACTGGAAAAGTGGGCGGTGCCCACTCTGATCCTCGGGCACGAGGACATCCCCTATCCGCTGCCCACGCCGGAACAAGTGACCGAGTTCTATGCCCGGCCAACGGCTCCCAACAATGGTGAGGAACAAGGCGAGTGCTGTGTGGATACCTGCAAGAGGAATCCCAGCGTGGACGATATTAAGCTTTACCGTCCGCCGGAGGACGCCACCGTGCTGGCAAAGTGGGCGCACAACCTGCAGACGGAGGCCAACCAGCTGACAAGCATGAGGATCTGCAACCTTCACTTCGAGGCGCACTGCATTGGCAAGAGGATGCGCCAGTGGGCCATACCTACATTGAATCTAGCCGGCAACATCGAGAATCTCTACGAGAATCCGGAGCAATCATTGCTGTACAGGCGGCGGACGACTCACATGAAGTCGAAGCTACCGGCATCCTCAGCGAAACCAACCTGGGTGCCCAGGTGCTGTCTTCCACACTGTCGCAAAGTCAGAGCCCTGCACAATGTCCAGCTCTATCGCTTCCCCAAGCTCAATCGCTCCACATTGGCGAAGTGGGCGCATAACCTGCAGGTTCCAATGGTGGGCAGTGCCCAGCGCAGGCTATGCTCGGCTCACTTCGAGCCACATGTGCTTAGTAAGAAGTGTCCCGTGCCGCTGGCAGTGCCTACGATCGACCTGAACTCGCCGTCAGGCTTGAAAATCTACCAAAATCCGGCCAAGCTGAAGGCTAGCAAACTGTGCCTGCAGCGGGTTTGCATCGTCGAGAGCTGCCGCAAGACGCGGGCGCAGGGCGTGCAGCTATTCCGTCTGCCGCACAGCCCCACACAGCTGCGGAAGTGGATGCACAACATAAAGACGCGGCCCCGAGCAGCTATGCGGGCCCAATACCGGGTCTGTTCCCGCCACTTCGAGACGCACTCATTCAACGGGCGAAGACTGAGTGCAGGTGCCATTCCGACCCTGGAACTAGGCCACGACGGGGACGATATCTATCCCAATGAAGCGCAGGCCTTTGTGGATGAGCATTGTGCTGTCGAGGGCTGCGAGGCTTCCAAGGAGCAGCCGGAGGTGAGACTGTTCCGCTTCCCCACCGATGACGACGACATGCTGTGGAAGTGGTGCAACAACCTCAAAATGAACCCCGTCGACTGCATTGGGGTGCGTATCTGCAACAAGCATTTCGATGCCGACTGCATCGGTCCCAAGCACCTCTACAAGTGGGCCATTCCCACGATGGAGTTGGGCCATGACGATGCGCAAATCGAGCTTGTCCCGAATCCCAAGCCGGAGGAGAGGTATGTGGATCCGGTCTTCAAGTGCATCGTGCCCACTTGCGGCAAGACGCGACGCTTTGACGAGGTGCAAATGAATAGCTTCCCCAAGGATCCTGAGCTATTCCAGCGTTGGCGGCACAACCTGCGCTTGGATCACCTCAGTTTCCAGGAACGCGAGCGCTACAAGATCTGCAACGCTCACTTTGAAGAGATCTGTATTGGGAAGACACGGCTGAACATCGGATCAGTGCCAACCTTAGAGCTGGGTCATGACGACGAGGATGATATTTTCCAAGTGAATCCAGCGGAGTTGCAGAGCAACTTATTTGGGCGACAACGTCGACTGCTCCTTGAGGGATCCGGCGAAGTGAGTGTCAAGCAGGAGCTGTCCGAGACGGAGGACAACAATAAAGCGGATATGACGCCCGCAGGTTCCAACTCCAAACAGGTGAAGCCCAAGAGATCTTCTTCGGAGTTAAAGTGCTGTGTGCACAGCTGTGGAAGGAGTCGCTTGGAGCACGGAGCACGGCTGTTCCCCTTTCCCACGGGCAAGCAGCAACACCTAAAGTGGCGACATAATCTGCACCTGGAACCGGAGGAGGTCGACCGGTCAACGCGAGTGTGCAGCGCCCACTTCAATCGGCGTTGCATCGAGGGCAAACAGCTGAGGAGCTGGGCGATGCCTACCCAGCAGTTGGGACACCACGACCAGCCGATCTACGAGAACCCCAAGAACATACCGGGATTCTTCACACCCACCTGTGCCCTGGAACACTGTCGCAAGAGGAGGAGTATTGACAACGATCTGCGTACCTATCGGTATCCGAGAAGCGAGGAGCTGCTGGAAAAATGGAGAGCCAACCTTCGGCTGGCTCCGGATCAGTGCCGTGGTCGTATTTGTGCAAATCACTTCGAGCCGCAGGTGCGGGGCAAGCTTAAGTTGAAGACTGGAGCCGTGCCCACATTGAAACTGGGACACGACGAGGGATTAGTCTACGACAATGAAGCTATTAAGGCGGGCATGGCCGAAGAAGATGAGGGCGGAGCAACGGAATACGCACGACTGAAACCAAAAAAAGAGGTGATGGAAGAGGAGGAGGAGGAGGAGGAGGAGGGTGACGGCGAGCAGCAACACCCAGACGACCGGGACAATGCTGATGATGATGATGATGACAAAGATGACCACTACTTTGATCCTCTTGAACTGGTGGAAACTTTTGCTGATCATCGCAGCGATGATGAGGCCCAGGATTATGAGGATGAAGCAGACGAAGGCCAAGTTGAGGACTCCCCCTCTGGGTACGAGATCGAGGAGGAATTGGAACAACCGCCAAGCGCCCCACCTTCACCCCTACCTCGACGGTCCCAAGTTCCGCGTCGAGACAAGCCGGCTAACAATGTCACGCCCATTTGCTGCCTGAAGCACTGCAGAAAGGAACGCACTGCATTTCATCTGCTGAGCACCTTCGGCTTCCCCAAGGATCGCCAATTGCTGTTGAAGTGGTGTGCCAATCTGCATCTAAACCCGGATGACTGCGTCGGTCGGGTTTGCATTGAGCACTTCCAGCCGGAGGTACTCGGAACCCGTAAGCTCAAGCAGAATGCGGTGCCCACCGTTAATGTGGGACATGATGAGCCGCTGAGATACTCGTGTCATGGCGTGGACCAGAATATCGAGGAGCAGGACCCCCAGCCGCAGCATTCGGTTTTTCGGCTTTGGAGCCTGAAACACTGCCGAAAAAGGAAGCTAACGGAGCCGCCGGACATTCCCCTAGCCAAGATGATGAAGCGGGAGTGGGAGATGGAGATGCCGATGCCGATGGAGCGGCCACGGGCGTTGAAGAAGATGAATCAAACGGAGAGTAAGCCAAATATGTGCTGTATCAGCGATTGTGGAAACCAGGATGTCAGCCAATTACTGTCTCTGCCCGAAGAGAAATCCCTGCTAAGAAAGTGGATTCATAACTTAAGACTGTCCACTGAGGACACTGCATTTGTAAGAGTTTGCCTGGCGCACTTTGAGTCGCAGCTGGTGGAGAACGGCAGGCTAAGGAAGGAATCAGAGCCAGAGGCAGTGCCCACTTTGAAACTGGGCCACACCAGTTGGAACCTGTACAGGAGCACTGGGATCTGCCTGGTGCCCGACTGCACGAGCAACACCTTGGATCGCTTAACCTATATCGATCTCCCGGATAACAGTATAATTAGGGAGGCTTGCTTTTCATATCTCAACTTAGCTGAATACCCCGAGGAACAGGCAATACTATGTGGAATCCACTTTATGGAGATATACAAGGAGTTAAGTCTTCCCAAGGTTCTGGCCCCCCAAGATTTGATGGAGCTACAAAGTACTCTAGACGAACTGGAATGCGCTGTGCCCGGCTGCTGCTTCGAAAATTCTGAACAGGATTTTCACCTAATCCCACTTCCAGATGACAAAGACGTACTATCGAAGTGGCTGCACAACACCAAGATCACATATGACCCTTCTAGGCACCGAAGCTACCGCATTTGCAGGCACCACTTTGAAGCGGAGTACTTAGAAGTGGATGGGCCGCTAAAATGGGCTCTACCGACGCTCTACCTAAACCATGAAGATGAGATCCACCCAAATATAAAGCCTTTGGCAGAGGAGCAGGACAACTTGTTAACTCCACTGCGAATTAAGACGGATCATGCCTTCTTGGGCAGCCCTAGTGCAAGTGCAAGCCCCAGTCCTCGGGGCAGGATCCGGATATGCTGCATTCCCACCTGTGGACAGTTTGGAAGCAGTCAAGTAAGGCTCTATCGCTTTCCCGTCGAGGAGCAGGCGCTGCTTCGCTGGCTAGTCAACACGCAACAGCAGCCAAGACTTGTTGATCCCATGGACTTATATGTGTGCCAGTCGCATTTTGAGCCAGAGGCCATTTGCAAGAAGCAGCTGCGCAGCTGGGCGGAACCCACCTTGAACCTGGGACACGACGGCCATGTAATCCCGAATGCCAAGCACAACGGCAATATTTCCGACAGCCAGGATACCGAGCAGGCAATGAGGTTCATTCGCGAACGCTTCTGCTCCGTCATTTCCTGCTTTCAGGCAGGAGGACAGGAGGAGGTGGAGGGAGTAAGGCTATATGATTATCCCGAGGATATGGCAACTACTCGAAAGTGGGCAGCCGCCTGCAGACATCGCTCAATGCAGGCCAGGAGCCATGGGTTCAAGGTGTGCCAGTCCCACTTCGCTACGGAATGCTTTGACCCAGATAATGGAAATTTGGTTGAAGGCTCGGTGCCCACGCTGGAGTTGAGCAGGGACGATATGGAGAGGCAGTGTCTGGTAACTGGATGTATAAGGAATGATGCCGATGGAGCTCGTCCCCGTTACTTTAAGATACCAAAAACCGCCGCGCACCTGGAAGCGTGGAGCAACAACCTGAAAGTCCATCCAACTGATCTCATGCAAGGGGAGCAGCAGTACATCTGCGACAAACACTTTGAGGCGTTCTGCTTTGGTGCCAACAAGGGACTGCGTTCTGGTGCGCTTCCAACCCTCTATCTGGGCCATGATGAGGACGTCGATATGCTTCCGAACCCGGAGAGTCTCTTCTTTCAGAACAAGACCGAAAAGTGCTGCGTACCAGGCTGCGAGCGTATCTGGCAGATTGGGGACCGCAAGTTCCGTGGATTTCCCAAATCGTTGACCATGGTCAAAAAATGGCGACATAACCTTCGTTTGCCAGCGACCACGGAGCAACTGGGCAAACTGAAGGTCTGCAGTGCTCACTTTGAGACAACCTCCCCCCAACTCGGTACTCATGGACAGAGCTATAGTAATTTAATACCCACTCTGGAGTTGGGACACTCTTCTCCAGATATTTACCAAGCGGACATGAGCTTAAAGACGCCGAAAACTTATTGCTTGTATCCCAAGTGCGAGGAAATCTGCCTACCCAAGAGTTTGTCTTACGGCCTTCCCCAAGAAGAGCATCTGCGGAGTGCCTGGCTAAGCCACATGAACATAGAAGATCTGAAAGATGAAGGTACCGCACAACTGTGCCCGCTGCACTACGTCATTCTCTACCAGCACAGTGCCAAAAACCATGCAGAGCATCATGCTTCAAGCCGCATGCTTCTGGATGACAATTACACGGATGCGAGGAACAACAGGCGAGTAAAGATTGTGAGCTGTGCGATCAAGGGCTGCGACATGGTTCGGCCCCGGGATGGGGTACGCTTGCACGGGATGCCGCAAAGCAAGGACATCCTGCAGATGTGGATAGACAATGGTCAGTTTGATTTCATAGAGCAACAGCGGTACATGTTCAAGGTGTGCCACAATCACTTTGACCCAAGCTGCTTCTTTGACGAAAGACGCTTGTTCTCTTGGAGCGTCCCCACTTTACGCCTACCTGGCGACGCAATCCACCAAAATCCTACCGCCGAGCAGTGGCAGAACATGGTCAATAAACAGACAGCGGCAACAACACAAGCGGAAGAGACACAAGAGACTGATCTTTATGAGGATGTGGATAGCACGGAGCCCGTAATAAAGATGGAGCATATCGAATCGGAATATGAAGATGACAACTCGGGGATGCAGGCCCTAGAGGTCCTCCTTGAAGTTGGTCATGTGGAGCGAATGGAGAGCTATGAGAATGTGGATAAGTCACCGGTGATCTATACCGATAATTCAGTCTTCCGGTACTCTCCCATACGATGCCAATACAATGCCAATCACTGTGCCGTAGAGGGGTGCCAGGTGACCGTCGAGGATGTGGACGGGACAATTAAGCTGCACAAATTTCCCGCGTCCCAGGATGCCGCTCAGAAGTGGATGCACAACACCCAAGTTGACATGGACGAGAAGTTCTGGTGGCGGTACCGCATATGCAGTTACCACTTCGATAAAGAGTGCTTTCAGAGCGCTAGGATTCGCAAAGGCGCGATGCCGACGCTTTTGTTAGGACCTCGCCAACCGGATACGGTGTACGATAATGAATTTGCCCTACCAGAGACGGAAGAGTCTTTTCCAGAGCCACCGCAGATTCAGCTGGACGAGAGTACTCCTGTGTCGTCGAGAGTTCTAAAGGAAGTGTCCAGCTTATGCCTGCCTCCGCGGGCGCCGCCTCGAAAGTCGAGCAAGTTTTGCCAGATTGATTCTTGCACGAACCACCTGACCACTGAGAACATGACACTCCACAAGTTTCCCCACTCTGAGGACATGTGCCTCAAGTGGCAGCACAATACGCAAGTACCATTCGATCCCTACTACCGCTGGCGTTACCGCATCTGCAGTGCTCATTTCCATCCGGTGTGCTTGGTCAACATGCGTCTTGTCCACGGAAGCGTTCCCACTTTAAAGCTGGGTCCCAAGGCTCCATCCGAACTCTTTGACAACGACTTCGAGGCCATAAACCTAAGGCTGGATAAGAGGTTGACCGAGTCCAATGCCAATGTGTATATCAAGCACGAGAAGCGGGAGGAGGATGAAGAGTCGCTGATGTTCCTGGAGCCCGAGCTCCAGGTACACGAGGGTCAAGACGATAAGATATCAACCTGGACTAGCAAACTGCTATTGCCACCTGTTAAGCAGGAGAAAATGATCTGCAGCCAAATCAAGTCTGGCTATGACAAGTGTTCCCTGGCTCACTGCCAACGCCAAAGGTCCCAGCATGGCGTCCACATCTATAAGTTTCCCAGGTCGGGCCGCCAACAGGAGCGTTGGATGCACAACCTCCGCATCCGCTATGATGAGCGGACACCGTGGAAATTCATGATCTGTAGCGTTCATTTCGAGCCGCACTGCATCAGCCTAAGGAAGCTGCGACCTTGGGCTGTACCCACTCTGGAGCTGGGCGACAATGTGCCAGACACGATCTTTACAAACGAACAGTGCGAGGAGGAGCTGGTAACCGATCGCAGTGAGATGGATAGCGACGCCGAGGAAGAAGATGGTTTGCAGGAGGATGACGAAGATGAAGACGAAGACGACCTGAAGCCGGATTTGGTTGGCATAAAGAGAAGGAGACGTTTCAAGACAGATTCCATCCATTCTAGCCATTTGGCGCCCTGGAAAGTCAAGCAATGCTGTCTTCCCTATTGTCGTGCCTACCGAGGTGATGGCATCAAGCTATTTCGACTTCCCAACAACCGAAACTCGATTACCAACTGGGAACTGGCCACAGGAATGGTATTCAAGGAGTCGCAACGGAATACTCGTCTGATCTGCAGCCGCCACTTTGAGCCAGAGCTGATTGGAGTCAGGCGTCTAATGCGCAATGCCATTCCCACGAAGCACCTGAACCCGCAAGGCGCTAACCAGGTCAACACTAAAAAGGAGAAAACTCAAGCCACTATCATTCCCACCTGCTGCATGGCGGACTGCCATTATAATGGAACACTTGTCAAGCTGCACAAGTTTCCAAGTGATCCTACATTGCTTAAACAGTGGTGCCAGGCTCTCCGGCTCACTGATACGCAGCGGTATTTGGGCAAGCATATTTGTTCGATGCACCTGCCAATAAACAAGACCATGAGCTGTGTCATCTGCGGTGGGGACAATGTGGAGTTGCCGATGCTCGGATTTCCGGAGAACCGCAACCAGCGTGCCAAGTGGTGTTATAATCTCAAAATTGAGACAATAGCAAAATGGGACCACTCAAAACTCATTTGCTGCCGGCACTTTGAGCCCCATTGCTTTGACAAGCCGGGTGAGCTACGTCCAGGAGCGGCGCCCACGCTCCATCTGAATCACGATGACACAAACATATTCTTCAGCGACTATGCCACTGGTCTTCCGTCCTCGCCACTAGGCAATCGAATCAAAGACGAGCCCCTGGAATCGGAGTCTGACGAGATGCTGCTGGTGTAG
Protein Sequence: TGAVPTLHLGHNDTFNIYENELWPPPTPTPSSCHLQQQQQSSLHSLQQQIHSKSYQRRSVASTSSSASSASHYVDPEMSASYHLAMSASAGGSAAVNASDSMDVCCVPSCESKRHNSENITFHTIPRRPEQMRKWCHNLKIAEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLHLGHDDEDIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNVALLKKWCANLQRSVPDGSKLFNDAICEVHFEDRCLRNKRLEKWAVPTLILGHEDIPYPLPTPEQVTEFYARPTAPNNGEEQGECCVDTCKRNPSVDDIKLYRPPEDATVLAKWAHNLQTEANQLTSMRICNLHFEAHCIGKRMRQWAIPTLNLAGNIENLYENPEQSLLYRRRTTHMKSKLPASSAKPTWVPRCCLPHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPMVGSAQRRLCSAHFEPHVLSKKCPVPLAVPTIDLNSPSGLKIYQNPAKLKASKLCLQRVCIVESCRKTRAQGVQLFRLPHSPTQLRKWMHNIKTRPRAAMRAQYRVCSRHFETHSFNGRRLSAGAIPTLELGHDGDDIYPNEAQAFVDEHCAVEGCEASKEQPEVRLFRFPTDDDDMLWKWCNNLKMNPVDCIGVRICNKHFDADCIGPKHLYKWAIPTMELGHDDAQIELVPNPKPEERYVDPVFKCIVPTCGKTRRFDEVQMNSFPKDPELFQRWRHNLRLDHLSFQERERYKICNAHFEEICIGKTRLNIGSVPTLELGHDDEDDIFQVNPAELQSNLFGRQRRLLLEGSGEVSVKQELSETEDNNKADMTPAGSNSKQVKPKRSSSELKCCVHSCGRSRLEHGARLFPFPTGKQQHLKWRHNLHLEPEEVDRSTRVCSAHFNRRCIEGKQLRSWAMPTQQLGHHDQPIYENPKNIPGFFTPTCALEHCRKRRSIDNDLRTYRYPRSEELLEKWRANLRLAPDQCRGRICANHFEPQVRGKLKLKTGAVPTLKLGHDEGLVYDNEAIKAGMAEEDEGGATEYARLKPKKEVMEEEEEEEEEGDGEQQHPDDRDNADDDDDDKDDHYFDPLELVETFADHRSDDEAQDYEDEADEGQVEDSPSGYEIEEELEQPPSAPPSPLPRRSQVPRRDKPANNVTPICCLKHCRKERTAFHLLSTFGFPKDRQLLLKWCANLHLNPDDCVGRVCIEHFQPEVLGTRKLKQNAVPTVNVGHDEPLRYSCHGVDQNIEEQDPQPQHSVFRLWSLKHCRKRKLTEPPDIPLAKMMKREWEMEMPMPMERPRALKKMNQTESKPNMCCISDCGNQDVSQLLSLPEEKSLLRKWIHNLRLSTEDTAFVRVCLAHFESQLVENGRLRKESEPEAVPTLKLGHTSWNLYRSTGICLVPDCTSNTLDRLTYIDLPDNSIIREACFSYLNLAEYPEEQAILCGIHFMEIYKELSLPKVLAPQDLMELQSTLDELECAVPGCCFENSEQDFHLIPLPDDKDVLSKWLHNTKITYDPSRHRSYRICRHHFEAEYLEVDGPLKWALPTLYLNHEDEIHPNIKPLAEEQDNLLTPLRIKTDHAFLGSPSASASPSPRGRIRICCIPTCGQFGSSQVRLYRFPVEEQALLRWLVNTQQQPRLVDPMDLYVCQSHFEPEAICKKQLRSWAEPTLNLGHDGHVIPNAKHNGNISDSQDTEQAMRFIRERFCSVISCFQAGGQEEVEGVRLYDYPEDMATTRKWAAACRHRSMQARSHGFKVCQSHFATECFDPDNGNLVEGSVPTLELSRDDMERQCLVTGCIRNDADGARPRYFKIPKTAAHLEAWSNNLKVHPTDLMQGEQQYICDKHFEAFCFGANKGLRSGALPTLYLGHDEDVDMLPNPESLFFQNKTEKCCVPGCERIWQIGDRKFRGFPKSLTMVKKWRHNLRLPATTEQLGKLKVCSAHFETTSPQLGTHGQSYSNLIPTLELGHSSPDIYQADMSLKTPKTYCLYPKCEEICLPKSLSYGLPQEEHLRSAWLSHMNIEDLKDEGTAQLCPLHYVILYQHSAKNHAEHHASSRMLLDDNYTDARNNRRVKIVSCAIKGCDMVRPRDGVRLHGMPQSKDILQMWIDNGQFDFIEQQRYMFKVCHNHFDPSCFFDERRLFSWSVPTLRLPGDAIHQNPTAEQWQNMVNKQTAATTQAEETQETDLYEDVDSTEPVIKMEHIESEYEDDNSGMQALEVLLEVGHVERMESYENVDKSPVIYTDNSVFRYSPIRCQYNANHCAVEGCQVTVEDVDGTIKLHKFPASQDAAQKWMHNTQVDMDEKFWWRYRICSYHFDKECFQSARIRKGAMPTLLLGPRQPDTVYDNEFALPETEESFPEPPQIQLDESTPVSSRVLKEVSSLCLPPRAPPRKSSKFCQIDSCTNHLTTENMTLHKFPHSEDMCLKWQHNTQVPFDPYYRWRYRICSAHFHPVCLVNMRLVHGSVPTLKLGPKAPSELFDNDFEAINLRLDKRLTESNANVYIKHEKREEDEESLMFLEPELQVHEGQDDKISTWTSKLLLPPVKQEKMICSQIKSGYDKCSLAHCQRQRSQHGVHIYKFPRSGRQQERWMHNLRIRYDERTPWKFMICSVHFEPHCISLRKLRPWAVPTLELGDNVPDTIFTNEQCEEELVTDRSEMDSDAEEEDGLQEDDEDEDEDDLKPDLVGIKRRRRFKTDSIHSSHLAPWKVKQCCLPYCRAYRGDGIKLFRLPNNRNSITNWELATGMVFKESQRNTRLICSRHFEPELIGVRRLMRNAIPTKHLNPQGANQVNTKKEKTQATIIPTCCMADCHYNGTLVKLHKFPSDPTLLKQWCQALRLTDTQRYLGKHICSMHLPINKTMSCVICGGDNVELPMLGFPENRNQRAKWCYNLKIETIAKWDHSKLICCRHFEPHCFDKPGELRPGAAPTLHLNHDDTNIFFSDYATGLPSSPLGNRIKDEPLESESDEMLLV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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