Basic Information

Insect: Collessia kirishimana
Gene Symbol: -
Assembly: GCA_035078785.1
Location: JAWNPV010000203.1:16406-28268[-]

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 26 2.6 9.5e+03 -1.7 0.6 52 64 139 153 119 169 0.63

2 26 1.9 6.7e+03 -1.2 0.6 17 61 178 225 165 247 0.59

3 26 1.8e-15 6.3e-12 46.9 4.4 1 86 364 436 364 437 0.84

4 26 1.5e-15 5.4e-12 47.1 3.7 1 86 464 532 464 533 0.83

5 26 1.1e-15 3.9e-12 47.6 0.2 1 87 555 627 555 627 0.84

6 26 1e-15 3.6e-12 47.7 5.9 1 87 718 788 718 788 0.83

7 26 2.4e-15 8.5e-12 46.5 3.3 1 86 812 883 812 884 0.82

8 26 4.9e-13 1.8e-09 39.1 1.2 1 87 919 987 919 987 0.80

9 26 1.2e-10 4.3e-07 31.4 1.6 1 86 1030 1099 1030 1100 0.76

10 26 1.9e-16 6.8e-13 50.0 0.2 1 86 1127 1196 1127 1197 0.82

11 26 2.1e-13 7.5e-10 40.2 1.4 1 87 1218 1288 1218 1288 0.81

12 26 2.7e-14 9.7e-11 43.1 1.4 1 86 1315 1386 1315 1387 0.84

13 26 5.6e-14 2e-10 42.1 1.6 1 86 1465 1534 1465 1535 0.83

14 26 7.3e-13 2.6e-09 38.5 0.6 1 86 1558 1626 1558 1627 0.82

15 26 4.1e-14 1.5e-10 42.5 0.4 1 87 1740 1809 1740 1809 0.79

16 26 1.1e-15 4.1e-12 47.5 1.4 1 86 1892 1961 1892 1962 0.83

17 26 2.4e-13 8.6e-10 40.1 1.2 1 86 1997 2068 1997 2069 0.82

18 26 0.00043 1.5 10.4 0.1 1 41 2080 2121 2080 2133 0.80

19 26 0.00038 1.4 10.6 0.0 19 58 2134 2172 2125 2189 0.85

20 26 2.5e-14 8.8e-11 43.2 0.4 1 86 2210 2281 2210 2282 0.81

21 26 1.5e-15 5.5e-12 47.1 0.6 1 87 2433 2507 2433 2507 0.84

22 26 9.6e-13 3.4e-09 38.1 3.8 1 87 2579 2650 2579 2650 0.81

23 26 1.9e-14 6.9e-11 43.6 5.1 1 86 2784 2854 2784 2855 0.85

24 26 5.6e-14 2e-10 42.1 0.1 1 87 2932 3002 2932 3002 0.84

25 26 2.3e-09 8.4e-06 27.3 3.0 1 58 3024 3074 3024 3078 0.86

26 26 9.9e-11 3.5e-07 31.7 1.2 6 87 3084 3149 3077 3149 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	26	2.6	9.5e+03	-1.7	0.6	52	64	139	153	119	169	0.63
2	26	1.9	6.7e+03	-1.2	0.6	17	61	178	225	165	247	0.59
3	26	1.8e-15	6.3e-12	46.9	4.4	1	86	364	436	364	437	0.84
4	26	1.5e-15	5.4e-12	47.1	3.7	1	86	464	532	464	533	0.83
5	26	1.1e-15	3.9e-12	47.6	0.2	1	87	555	627	555	627	0.84
6	26	1e-15	3.6e-12	47.7	5.9	1	87	718	788	718	788	0.83
7	26	2.4e-15	8.5e-12	46.5	3.3	1	86	812	883	812	884	0.82
8	26	4.9e-13	1.8e-09	39.1	1.2	1	87	919	987	919	987	0.80
9	26	1.2e-10	4.3e-07	31.4	1.6	1	86	1030	1099	1030	1100	0.76
10	26	1.9e-16	6.8e-13	50.0	0.2	1	86	1127	1196	1127	1197	0.82
11	26	2.1e-13	7.5e-10	40.2	1.4	1	87	1218	1288	1218	1288	0.81
12	26	2.7e-14	9.7e-11	43.1	1.4	1	86	1315	1386	1315	1387	0.84
13	26	5.6e-14	2e-10	42.1	1.6	1	86	1465	1534	1465	1535	0.83
14	26	7.3e-13	2.6e-09	38.5	0.6	1	86	1558	1626	1558	1627	0.82
15	26	4.1e-14	1.5e-10	42.5	0.4	1	87	1740	1809	1740	1809	0.79
16	26	1.1e-15	4.1e-12	47.5	1.4	1	86	1892	1961	1892	1962	0.83
17	26	2.4e-13	8.6e-10	40.1	1.2	1	86	1997	2068	1997	2069	0.82
18	26	0.00043	1.5	10.4	0.1	1	41	2080	2121	2080	2133	0.80
19	26	0.00038	1.4	10.6	0.0	19	58	2134	2172	2125	2189	0.85
20	26	2.5e-14	8.8e-11	43.2	0.4	1	86	2210	2281	2210	2282	0.81
21	26	1.5e-15	5.5e-12	47.1	0.6	1	87	2433	2507	2433	2507	0.84
22	26	9.6e-13	3.4e-09	38.1	3.8	1	87	2579	2650	2579	2650	0.81
23	26	1.9e-14	6.9e-11	43.6	5.1	1	86	2784	2854	2784	2855	0.85
24	26	5.6e-14	2e-10	42.1	0.1	1	87	2932	3002	2932	3002	0.84
25	26	2.3e-09	8.4e-06	27.3	3.0	1	58	3024	3074	3024	3078	0.86
26	26	9.9e-11	3.5e-07	31.7	1.2	6	87	3084	3149	3077	3149	0.74

Sequence Information

Coding Sequence: atgttttgttttacagCGGAACCAATTGATGAGCATACGTATAAGTCCAATTATATAGACGATAATACACCGTTCGCCGACTTTAGCAAATTTCCAGAATTTGATGAAGAGATGATAAGTCCGAAAGTCGAGTTAACCATTAAGGACGAGTCTTACGGCAGCAGTATTGAGCACCAGATAAATTATCCACGGCGGAAGTTGCAAACCGATCACTCATCTGGGAGTTTACCTATATGCCAACGCTGCAAAGAAGTTTTCTTTAAGCAGCAAACTTATTTGCAGCACGTGGCTAACAGCAGTTGCAGTATCCATGAATATGACTTCAAATGCAGCATTTGTCCCATGTCTTTCATGGGTGCCGATGAATTGCAAGATCATAAGCTTTTGCATAAAGTAGACAAGTTCTTCTGTCTCAAATACTGTGGAAAGCACTTTGATACGGTTGCCGAGTGCGAATCCCATGAATATATGCAGCATGAATACGAAAATTTTGCTTGCAATatGTGCTCAGGGATGTTTTCCACCAGGGAGCAGCTCTACACTCATTTGACACTGCATAAGTTCCAGCAGCGCTACGATTGTCCTATATGCCGGTTATGGTACCAAACGGCCCAAGACCTGCACGAGCATCGCTTAGCAGCGCCTCACTACTGCGGAAAATACTATAGAGAAAGTGAATTACAATCCACATCACAGCAACAGCGTCAATCACAGGAGCCACAAGTCAACTACAAACTTCAGGATTGTCATATGGGCACGATTGAAATGCCATCAACACCCCACAAGTCTGGCTCATCTGCCTTATCTTTACCCGCAACGGCAGCGCTTAGCTCGTTGCTACAACAGCGTCAGGTGAATGCAGATGGACCGACAGCTCTATTTGGTGCGTCCTCCtcaccatcatcattaaaAAGTGAAGTGAATGTAAAACTAGAAAGAAGTTATAGCAATTCCACCAGTGAGTCGACATACAGTTTACACGACAACAGTTATAATGCTTATGGCAGTGATACTTCTATCCATGGCGGCGTGGCTATTGGTGGTCCACAAGCACATTCCTCGACGCTGGACGATTCGGAAGACGCACTGTGTTGTGTACCTTTATGCGGAGTGAGAAAGAGCACTAGTCCCACGCTGCAGTTTTTTACGTTCCCCAAGGACGATAAATATATGCAACAGTGGTTGCATAACCTTAAAATGTTCCACATTCCGACGTCTAATTACGCGAGTTTTCGCATTTGCAGCATGCACTTTCCAAAGCGCTGTATTAATCGGTATTCCCTCTGCTATTGGGCGGTGCCCACTTTTAACTTGGGCCACGATGATGTTGCAAATCTCTACCAGAATCGAGAGCTCACCAATACGTTTACTACTGGTGAGGTTGCTCGTTGCAGTATGCCCAACTGCAACAGCCAGCGAGGAGAAAGTAATTTGAAGTTTTATAACTTCCCAAAGGACATCAAAAGTCTGATAAAGTGGTGTCAAAACGCTCGTCTTCCTGTTCAAGCCAAGGAGCCGCGTCACTTTTGCAGCCGACATTTTGAAGAGCGTTGTATTGGAAAGTTTCGCTTGAAGCCGTGGGCAGTGCCAACGCTGTACCTGGGTGCTCAGTGCAGTAAGATTCACGACAATCCAAAGAATCTTTACGTCGAGGAAAAACGATGTTGCCTAAATTTTTGTCGTCGCAGTCGCTCCACAGACTTTAATATGTCTCTCTATCGATTTCCCAGAGATGAAGTTCTCTTACGGCGTTGGTGCTACAACCTTCGTCTTGACCCTGGCGTGTACCGGGGAAAGAATCATAAAATATGTAGTGCGCACTTTATTAAAGAGGCGTTAGGGCTACGTAAACTATCTCCTGGTGCTGTTCCGACCCTTCATCTGGGTCACAATGACACCTTTAACATCTATGAGAACGAGCTTTGGCCTCCGCCGGTGCCTAATTCATCCAGCAGTCAGCACCAGATACAACTGGTTTCGCATCAGCATCAAGGTCATCACAGTAAATCATATCATCGGCACTCTGCTGCATCTACTTCATCATCTGCTAGTTCGACATCCCATTATTTGGACCCAGAATCGAGTACAGCTTATGCCAACGTAACCATTGGTGGTGGTTCATCCTTGAATGTAACAGATAGTATGGATGTTTGTTGTGTCCCCAAATGTGAAAGTAAGCGTCATAATAATGAGAATATTACATTCCACACGATTCCCAGAAGACCTGAGCAGATGAGCAAGTGGTGCCATAATCTTAAGATACCAGAAGACAAAATGCATAAGGGAATGAGAATTTGCAGCTTGCATTTCGAACCGTACTGTATTGGGGGATGCATGCGACCATTTGCAGTGCCTACTCTTCATTTGGGACATGACGATGAGAACATACATCGTAATCCGGATGTGATTAAGAAACTCAATATAAGAGAGACTTGTTGTGTTGCGGTGTGCAAACGTAACAGAGATAGAGATCATGCTAATCTGCATCGTTTTCCCAGCAATGCGGCTCTCCTAACCAAATGGTGTGCCAATCTTCAACGGCCAGTTCCAGATGGCAGCAAGTTATTTAACGACGCTATATGTGAGGTTCACTTTGAAGATCGTTGCTTACGCAACAAGCGACTGGAAAAGTGGGCAGTGCCCACCTTGGTTTTGGGCCATGAGGACATCGCCTATCCTTTGCCCACACTGGAACAGGTAACCGAATTTTACGCCCGCCCCAGTGCACCTAATAATGGCGAGGAACAGGGCGAGTGCTGTGTGAATACCTGCAAGCGTAACCCTAGTGTGGATGACATTAAGCTTTATCGACCGCCGGAAGAAACCGAAGTGCTCGCAAAATGGGCACACAATTTGCAGCTCGAGCTTTCTCAGCTACCAAGCttgaaaatttgcaatttgcattttgagtCCCATTGCATTGGCAAACGGATGAGACCTTGGGCTGTACCGACTCTTAATCTGGCTGCGAGCATTGAAAATCTTAATGAAAACCCTGAGCATACAATGTTGTACAAGCGGCGTAGCCACTTAAGATCGGATATCGGCCCCACTAGGACCGGCACAAAACCCACTTGGGTGCCGCGGTGCTGTCTTTCCCATTGTCGTAAGGTCCGAGCTCTGCATAACGTCCAGCTGTATCGCTTTCCTAAACTAAACCGCTCTACCTTAGCCAAATGGGCGCATAATCTGCAGGTGCCAATGATGGGCAGTGCTCAGCGTCGCGTTTGTTCCGCTCATTTTGAGCCACATGTTCTCAGCAAAAAATGTCCCGTACCACTGGCGGTACCTACTCTGGACCTAAATAGTCCACTTACCTACAAGATTTATCAGAATCCCGCCAAGCTGAAGGCAAACAAGTTGTGTCTTCAGCGCGTTTGTATTGTGGAAAGCTGCCGTCGTCAGCGGTCACAAGGCGTGCAACTCTTTCGACTTCCCCATAGTCCAACGCAGCTGCGAAAGTGGATGCATAATATTCAAGTGCGACCCAGGGGAGTTATGCGCACTCAATATCGGATTTGTTCCATGCATTTTGAATCTCATTCGTTCAATGGAAAGCGGCTGAGTGCCGGTGCCATTCCCACACTGGAATTGGGTCACAACGAAGACAATATCTATCCAAATGAGGCCCAAGCTTTTGTTGATGAACATTGTGCTGTAGAGGGATGCGATGCCTCCAAAGAACAGGCAGACGTGCGGCTTTTCCGCTTTCCTACAGAAGACGATGATCTTCTTTGGAAGTGGTgtaataatttgaaaatgaatcCCGTGGACTGTGTCGGCGTGCGTATCTGCAATAAACACTTCGAGACGGACTGTATCGGCCCAAAGCATCTTTACAAATGGGCCATTCCCACAATGCATCTGGGCCACGATGTGACCCAGATTGAGCTTATTTTGAATCCGAAACCTGAGGAACGATATGTAGATCCCGTATTTAAGTGTTGTGTGCCGACTTGTGGCAAGACACGTAAATTTGACGAGGTTCAGATGAACAGCTTTCCTAAGGATCTAACTCTCTTCCAGCGATGGCGTCACAACCTCCGTCTCAATCACCTTGATTTTAAGAAGCGCGAGTTATACAAGATATGCAATACGCACTTTGAAGACATTTGCATAGGTAAAACGCGTTTGAATGTTGGCTCAATACCTACCCTGGAATTGGGGCATGATAAGACAAATGATCTGTTTCAAGTTAATCCAAGTGATCtacaaagtaatttatttgGGCGCCCGCGAAAACTACTGGAGTCACCATtagaaaatagtttaaagCAAGATccagaaaaagaagaagaggaagatgTCGTGTCAAATCTAGCTGCAATGGAAGAAGCTACCAATTTAAATACCACTCTGgtaaaaattaaaaaatctctggCGGACTTAAAGTGTTGCGTTCACAGCTGTGGTCGCAGTCGTTTAGAACATGGAGCCCGTCTTTTCGCATttccaaatggcaaacagcagcaaaacaaatggcGCCATAATTTGCGGATAGAATCTGGCGAAATTGACAAGATGACACGCATATGTAGCGCTCACTTTAACAGGAGATGTATTAATGGGAAGCAGTTAATGAGCTGGGCCATACCTACACTGCAGTTGGGTCACCAGGAGCAGCCCATTTACGAGAACCCGAAAAATATTCCCGGTTTTTTCACGCCTACTTGTGCCCTGAGCCATTGCCGAAAAAGGCGTAGTATTGACAATGTTTTGCGCACATATCGATATCCGAAGTGCCAAGAACTGCTGGAGAAGTGGCGGGTAAATTTAAGATTGGAGCCAGATCAATGTCGGGGCCGCATTTGCGCTGATCACTTCGAGCCGCAAGTTAGGGGAAAGTTAAAGCTTAAAACTGGGGCTGTGCCCACCCTAAAATTGGGGCATGATGGAGACGTAATCTACAACAACGAGTCTATCAAGGTAGAAGAAGAAGCTAACTTGGAATCGCCGTCAGTGTTGTTCAACCtagaattaaatgaaaagctaGAGAAACAGAAGGGCccagaagaaaaagaagatgAAGACGAGGAGCAGGAACATAACTTCTTTGATCCTCTTGAATTGGTTGAGACTTATGCTGAGCAAAATAGTGATAATGACCACGACATGTTTGAGCCTGAACAATTGCTCCCAGATACGCCCCCTCCGCATATTTTGCCTATAGCTTTGTCGCGTCCTCGGGAAAAGCCGCCAAACAATGTGACTCCCATTTGCTGCCTAAAGCACTGTCGCAAGGAACGTACACCGACGTATCAGTTAAGTACTTTTGGATTTCCAAAAGATCaacaattgttattaaaatggtGTGCCAACCTTAATCTGGATCCCGGCGATTGCATTGGACGAGTTTGTATTGAGCATTTTGAAGGGGAAGTGCTTGGTAGCCGCAAGTTAAAGCAGAATGCTGTCCCTACTTTGAATGTGGGCCACACCAGCCCACTGCCGTACACTCATAATGGCCAGGAACGGCTTCTATCCCCTTCCAATCGACCTATTTATGATGAGCAGCCCAAACATTCGGTTTTTCGGATTTTTAGCCTAAAACACTGCCGCAAGAGGATACCAACGGAGCCGCCTGACAATAAAATGAGCTTCCCATTAAaaatgtCTCAGTTAAGTAGTCCGAGCATCAGTGCCAGTCCCAGTCCGCGTGCCAGGCTAAAGATCTGCTGCATTCCAAATTGTGGCCAGCAGACTAATTCACAGACGCGTCTATACCGTTTTCCCACAACAGAGTCATCGCTGTTAAAATGGCTGGTTAACACTCAACAACAGCTACGTTATGTAGAAGCACAAAATTTATACGTATGCCAGGTACATTTCGAACCCGAAGCCATATGCAAAAAGCAGCTTCGGAGTTGGGCTGTTCCAACTCTGCAACTTGGTCACGATGGTCATGTCATACCCAATGCAAAGCACAATGGCAACATAGCTGACAGCCAAGAAAATGAACAAGTTCTGGAACTTATTAGGAAGAATTACTGTTCGGTTCTGACTTGTTTTCAGCTCCGCAGTGAAAAGCTTCGACTCTATAGGTATCCAAAGGATATGCCCACCATTCGGAAATGGGCAGCTAACTGCAAGCATCGATCTATGCAAGCCAGCAGTCATGGATTTCAGGTGTGCCAGTCGCATTTTACTCCGGACTGTTTTGACGCCAGTACAGGAGAATTGCACGAAGACGCAGTGCCTACTTTAGAGCTTGCCAAGAATACCACCAATGAGTTACGTTGCATAGTGCTGCGTTGTATGAACGAAGAAGGGTCGATTGCCCCATCTGGACGACGCCGTTTTCAAAAGGTTCCAAAGCGAACAACACAACTTAACGAATGGTGCCACAATCTCCATCTGGATGCGGCTGCGTTATCGGAACTTCAAAAGAACTATTTACGAATGGTATATAACTTGCCCAAAGCAGAGCAATTGCGTCATTCTTGGCTTAAACATATGGGCATAGAGGAGTGCGTCGCATCAGAGTATCAGCTACTAAAACTCTGCCCGCTACACTTCATAATATTATATGATTACAGCGCTGCCTACTTTTCAGAGCATAATGCTGAAATGCTAATGGCCAGCGACTACGAGGATGCCAAGAACAGTGTTCGAATACGTCTTATTACCTGTGCTGTAAAGTCCTGCAGCACCTTGCAGCCACGGGATGGTGGTCGTCTGCATGGTCTTCCCCAACGTAGAGACCTGCTTCAAATGTGGTTGAACAATACTCAGTTATCATTTTCAGAACAACATCGGTATATGCTTAAGGTTTGCAGTAAGCATTTTGAGGCAAGATGCTTTACAGATATTCGTAAGCTTAAACCTTGGAGTGTGCCTACGCTAGATCTTCCAGCTCAGGAAGCCACCGTCGATTGTGACAGTGTTTATGTTGTGTACCAAAATCCTACAGAAGCTGAATGGCATGACATGAATGACCGATTGGCTAAAGAATCTAACAAAGCAAAGACAGAAGAAGtacaattggaaaatattatgcTGAAGCCTTCTGTGCTGATGGAACCTATTAAAGAGCAACCAGAGGAGATGCTGCAGGTAAAGCAGGAACCGACCCCGACCACTTACGACTTCGAAAATACCCTAAACCCTCAACAGCCACTGGAAATGCAGGAACTGGAAGTACTACTGGAGGTCGGACATGTGGAAAAATGTGCCAGCTATGAACAGATGGATATAGATACTCCCCTTTTGGATGCAGTTGCCCCAACTGCTCGAAAAACGGGTTTTGTATATAGCTCGGTCAATAGTCAAAGTCGTGGTCAGTATAACGCGCGGCATTGCAGCGTACAGGGTTGTAAGGTGTCTGCTAGTGACACAGATGGGGTATCCATTAAACTTCATAAGTTTCCCACCTCCGTAGAGGCTTCTAAAAAGTGGATGCATAACACCCGTGTAGATGTCGATGCTAATTACTCATGGCGCTATCGTATATGTAGCTATCATTTTGAACAGGATTGTTTTAATGGTTCCAGAATTAGGCGTGGTTCGATGCCAACTCTACATTTGGGTCCACAAATGCCGCAAGAAATTTACTACAATGAATTCACTCAACTTGGTTTGGACCAGTCAGTAGATGATGTTGACACGATTCAAAATGCCACAAAGAATTCTAAGACAGGGCCAAATGAAGACTTCAATGATGTTACTAATCAAAATGGCcaagttattaaaatgttgttgcctCAGCCAGCTCCACCTCGCAAATCCAGCAAATTCTGTCAAATTGAGGATTGCGCAAATCATCTAACGAGTGAGAACATGACGCTACATAAGTTTCCCCATGCACCGGAAATGTGCGTCCGGTGGCAACATAATACTCAGGTGCCTTTTGATCCGGAATTTCGTTGGCGGTATCGCATCTGTAGTGTCCATTTTGATTCGAAATGTTTGGTTAACATGCGTCTGCTCCACGGTAGTGTACCAACTCTTCATCTAGGACCAAAGGCACCGTCACAACTATTTGAGAATGATTTTGGGATATCAATTATGAAAATGGACAAGAAAGTTTTACCAACGGACCATGGCAATGAAGCGGTTGTGAAAGAAGAACATCGAACAAATTGGGAGCGAGAGCACAGACTTGAGAAATTTCTACATGAAGAGGAGCCAGGTGAGCAGCTAAGTTTGTTAAAGCCTGAGATGCAGCTAGAAGAAGAGAATGATGACGATGGGTACGCGCAACAGCCACCGTCGtataatgtaaaattttatggttGGAGGCAGCAACTACGTTTGCCTGTTATTAAAATCGATGACGACGAAGCGCAATTAAAGCAGGCTTCAAAGAGAAACCAACTATTTTACAATCCTATCAAGTCTGGTTATGACAAATGCTCTTTGATACACTGCCAACGCCAAAGATCCCAACATGGAGTTCACATCTATAAATTTCCACGCTCCAAGCAGCATCAACGTAGATGGATGCACAATCTGCGCATTCGTTATGATGAATCACGGCCGTGGAAGACTATGGTATGCAGTGTACACTTTGAACCGCATTGCATACGACTGCGTAAATTGCGTCCCTGGGCAGTACCAACTCTTGAGTTAGGCGACAATGTGCCAGAGCATGTATACACCAACGAGCAGTGCCAGGAAATGACATTCGACGACTACAGCGGGGCAGAAAGTGATGGTGATATAGAAGATGCCCTTCAGGAAGAGGATGATGACGAAAATGAAGAGGGTGACACCGTgccatatataaaaaaagaacgTCGGTCCCGGTTGGATCCTTGGCCTTCGAGTTACTTGCCGCCGTGGAAAACCAAACAATGCTGCCTACCATACTGTCGTCGGCCACGCGGTGATGGCATAAAGCTTTTTCGCCTACCAAATAACGCAGGTTCTATTAAAAGATGGGAGCAAGCAACGGGGATGAAGTTCAAGGAGTCGCAACGCAACACAAAACTGATCTGCAGTCGCCATTTTGAAACTAGCCTAATAGGTGTGCGTCGACTTATGCGAAATGCTGTTCCTACTCTGCATCTGGCGCCTGCTAACGAAAACGGAGCCTGTCCAAAACTCCAACCCACCGTATCTCAACCCAAATGCTGTATTTCGAATTGCAACCAAGTATGTGAAGCGGATATTAAGCTGCACAAATTTCCCAGTGATCCGATGTTGCTTCATCAATGGTGtatggctttaaaaatttcgGATGTCCACAGCTATCGTTACAAGCACATATGCTCGGCACATTTACCAATAAAGGTGCTCAGTTGCTTGATCTGTGCCAGCGATAACGTCCGCCTACCCATGCTAAGCTTTCCTGAAAATCGCAATCAGAGGGCCAAATGGTGTTATAATCTGAAAATAGAATCCATACCCAAGTGGGACAACTCTAAAAATCTATGTAGCAAACATTTCGAAACCTATTGTTTCATACAGCCCGGACAACTGCATCCAGATGCGGCACCCACGCTGCACTTGAATCACAACGATAGTAATATATTCCTTAATGACTATATCACAAGTTCTAACTCGACAAAATCGTTAATGATGACTATTAAGAATGAGCCGCTAGACAACGAGGAGCTGTTAGTGTAA
Protein Sequence: MFCFTAEPIDEHTYKSNYIDDNTPFADFSKFPEFDEEMISPKVELTIKDESYGSSIEHQINYPRRKLQTDHSSGSLPICQRCKEVFFKQQTYLQHVANSSCSIHEYDFKCSICPMSFMGADELQDHKLLHKVDKFFCLKYCGKHFDTVAECESHEYMQHEYENFACNMCSGMFSTREQLYTHLTLHKFQQRYDCPICRLWYQTAQDLHEHRLAAPHYCGKYYRESELQSTSQQQRQSQEPQVNYKLQDCHMGTIEMPSTPHKSGSSALSLPATAALSSLLQQRQVNADGPTALFGASSSPSSLKSEVNVKLERSYSNSTSESTYSLHDNSYNAYGSDTSIHGGVAIGGPQAHSSTLDDSEDALCCVPLCGVRKSTSPTLQFFTFPKDDKYMQQWLHNLKMFHIPTSNYASFRICSMHFPKRCINRYSLCYWAVPTFNLGHDDVANLYQNRELTNTFTTGEVARCSMPNCNSQRGESNLKFYNFPKDIKSLIKWCQNARLPVQAKEPRHFCSRHFEERCIGKFRLKPWAVPTLYLGAQCSKIHDNPKNLYVEEKRCCLNFCRRSRSTDFNMSLYRFPRDEVLLRRWCYNLRLDPGVYRGKNHKICSAHFIKEALGLRKLSPGAVPTLHLGHNDTFNIYENELWPPPVPNSSSSQHQIQLVSHQHQGHHSKSYHRHSAASTSSSASSTSHYLDPESSTAYANVTIGGGSSLNVTDSMDVCCVPKCESKRHNNENITFHTIPRRPEQMSKWCHNLKIPEDKMHKGMRICSLHFEPYCIGGCMRPFAVPTLHLGHDDENIHRNPDVIKKLNIRETCCVAVCKRNRDRDHANLHRFPSNAALLTKWCANLQRPVPDGSKLFNDAICEVHFEDRCLRNKRLEKWAVPTLVLGHEDIAYPLPTLEQVTEFYARPSAPNNGEEQGECCVNTCKRNPSVDDIKLYRPPEETEVLAKWAHNLQLELSQLPSLKICNLHFESHCIGKRMRPWAVPTLNLAASIENLNENPEHTMLYKRRSHLRSDIGPTRTGTKPTWVPRCCLSHCRKVRALHNVQLYRFPKLNRSTLAKWAHNLQVPMMGSAQRRVCSAHFEPHVLSKKCPVPLAVPTLDLNSPLTYKIYQNPAKLKANKLCLQRVCIVESCRRQRSQGVQLFRLPHSPTQLRKWMHNIQVRPRGVMRTQYRICSMHFESHSFNGKRLSAGAIPTLELGHNEDNIYPNEAQAFVDEHCAVEGCDASKEQADVRLFRFPTEDDDLLWKWCNNLKMNPVDCVGVRICNKHFETDCIGPKHLYKWAIPTMHLGHDVTQIELILNPKPEERYVDPVFKCCVPTCGKTRKFDEVQMNSFPKDLTLFQRWRHNLRLNHLDFKKRELYKICNTHFEDICIGKTRLNVGSIPTLELGHDKTNDLFQVNPSDLQSNLFGRPRKLLESPLENSLKQDPEKEEEEDVVSNLAAMEEATNLNTTLVKIKKSLADLKCCVHSCGRSRLEHGARLFAFPNGKQQQNKWRHNLRIESGEIDKMTRICSAHFNRRCINGKQLMSWAIPTLQLGHQEQPIYENPKNIPGFFTPTCALSHCRKRRSIDNVLRTYRYPKCQELLEKWRVNLRLEPDQCRGRICADHFEPQVRGKLKLKTGAVPTLKLGHDGDVIYNNESIKVEEEANLESPSVLFNLELNEKLEKQKGPEEKEDEDEEQEHNFFDPLELVETYAEQNSDNDHDMFEPEQLLPDTPPPHILPIALSRPREKPPNNVTPICCLKHCRKERTPTYQLSTFGFPKDQQLLLKWCANLNLDPGDCIGRVCIEHFEGEVLGSRKLKQNAVPTLNVGHTSPLPYTHNGQERLLSPSNRPIYDEQPKHSVFRIFSLKHCRKRIPTEPPDNKMSFPLKMSQLSSPSISASPSPRARLKICCIPNCGQQTNSQTRLYRFPTTESSLLKWLVNTQQQLRYVEAQNLYVCQVHFEPEAICKKQLRSWAVPTLQLGHDGHVIPNAKHNGNIADSQENEQVLELIRKNYCSVLTCFQLRSEKLRLYRYPKDMPTIRKWAANCKHRSMQASSHGFQVCQSHFTPDCFDASTGELHEDAVPTLELAKNTTNELRCIVLRCMNEEGSIAPSGRRRFQKVPKRTTQLNEWCHNLHLDAAALSELQKNYLRMVYNLPKAEQLRHSWLKHMGIEECVASEYQLLKLCPLHFIILYDYSAAYFSEHNAEMLMASDYEDAKNSVRIRLITCAVKSCSTLQPRDGGRLHGLPQRRDLLQMWLNNTQLSFSEQHRYMLKVCSKHFEARCFTDIRKLKPWSVPTLDLPAQEATVDCDSVYVVYQNPTEAEWHDMNDRLAKESNKAKTEEVQLENIMLKPSVLMEPIKEQPEEMLQVKQEPTPTTYDFENTLNPQQPLEMQELEVLLEVGHVEKCASYEQMDIDTPLLDAVAPTARKTGFVYSSVNSQSRGQYNARHCSVQGCKVSASDTDGVSIKLHKFPTSVEASKKWMHNTRVDVDANYSWRYRICSYHFEQDCFNGSRIRRGSMPTLHLGPQMPQEIYYNEFTQLGLDQSVDDVDTIQNATKNSKTGPNEDFNDVTNQNGQVIKMLLPQPAPPRKSSKFCQIEDCANHLTSENMTLHKFPHAPEMCVRWQHNTQVPFDPEFRWRYRICSVHFDSKCLVNMRLLHGSVPTLHLGPKAPSQLFENDFGISIMKMDKKVLPTDHGNEAVVKEEHRTNWEREHRLEKFLHEEEPGEQLSLLKPEMQLEEENDDDGYAQQPPSYNVKFYGWRQQLRLPVIKIDDDEAQLKQASKRNQLFYNPIKSGYDKCSLIHCQRQRSQHGVHIYKFPRSKQHQRRWMHNLRIRYDESRPWKTMVCSVHFEPHCIRLRKLRPWAVPTLELGDNVPEHVYTNEQCQEMTFDDYSGAESDGDIEDALQEEDDDENEEGDTVPYIKKERRSRLDPWPSSYLPPWKTKQCCLPYCRRPRGDGIKLFRLPNNAGSIKRWEQATGMKFKESQRNTKLICSRHFETSLIGVRRLMRNAVPTLHLAPANENGACPKLQPTVSQPKCCISNCNQVCEADIKLHKFPSDPMLLHQWCMALKISDVHSYRYKHICSAHLPIKVLSCLICASDNVRLPMLSFPENRNQRAKWCYNLKIESIPKWDNSKNLCSKHFETYCFIQPGQLHPDAAPTLHLNHNDSNIFLNDYITSSNSTKSLMMTIKNEPLDNEELLV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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