Basic Information

Insect: Ornithomya fringillina
Gene Symbol: -
Assembly: GCA_963978525.1
Location: OZ021690.1:8378662-8391276[-]

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 28 2.5e-10 3.4e-07 31.0 4.6 1 87 21 95 21 95 0.79

2 28 1.7e-11 2.3e-08 34.8 0.0 1 86 121 189 121 190 0.80

3 28 1.9e-13 2.7e-10 41.0 0.2 1 87 213 283 213 283 0.80

4 28 1.2e-17 1.6e-14 54.5 0.4 1 87 302 382 302 382 0.81

5 28 2.2e-09 2.9e-06 28.0 0.8 1 61 399 452 399 473 0.76

6 28 2.2e-11 3e-08 34.4 2.2 1 86 491 560 491 561 0.82

7 28 2.4e-13 3.2e-10 40.7 3.2 1 86 586 656 586 657 0.84

8 28 9.3e-15 1.3e-11 45.2 0.7 1 86 677 749 677 750 0.81

9 28 0.00031 0.42 11.5 0.0 1 69 776 837 776 865 0.82

10 28 2.6e-15 3.6e-12 47.0 2.8 1 86 1006 1079 1006 1080 0.83

11 28 1.2e-07 0.00016 22.4 1.2 1 58 1130 1177 1130 1197 0.81

12 28 4.6e-14 6.2e-11 43.0 0.7 1 86 1220 1298 1220 1299 0.81

13 28 6.8e-07 0.00092 20.0 0.1 1 86 1323 1387 1323 1388 0.70

14 28 2.5e-10 3.4e-07 31.0 4.6 1 87 1624 1698 1624 1698 0.79

15 28 1.7e-11 2.3e-08 34.8 0.0 1 86 1724 1792 1724 1793 0.80

16 28 1.9e-13 2.7e-10 41.0 0.2 1 87 1816 1886 1816 1886 0.80

17 28 1.2e-17 1.6e-14 54.5 0.4 1 87 1905 1985 1905 1985 0.81

18 28 2.2e-09 2.9e-06 28.0 0.8 1 61 2002 2055 2002 2076 0.76

19 28 2.2e-11 3e-08 34.4 2.2 1 86 2094 2163 2094 2164 0.82

20 28 2.4e-13 3.2e-10 40.7 3.2 1 86 2189 2259 2189 2260 0.84

21 28 9.3e-15 1.3e-11 45.2 0.7 1 86 2280 2352 2280 2353 0.81

22 28 0.00031 0.42 11.5 0.0 1 69 2379 2440 2379 2468 0.82

23 28 2.6e-15 3.6e-12 47.0 2.8 1 86 2566 2639 2566 2640 0.83

24 28 1.2e-07 0.00016 22.4 1.2 1 58 2690 2737 2690 2757 0.81

25 28 4.6e-14 6.2e-11 43.0 0.7 1 86 2780 2858 2780 2859 0.81

26 28 6.8e-07 0.00092 20.0 0.1 1 86 2883 2947 2883 2948 0.70

27 28 9.2e-14 1.3e-10 42.0 2.7 1 87 3258 3332 3258 3332 0.80

28 28 1.8e-12 2.4e-09 37.9 0.4 1 86 3358 3425 3358 3426 0.82

#	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	28	2.5e-10	3.4e-07	31.0	4.6	1	87	21	95	21	95	0.79
2	28	1.7e-11	2.3e-08	34.8	0.0	1	86	121	189	121	190	0.80
3	28	1.9e-13	2.7e-10	41.0	0.2	1	87	213	283	213	283	0.80
4	28	1.2e-17	1.6e-14	54.5	0.4	1	87	302	382	302	382	0.81
5	28	2.2e-09	2.9e-06	28.0	0.8	1	61	399	452	399	473	0.76
6	28	2.2e-11	3e-08	34.4	2.2	1	86	491	560	491	561	0.82
7	28	2.4e-13	3.2e-10	40.7	3.2	1	86	586	656	586	657	0.84
8	28	9.3e-15	1.3e-11	45.2	0.7	1	86	677	749	677	750	0.81
9	28	0.00031	0.42	11.5	0.0	1	69	776	837	776	865	0.82
10	28	2.6e-15	3.6e-12	47.0	2.8	1	86	1006	1079	1006	1080	0.83
11	28	1.2e-07	0.00016	22.4	1.2	1	58	1130	1177	1130	1197	0.81
12	28	4.6e-14	6.2e-11	43.0	0.7	1	86	1220	1298	1220	1299	0.81
13	28	6.8e-07	0.00092	20.0	0.1	1	86	1323	1387	1323	1388	0.70
14	28	2.5e-10	3.4e-07	31.0	4.6	1	87	1624	1698	1624	1698	0.79
15	28	1.7e-11	2.3e-08	34.8	0.0	1	86	1724	1792	1724	1793	0.80
16	28	1.9e-13	2.7e-10	41.0	0.2	1	87	1816	1886	1816	1886	0.80
17	28	1.2e-17	1.6e-14	54.5	0.4	1	87	1905	1985	1905	1985	0.81
18	28	2.2e-09	2.9e-06	28.0	0.8	1	61	2002	2055	2002	2076	0.76
19	28	2.2e-11	3e-08	34.4	2.2	1	86	2094	2163	2094	2164	0.82
20	28	2.4e-13	3.2e-10	40.7	3.2	1	86	2189	2259	2189	2260	0.84
21	28	9.3e-15	1.3e-11	45.2	0.7	1	86	2280	2352	2280	2353	0.81
22	28	0.00031	0.42	11.5	0.0	1	69	2379	2440	2379	2468	0.82
23	28	2.6e-15	3.6e-12	47.0	2.8	1	86	2566	2639	2566	2640	0.83
24	28	1.2e-07	0.00016	22.4	1.2	1	58	2690	2737	2690	2757	0.81
25	28	4.6e-14	6.2e-11	43.0	0.7	1	86	2780	2858	2780	2859	0.81
26	28	6.8e-07	0.00092	20.0	0.1	1	86	2883	2947	2883	2948	0.70
27	28	9.2e-14	1.3e-10	42.0	2.7	1	87	3258	3332	3258	3332	0.80
28	28	1.8e-12	2.4e-09	37.9	0.4	1	86	3358	3425	3358	3426	0.82

Sequence Information

Coding Sequence: ATGGCAAAACATGTACCAACCATAAATCTGAAGGAAGATTTTcagaaaaaggaagaaataTGTTGCTTGAAACATTGCGCCAGTTCAACAAAATGCCATGATAACGTTTTTTTGCTGTCGTTCCCCTTAAAACCTCAAGTTTTAATACGTAAATGGTGCTACAATACCAGAATCTCTCATAAAGTTAAGGGACTGAAATCCCTAAAGATCTGTAGCCTGCATTTCGAAAAGCAGGTCTTCTTTAGAGGTTGTTTACTGCGGATTAATGCTGTACCCACAATTAATCTGGGACATACGGGAAAGATTTATAAGAATCCCAAATCGTATCGCAtaataaatgtacaaaaaccGTTAGAAAAGTGTTGTATAGTTAGTTGCCAACAGGAGAGTGACAAGTTGTATAGTTTCCCGAAAAATTCCGAATTGCGTCGTATTTGGTCGAATAATTCGGGTATTGAGACTCGCTTAGCATTAAAGCAACAATTGAAATTATGCAAGCGACACTTCACCGCGGACAGTTTCATAAGTGGTGGTGATTCTTTGAAATTGGAAGCAGTACCCTTGTTGTATTTGGACGTGGACAAAAGTCAGCATTTGGTATTGGACATGTCTACGATGACACAAAACAATCCTCATTGTTTGATACATAATTGCGGCTGCATACCCAGCGTGGATAAGGTCAAATTGTATCCATTCCCCCAGGAGAAAGAGGTCTTGGAAAAATGGCTTTTCAATCTGCAACTGCCAGAGAACTACGCCCCCGAAAATGCTTACATATGTAGCCGCCACTTTGACAAGGCATTCATACAGCGCGGattattacataaaagtgCTGTACCAACAATATTTTTGGGACATTCTGGCGGATTTTATAGAAACGGTGATGATATATTTAACACACCCTGTGCTGTGCCTCATTGTAAGTATGATCTGAACGAAGAAGACGATGGTGCTCATGATGTGCGTTTAATGTATAAATTTCCGAAAGATTCGCAACGTTTGAAAAAgtggttggataacatacGTATTACGGATGATGTTTATCAAAAGCAAAAGAATCGCCGCATATGTTCAGAACATTTTGAAGAGATCTGTAAGGTGGCCGGTAAGGATACTTTGTTACCGCATTCAGTGCCCACTCTAAATTTAGGCTACAATCCAGCTGAAGTGCCGCATAgaaatcatcatcaaaattGTTGCTTTGATTCATGTAAACTTAAGGATAAATATTCCTCGATGACAATGCATAAATTGCCACAAAATGAGAAGATGCGTGCGTTGTGGTTGGAGGAACTTGATTCGAAAGATGATGCTATATCCAAGCAATTCTTATGTGCGGCACACTTTCTGGCTATTTATGAGAGAGTTAAAGAGAAACACAAAGTTTTTGTTAAGCAATTGAACGAGTACGAAGCTTTATCTAATGTGTACAGGGACCTTAAACAAAGCGATTTACTGCAAAGTTTCAAGTGTTCTATACCGCAATGCTCCACAGGCTTTAAACAGACCATTAAGCTATTCAAATTTCCCATGGATGGTAACCTTTTCAATAAATGGCAACATAATACCGGCTTACAATTTGACATGAGCCAACGCAGCTGCCATTTAATGTGCGCTCTACATTTCGAGCCGCGCTGCCTATGCGAAGTGCAATTGCATCGCTGGGCTATGCCCACCTTAGGATTACCCACATCTAACAGCTTGTACGTAAATCCACCCGAAGCCTTACCATCGGATCATGAAAATTTGCAACATTGTTGTGTGTCATCGTGCAGCTCAACACGGGGACCCTTCTTTCAATTCCccacaaaacaaattaatctAAAGAGATGGATACATAATTTGGGCTTGGGTACACAACAATGTACCACAAACCTACGTGTCTGTTATAagcattttgaaaaatactgCTTCATGAAACGTGAAGATCAAGCACTGACGTTAAAAATATGGTCCATTCCAACACTAAAACTACCCGCCAACCAGGACTTGTATAAAAATCCTATAGATAAAGTTTGCTATTTTTCGTGCAGCGTACCCGGCTGCAAACAGATACGCAATAGTACCGAAggtatttacttttattgtttccctaaaaataaaactttagaaAGGAACTGGCTTTTAAATACGGGCATAAAGCCGGGGAATTTTCGCGAAGATATGCGCATTTGTAGCTTGCACTTTGAACCAGAGTGCTTCCTAAAAGATTCTATGCAGCTAAGAAAGCATACAGTGCCCACTTTGAAACTACGTACAGCCaacaatttattacataaaaatccCATACGCAAAAAACTTCTTATCAAGAATACAACCGAAAAGTGTTTGGTAAAGTCTTGTACATATGCGGGGGACACATTATATGATCTGCCAAAAAATATCAGTGAATTGAAAAGCTTAGGCCGTAATTTAGAATTGGAAGACGTGCCATTGGATCAGCTGGAGAGGAAtttgaaaatatgtaaaaaacattacaacgAAGAATTGTTAAAAAGGCCAGACGAAATGAAAGCCAAGCCTTTAACTGCAGCAACAACGGACCCGAAAAGTTTTGCAACTGAACACAAAGAGGAAGAGGAGGAAAACACAAACAGAGAAGCTAATATGGAAAACTTTACAATTGAACAAGTGGATTTGACAAGCTATGAAGAACAAAACTTAGATAAAGCTGCGAAAACTATAAGAAACTTGGAGGATGGCGTCACTGTAACTACCTTTATTGATCCTTTGAGTGTAAAAGCTGAAAAGTTAGCGGAAAGAAAAGTCATACAAACAAAGAATTTAACTCACAAATACAAGCAATTTAATAACGATGGGGCTGCCACCACATCTCCCATCAAAACGGAAttgataaaagaaaataacaccCTTTGTAGGGTGGTATTGAAAAGGAAACTCTCCCTCTCCACGGAAACATCATTAAAAGTGTGCAAAATCGAAACCAGAATGAACCCCTTCAAAGAGTCCTCAAATGCACTAACAAATGATTCACCCTCCAACCTAACGCAAATATGTTGTGTGAAAAATTGTGGCAGCAAACAGAAAGACTCACCGGTTCAATTTACCGAATTTCCCAAAACAATtgccatttataaaaaatggttGCAAAACTTGCGCATACCGCACTCGCCCACTGTGCGACATTATTATCGCGTCTGTTGGCAACACTTTGAAACCGTTTGTTGTGGAAAGAATGGtttaaatggtttaaaaattGACTCAGTGCCAACATTAAAATTAGGACATAACAACACAGACATACATCCCTGTTTAGATGAAAATCTACCAAACACATCTAACCTACCACATCAGGGAGCTTCAATGCTAATGCAAACCCCAGCACTGACACTGGCACAACCAAAAccgaaatataatataaagaagtGTTCATATCCAGAGTGCaaaagtaataaaacaaaattgtacgATTTGCCGCCATTTCAGAAATTGTGCGAAAAATGGTGGCAGTCCATGCAGCTGTATTCCGAGCATGACAAAAGCCAAGCAAAAGTTTGCGACATACACTTTTACATGTTATACCATCAACATGAAGATATTGTGTACGCCATAAAGCGAGAACAGCCGGGCAAGTATGGGGAATTGAAAGAATTGTACGCAAGTATAGCGGCCAGGGGGAAAGTGATACGTCATAGATGCATTGTACCGAACTGTACAACCGATTATCTAATCAACAGTAGTCTGGATATTAAACTGTACAACTTCCCCTCCGAATACCAGCTGGCGCAGAAATGGTGCAGCAATTGCCAAATCGATTATGAGACCTGCATCAATGGGGATCGTGATCATAACTACAAGGTGTGTGCTTTACACTTTGAAACCTATTGTGTGGGTAATGACTTGAAATTATACAACTGGGCAGTACCGACCCTACGGTTGTTACATGTTGATTATAACCAACTATGTACCAACAATGCGGATGATGTATTTTCCACATCAGGCCGTTGTTGCATCAGGGACTGCATTAATGAAAATGGCTTAAAAACCAACACAAGATTCTATCGACTGCTTGACAAGTGGATACATGGCATTGATGCGAAACTGCTTAATTTGAATGAGTTGCGTATATGTGGTGTACACTTCTCGAAGCGATTCTTTAGAAAAGATAAAAGTTTAACAGCCCAGGCCACACCGTATCTACAAATAAATCCAAACAATGCCAATTTGCATCATCATACGCAAGACACAAGAACAACAGCTGCAAAGGAGGAAGCTGTTGAGCAAGTGGACGATTCTACAAATGCTGTTGTCACTGTTAAACAAGAAATTGAACACTGGGATGATTGGTACAACAGTGAACCAATAGACAGAGACGAGAGCATTGTCACACCTCAATacgaaattattaccataaagGAGGAAATCATTGATGATACGTATACCAATGACTTTCAAATGAATACGTCGTATGTAAATAccaatgatgataataataataaggatAATAATGATAAGGAGACTAGGCCACAAATTGTCGCCTGTTACTCACAACATCTACCCATCGATGAGACATTTATTAAGCAAGAAACTGATATAGATGAGAGAGATTACAAGATGGAGGAATCTATAATACCTGAACCAATCACTTTTCCATATCATAATAATGATGAGTCCGAAGCGATGCAAGAAAACGATCGTCACACAAATAGGAAGAGTATTGTAATGCCTTTAGAAATAATACCAACCATTAGCACAAATGAACTGAATGAGAATTAtgtgaatgtaaaaaaaagtaaaacgaTAAATGAGACAAATGCGCAAAGCACAGAATTATGTGAAATCAATTCAAATCAACAATTAGCAGACACAACAATAGCTACAGAAGATTTTcagaaaaaggaagaaataTGTTGCTTGAAACATTGCGCCAGTTCAACAAAATGCCATGATAACGTTTTTTTGCTGTCGTTCCCCTTAAAACCTCAAGTTTTAATACGTAAATGGTGCTACAATACCAGAATCTCTCATAAAGTTAAGGGACTGAAATCCCTAAAGATCTGTAGCCTGCATTTCGAAAAGCAGGTCTTCTTTAGAGGTTGTTTACTGCGGATTAATGCTGTACCCACAATTAATCTGGGACATACGGGAAAGATTTATAAGAATCCCAAATCGTATCGCAtaataaatgtacaaaaaccGTTAGAAAAGTGTTGTATAGTTAGTTGCCAACAGGAGAGTGACAAGTTGTATAGTTTCCCGAAAAATTCCGAATTGCGTCGTATTTGGTCGAATAATTCGGGTATTGAGACTCGCTTAGCATTAAAGCAACAATTGAAATTATGCAAGCGACACTTCACCGCGGACAGTTTCATAAGTGGTGGTGATTCTTTGAAATTGGAAGCAGTACCCTTGTTGTATTTGGACGTGGACAAAAGTCAGCATTTGGTATTGGACATGTCTACGATGACACAAAACAATCCTCATTGTTTGATACATAATTGCGGCTGCATACCCAGCGTGGATAAGGTCAAATTGTATCCATTCCCCCAGGAGAAAGAGGTCTTGGAAAAATGGCTTTTCAATCTGCAACTGCCAGAGAACTACGCCCCCGAAAATGCTTACATATGTAGCCGCCACTTTGACAAGGCATTCATACAGCGCGGattattacataaaagtgCTGTACCAACAATATTTTTGGGACATTCTGGCGGATTTTATAGAAACGGTGATGATATATTTAACACACCCTGTGCTGTGCCTCATTGTAAGTATGATCTGAACGAAGAAGACGATGGTGCTCATGATGTGCGTTTAATGTATAAATTTCCGAAAGATTCGCAACGTTTGAAAAAgtggttggataacatacGTATTACGGATGATGTTTATCAAAAGCAAAAGAATCGCCGCATATGTTCAGAACATTTTGAAGAGATCTGTAAGGTGGCCGGTAAGGATACTTTGTTACCGCATTCAGTGCCCACTCTAAATTTAGGCTACAATCCAGCTGAAGTGCCGCATAgaaatcatcatcaaaattGTTGCTTTGATTCATGTAAACTTAAGGATAAATATTCCTCGATGACAATGCATAAATTGCCACAAAATGAGAAGATGCGTGCGTTGTGGTTGGAGGAACTTGATTCGAAAGATGATGCTATATCCAAGCAATTCTTATGTGCGGCACACTTTCTGGCTATTTATGAGAGAGTTAAAGAGAAACACAAAGTTTTTGTTAAGCAATTGAACGAGTACGAAGCTTTATCTAATGTGTACAGGGACCTTAAACAAAGCGATTTACTGCAAAGTTTCAAGTGTTCTATACCGCAATGCTCCACAGGCTTTAAACAGACCATTAAGCTATTCAAATTTCCCATGGATGGTAACCTTTTCAATAAATGGCAACATAATACCGGCTTACAATTTGACATGAGCCAACGCAGCTGCCATTTAATGTGCGCTCTACATTTCGAGCCGCGCTGCCTATGCGAAGTGCAATTGCATCGCTGGGCTATGCCCACCTTAGGATTACCCACATCTAACAGCTTGTACGTAAATCCACCCGAAGCCTTACCATCGGATCATGAAAATTTGCAACATTGTTGTGTGTCATCGTGCAGCTCAACACGGGGACCCTTCTTTCAATTCCccacaaaacaaattaatctAAAGAGATGGATACATAATTTGGGCTTGGGTACACAACAATGTACCACAAACCTACGTGTCTGTTATAagcattttgaaaaatactgCTTCATGAAACGTGAAGATCAAGCACTGACGTTAAAAATATGGTCCATTCCAACACTAAAACTACCCGCCAACCAGGACTTGTATAAAAATCCTATAGATAAAGTTTGCTATTTTTCGTGCAGCGTACCCGGCTGCAAACAGATACGCAATAGTACCGAAggtatttacttttattgtttccctaaaaataaaactttagaaAGGAACTGGCTTTTAAATACGGGCATAAAGCCGGGGAATTTTCGCGAAGATATGCGCATTTGTAGCTTGCACTTTGAACCAGAGTGCTTCCTAAAAGATTCTATGCAGCTAAGAAAGCATACAGTGCCCACTTTGAAACTACGTACAGCCaacaatttattacataaaaatccCATACGCAAAAAACTTCTTATCAAGAATACAACCGAAAAGTGTTTGGTAAAGTCTTGTACATATGCGGGGGACACATTATATGATCTGCCAAAAAATATCAGTGAATTGAAAAGCTTAGGCCGTAATTTAGAATTGGAAGACGTGCCATTGGATCAGCTGGAGAGGAAtttgaaaatatgtaaaaaacattacaacgAAGAATTGTTAAAAAGGCCAGACGAAATGAAAGCCAAGCCTTTAACTGCAGCAACAACGGACCCGAAAAGTTTTGCAACTGAACACAAAGAGGAAGAGGAGGAAAACACAAACAGAGAAGCTAATATGGAAAACTTTACAATTGAACAAGTGGATTTGACAAGCCATGAAGAACAAAACTTAGATAAAGCTGCGAAAACTATAAGAAACTTGGAGGATGGCGTCACTGTAACTACCTTTATTGATCCTTTGAGTGTAAAAGCTGAAAAGGTGGTATTGAAAAGGAAACTCTCCCTCTCCACGGAAACAGTATTAAAAGTGTGCAAAATCGAAACCAGAATGAACCCCTTCAAAGAGTCCTCAAATGCACTAACAAATGATTCACCCTCCAACCTAACGCAAATATGTTGTGTGAAAAATTGTGGCAGCAAACAGAAAGACTCACCGGTTCAATTTACCGAATTTCCCAAAACAATtgccatttataaaaaatggttGCAAAACTTGCGCATACCGCACTCGCCCACTGTGCGACATTATTATCGCGTCTGTTGGCAACACTTTGAAACCGTTTGTTGTGGAAAGAATGGtttaaatggtttaaaaattGACTCAGTGCCAACATTAAAATTAGGACATAACAACACAGACATACATCCCTGTTTAGATGAAAATCTACCAAACACATCTAACCTACCACATCAGGGAGCTTCAATGCTAATGCAAACCCCAGCACTGACACTGGCACAACCAAAAccgaaatataatataaagaagtGTTCATATCCAGAGTGCaaaagtaataaaacaaaattgtacgATTTGCCGCCATTTCAGAAATTGTGCGAAAAATGGTGGCAGTCCATGCAGCTGTATTCCGAGCATGACAAAAGCCAAGCAAAAGTTTGCGACATACACTTTTACATGTTATACCATCAACATGAAGATATTGTGTACGCCATAAAGCGAGAACAGCCGGGCAAGTATGGGGAATTGAAAGAATTGTACGCAAGTATAGCGGCCAGGGGGAAAGTGATACGTCATAGATGCATTGTACCGAACTGTACAACCGATTATCTAATCAACAGTAGTCTGGATATTAAACTGTATAACTTCCCCTCCGAATACCAGCTGGCGCAGAAATGGTGCAGCAATTGCCAAATCGATTATGAGACCTGCATCAATGGGGATCGTGATCATAACTACAAGGTGTGTGCTTTACACTTTGAAACCTATTGTGTGGGTAATGACTTGAAATTATACAACTGGGCAGTACCGACCCTACGGTTGTTACATGTTGATTATAACCAACTATGTACCAACAATGCGGATGATGTATTTTCCACATCAGGCCGTTGTTGCATCAGGGACTGCATTAATGAAAATGGCTTAAAAACCAACACAAGATTCTATCGACTGCTTGACAAGTGGATACATGGCATTGATGCGAAACTGCTTAATTTGAATGAGTTGCGTATATGTGGTGTACACTTCTCGAAGCGATTCTTTAGAAAAGATAAAAGTTTAACAGCCCAGGCCACACCGTATCTACAAATAAATCCAAACAATGCCAATTTGCATCATCATACGCAAGACACAAGAACAACAGCTGCAAAGGAGGAAGCTGTTGAGCAAGTGGACGATTCTACAAATGCTGTTGTCACTGTTAAACAAGAAATTGAACACTGGGATGATTGGTACAACAGTCAACCAATAGACAGAGACGAGAGCATTGTCACACCTCAATacgaaattattaccataaagGAGGAAATCATTGATGATACGTATACCAATGACTTTCAAATGAATACGTCGTATGTAAATAccaatgatgataataataataaggatAATAATGATAAGGAGACTAGGCCACAAATTGTCGCCTGTTACTCACAACATCTACCCATCGATGAGACATTTATTAAGCAAGAAACTGATATAGATGAGAGAGATTACAAGATGGAGGAATCTATAATACCTGAACCAATCACTTTTCCATATCATAATAATGATGAGTCCGAAGCGATGCAAGAAAACGATCGTCACACAAATAGGAAGAGTATTGTAATGCCTTTAGAAATAATACCAACCATTAGCACAAATGAACTGAATGAGAATTAtgtgaatgtaaaaaaaagtaaaacgaTAAATGAGACAAATGCGCAAAGCACAGAATTATGTGAAATCAATTCAAATCAACAATTAGCAGACACAACAATAGCTACAGTAAGCAGCCCTTTAATGTCGATCAACAGCACACTTAACCAGGATGTTAACttcaataaaacaacaacaacaacaacatcatatgAAAATCGTTTCCAtcatattattacaacaatatcattaaatacaaaaaatgttgcTGATGAAAATCATAAAACATCTACAGCCACCTCTTCAATCCGTGTAGTGGCACCGGCCGCCTCCAACCAATCAATGATTAATCCCGTTTTTAAATTACACATTCTAACATGTTGTGTGGCCAGTTGTTTAAATTCCACCCAAACACCGCTAATTAAACTTTACACGGAATTCCCATCCGACTCGGatctatttataaaatggtgtttcaatttgaaaattgATCCGCGTCACTATAGAGAGCACTTGTATGCGGTGTGTAGTGCTCATTTTGATAGTGTTTGCTTTAAAGAGAGCAATCGCTCCTTACAGCCCTGGGCTGTACCAACATTAAATTTAGGTTTGCCCCACAATTCCTTCATACACCAATACGATATGCCGCATAGTTTGAAAGCAACAAATGAACAACAATGCATTGTATGGGGTTGTCATCAATCGCAAACACCTTTCTATCCATTTCCGGCTGATCCCCAGCAGTCCCGTAAATGGTTTACCAATTTACAGTTAGAATATACCGAATTTCGTGCACAAACGTATCGTGTTTGTCGCAAGCATTTTAACAATTCATTAATCGATGAGCATGGCCAGTTAGATAATGAGGCTTTGCCCACCTTAGATTTGAACCATAATAATAGTGATAATAATAGTGTCGGGTGTGCTCAGTCGCATAATGTTGATAGTGAAAATTTTAGGGCAGTACGTTTGGCAGCCGCTTTGGCACCACAAGATTTAGAAGATCACGACAGTAGTTATTATGAGGATTTTGAAGAGTGCCTGCAACACAATGAAcaggaaaattga
Protein Sequence: MAKHVPTINLKEDFQKKEEICCLKHCASSTKCHDNVFLLSFPLKPQVLIRKWCYNTRISHKVKGLKSLKICSLHFEKQVFFRGCLLRINAVPTINLGHTGKIYKNPKSYRIINVQKPLEKCCIVSCQQESDKLYSFPKNSELRRIWSNNSGIETRLALKQQLKLCKRHFTADSFISGGDSLKLEAVPLLYLDVDKSQHLVLDMSTMTQNNPHCLIHNCGCIPSVDKVKLYPFPQEKEVLEKWLFNLQLPENYAPENAYICSRHFDKAFIQRGLLHKSAVPTIFLGHSGGFYRNGDDIFNTPCAVPHCKYDLNEEDDGAHDVRLMYKFPKDSQRLKKWLDNIRITDDVYQKQKNRRICSEHFEEICKVAGKDTLLPHSVPTLNLGYNPAEVPHRNHHQNCCFDSCKLKDKYSSMTMHKLPQNEKMRALWLEELDSKDDAISKQFLCAAHFLAIYERVKEKHKVFVKQLNEYEALSNVYRDLKQSDLLQSFKCSIPQCSTGFKQTIKLFKFPMDGNLFNKWQHNTGLQFDMSQRSCHLMCALHFEPRCLCEVQLHRWAMPTLGLPTSNSLYVNPPEALPSDHENLQHCCVSSCSSTRGPFFQFPTKQINLKRWIHNLGLGTQQCTTNLRVCYKHFEKYCFMKREDQALTLKIWSIPTLKLPANQDLYKNPIDKVCYFSCSVPGCKQIRNSTEGIYFYCFPKNKTLERNWLLNTGIKPGNFREDMRICSLHFEPECFLKDSMQLRKHTVPTLKLRTANNLLHKNPIRKKLLIKNTTEKCLVKSCTYAGDTLYDLPKNISELKSLGRNLELEDVPLDQLERNLKICKKHYNEELLKRPDEMKAKPLTAATTDPKSFATEHKEEEEENTNREANMENFTIEQVDLTSYEEQNLDKAAKTIRNLEDGVTVTTFIDPLSVKAEKLAERKVIQTKNLTHKYKQFNNDGAATTSPIKTELIKENNTLCRVVLKRKLSLSTETSLKVCKIETRMNPFKESSNALTNDSPSNLTQICCVKNCGSKQKDSPVQFTEFPKTIAIYKKWLQNLRIPHSPTVRHYYRVCWQHFETVCCGKNGLNGLKIDSVPTLKLGHNNTDIHPCLDENLPNTSNLPHQGASMLMQTPALTLAQPKPKYNIKKCSYPECKSNKTKLYDLPPFQKLCEKWWQSMQLYSEHDKSQAKVCDIHFYMLYHQHEDIVYAIKREQPGKYGELKELYASIAARGKVIRHRCIVPNCTTDYLINSSLDIKLYNFPSEYQLAQKWCSNCQIDYETCINGDRDHNYKVCALHFETYCVGNDLKLYNWAVPTLRLLHVDYNQLCTNNADDVFSTSGRCCIRDCINENGLKTNTRFYRLLDKWIHGIDAKLLNLNELRICGVHFSKRFFRKDKSLTAQATPYLQINPNNANLHHHTQDTRTTAAKEEAVEQVDDSTNAVVTVKQEIEHWDDWYNSEPIDRDESIVTPQYEIITIKEEIIDDTYTNDFQMNTSYVNTNDDNNNKDNNDKETRPQIVACYSQHLPIDETFIKQETDIDERDYKMEESIIPEPITFPYHNNDESEAMQENDRHTNRKSIVMPLEIIPTISTNELNENYVNVKKSKTINETNAQSTELCEINSNQQLADTTIATEDFQKKEEICCLKHCASSTKCHDNVFLLSFPLKPQVLIRKWCYNTRISHKVKGLKSLKICSLHFEKQVFFRGCLLRINAVPTINLGHTGKIYKNPKSYRIINVQKPLEKCCIVSCQQESDKLYSFPKNSELRRIWSNNSGIETRLALKQQLKLCKRHFTADSFISGGDSLKLEAVPLLYLDVDKSQHLVLDMSTMTQNNPHCLIHNCGCIPSVDKVKLYPFPQEKEVLEKWLFNLQLPENYAPENAYICSRHFDKAFIQRGLLHKSAVPTIFLGHSGGFYRNGDDIFNTPCAVPHCKYDLNEEDDGAHDVRLMYKFPKDSQRLKKWLDNIRITDDVYQKQKNRRICSEHFEEICKVAGKDTLLPHSVPTLNLGYNPAEVPHRNHHQNCCFDSCKLKDKYSSMTMHKLPQNEKMRALWLEELDSKDDAISKQFLCAAHFLAIYERVKEKHKVFVKQLNEYEALSNVYRDLKQSDLLQSFKCSIPQCSTGFKQTIKLFKFPMDGNLFNKWQHNTGLQFDMSQRSCHLMCALHFEPRCLCEVQLHRWAMPTLGLPTSNSLYVNPPEALPSDHENLQHCCVSSCSSTRGPFFQFPTKQINLKRWIHNLGLGTQQCTTNLRVCYKHFEKYCFMKREDQALTLKIWSIPTLKLPANQDLYKNPIDKVCYFSCSVPGCKQIRNSTEGIYFYCFPKNKTLERNWLLNTGIKPGNFREDMRICSLHFEPECFLKDSMQLRKHTVPTLKLRTANNLLHKNPIRKKLLIKNTTEKCLVKSCTYAGDTLYDLPKNISELKSLGRNLELEDVPLDQLERNLKICKKHYNEELLKRPDEMKAKPLTAATTDPKSFATEHKEEEEENTNREANMENFTIEQVDLTSHEEQNLDKAAKTIRNLEDGVTVTTFIDPLSVKAEKVVLKRKLSLSTETVLKVCKIETRMNPFKESSNALTNDSPSNLTQICCVKNCGSKQKDSPVQFTEFPKTIAIYKKWLQNLRIPHSPTVRHYYRVCWQHFETVCCGKNGLNGLKIDSVPTLKLGHNNTDIHPCLDENLPNTSNLPHQGASMLMQTPALTLAQPKPKYNIKKCSYPECKSNKTKLYDLPPFQKLCEKWWQSMQLYSEHDKSQAKVCDIHFYMLYHQHEDIVYAIKREQPGKYGELKELYASIAARGKVIRHRCIVPNCTTDYLINSSLDIKLYNFPSEYQLAQKWCSNCQIDYETCINGDRDHNYKVCALHFETYCVGNDLKLYNWAVPTLRLLHVDYNQLCTNNADDVFSTSGRCCIRDCINENGLKTNTRFYRLLDKWIHGIDAKLLNLNELRICGVHFSKRFFRKDKSLTAQATPYLQINPNNANLHHHTQDTRTTAAKEEAVEQVDDSTNAVVTVKQEIEHWDDWYNSQPIDRDESIVTPQYEIITIKEEIIDDTYTNDFQMNTSYVNTNDDNNNKDNNDKETRPQIVACYSQHLPIDETFIKQETDIDERDYKMEESIIPEPITFPYHNNDESEAMQENDRHTNRKSIVMPLEIIPTISTNELNENYVNVKKSKTINETNAQSTELCEINSNQQLADTTIATVSSPLMSINSTLNQDVNFNKTTTTTTSYENRFHHIITTISLNTKNVADENHKTSTATSSIRVVAPAASNQSMINPVFKLHILTCCVASCLNSTQTPLIKLYTEFPSDSDLFIKWCFNLKIDPRHYREHLYAVCSAHFDSVCFKESNRSLQPWAVPTLNLGLPHNSFIHQYDMPHSLKATNEQQCIVWGCHQSQTPFYPFPADPQQSRKWFTNLQLEYTEFRAQTYRVCRKHFNNSLIDEHGQLDNEALPTLDLNHNNSDNNSVGCAQSHNVDSENFRAVRLAAALAPQDLEDHDSSYYEDFEECLQHNEQEN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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