Basic Information

Insect: Hermetia illucens
Gene Symbol: -
Assembly: GCA_905115235.1
Location: NC:7212785-7253345[+]

Transcription Factor Domain

TF Family: zf-C2H2
Domain: zf-C2H2 domain
PFAM: PF00096
TF Group: Zinc-Coordinating Group
Description: The C2H2 zinc finger is the classical zinc finger domain. The two conserved cysteines and histidines co-ordinate a zinc ion. The following pattern describes the zinc finger. #-X-C-X(1-5)-C-X3-#-X5-#-X2-H-X(3-6)-[H/C] Where X can be any amino acid, and numbers in brackets indicate the number of residues. The positions marked # are those that are important for the stable fold of the zinc finger. The final position can be either his or cys. The C2H2 zinc finger is composed of two short beta strands followed by an alpha helix. The amino terminal part of the helix binds the major groove in DNA binding zinc fingers. The accepted consensus binding sequence for Sp1 is usually defined by the asymmetric hexanucleotide core GGGCGG but this sequence does not include, among others, the GAG (=CTC) repeat that constitutes a high-affinity site for Sp1 binding to the wt1 promoter [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 42 1 57 4.1 1.6 5 23 448 466 445 466 0.94

2 42 0.37 20 5.5 2.8 1 23 484 507 484 507 0.93

3 42 7.1 3.9e+02 1.4 5.2 2 23 523 544 522 544 0.95

4 42 0.00044 0.024 14.7 2.1 1 23 551 573 551 573 0.97

5 42 0.054 2.9 8.1 0.8 1 20 579 598 579 602 0.91

6 42 1.1e-06 6e-05 22.9 0.4 1 23 608 630 608 630 0.96

7 42 0.00075 0.041 14.0 2.3 1 23 636 658 636 658 0.97

8 42 5e-06 0.00027 20.8 0.7 1 23 664 686 664 686 0.98

9 42 3.8e-06 0.00021 21.2 5.7 1 23 692 714 692 714 0.98

10 42 0.0002 0.011 15.8 0.1 1 23 720 742 720 742 0.98

11 42 6.2 3.4e+02 1.6 0.4 3 23 815 836 814 836 0.96

12 42 0.17 9.5 6.5 1.3 3 23 909 929 907 929 0.96

13 42 1.5e-05 0.00082 19.3 1.9 2 21 992 1011 991 1012 0.94

14 42 2.9 1.6e+02 2.7 1.4 5 23 1098 1116 1095 1116 0.92

15 42 4.8 2.6e+02 2.0 0.1 1 23 1128 1151 1128 1151 0.89

16 42 3 1.6e+02 2.6 0.7 2 23 1167 1188 1166 1188 0.93

17 42 9.2e-05 0.005 16.8 0.1 1 23 1195 1217 1195 1217 0.97

18 42 8.8e-05 0.0048 16.9 2.1 1 23 1223 1246 1223 1246 0.95

19 42 0.2 11 6.3 2.7 5 23 1290 1308 1287 1308 0.90

20 42 3.4 1.8e+02 2.5 1.2 5 23 1402 1420 1399 1420 0.92

21 42 1.5 79 3.6 0.0 1 23 1431 1454 1431 1454 0.92

22 42 2.3 1.2e+02 3.0 2.5 2 23 1470 1491 1469 1491 0.92

23 42 0.00059 0.032 14.3 0.2 1 19 1498 1516 1498 1520 0.94

24 42 0.00031 0.017 15.2 4.2 1 23 1526 1549 1526 1549 0.97

25 42 0.73 40 4.6 0.2 3 23 1639 1660 1638 1660 0.97

26 42 2 1.1e+02 3.2 1.3 3 23 1732 1752 1731 1752 0.96

27 42 4 2.2e+02 2.2 3.2 1 23 1882 1904 1882 1904 0.93

28 42 0.0073 0.4 10.9 1.7 1 23 1911 1933 1911 1933 0.95

29 42 0.016 0.89 9.8 6.8 1 22 1939 1960 1939 1960 0.96

30 42 1.7 91 3.4 3.5 3 23 1998 2018 1997 2018 0.94

31 42 0.56 30 4.9 0.1 1 23 2029 2052 2029 2052 0.92

32 42 0.28 15 5.9 3.2 2 23 2068 2089 2067 2089 0.95

33 42 0.0011 0.059 13.5 1.4 1 23 2096 2118 2096 2118 0.97

34 42 0.64 35 4.8 1.3 3 23 2164 2184 2163 2184 0.95

35 42 0.11 6.2 7.1 0.0 1 23 2195 2218 2195 2218 0.92

36 42 0.062 3.4 7.9 4.6 2 23 2234 2255 2233 2255 0.96

37 42 0.00035 0.019 15.0 0.5 1 23 2262 2284 2262 2284 0.96

38 42 0.16 8.6 6.7 2.4 3 23 2316 2336 2315 2336 0.93

39 42 7.7 4.2e+02 1.3 0.4 1 23 2347 2370 2347 2370 0.89

40 42 1.8 1e+02 3.3 4.6 2 23 2386 2407 2385 2407 0.96

41 42 8e-05 0.0043 17.0 2.2 1 23 2414 2436 2414 2436 0.98

42 42 1.5e-05 0.00079 19.4 2.9 1 23 2442 2465 2442 2465 0.97

#	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	42	1	57	4.1	1.6	5	23	448	466	445	466	0.94
2	42	0.37	20	5.5	2.8	1	23	484	507	484	507	0.93
3	42	7.1	3.9e+02	1.4	5.2	2	23	523	544	522	544	0.95
4	42	0.00044	0.024	14.7	2.1	1	23	551	573	551	573	0.97
5	42	0.054	2.9	8.1	0.8	1	20	579	598	579	602	0.91
6	42	1.1e-06	6e-05	22.9	0.4	1	23	608	630	608	630	0.96
7	42	0.00075	0.041	14.0	2.3	1	23	636	658	636	658	0.97
8	42	5e-06	0.00027	20.8	0.7	1	23	664	686	664	686	0.98
9	42	3.8e-06	0.00021	21.2	5.7	1	23	692	714	692	714	0.98
10	42	0.0002	0.011	15.8	0.1	1	23	720	742	720	742	0.98
11	42	6.2	3.4e+02	1.6	0.4	3	23	815	836	814	836	0.96
12	42	0.17	9.5	6.5	1.3	3	23	909	929	907	929	0.96
13	42	1.5e-05	0.00082	19.3	1.9	2	21	992	1011	991	1012	0.94
14	42	2.9	1.6e+02	2.7	1.4	5	23	1098	1116	1095	1116	0.92
15	42	4.8	2.6e+02	2.0	0.1	1	23	1128	1151	1128	1151	0.89
16	42	3	1.6e+02	2.6	0.7	2	23	1167	1188	1166	1188	0.93
17	42	9.2e-05	0.005	16.8	0.1	1	23	1195	1217	1195	1217	0.97
18	42	8.8e-05	0.0048	16.9	2.1	1	23	1223	1246	1223	1246	0.95
19	42	0.2	11	6.3	2.7	5	23	1290	1308	1287	1308	0.90
20	42	3.4	1.8e+02	2.5	1.2	5	23	1402	1420	1399	1420	0.92
21	42	1.5	79	3.6	0.0	1	23	1431	1454	1431	1454	0.92
22	42	2.3	1.2e+02	3.0	2.5	2	23	1470	1491	1469	1491	0.92
23	42	0.00059	0.032	14.3	0.2	1	19	1498	1516	1498	1520	0.94
24	42	0.00031	0.017	15.2	4.2	1	23	1526	1549	1526	1549	0.97
25	42	0.73	40	4.6	0.2	3	23	1639	1660	1638	1660	0.97
26	42	2	1.1e+02	3.2	1.3	3	23	1732	1752	1731	1752	0.96
27	42	4	2.2e+02	2.2	3.2	1	23	1882	1904	1882	1904	0.93
28	42	0.0073	0.4	10.9	1.7	1	23	1911	1933	1911	1933	0.95
29	42	0.016	0.89	9.8	6.8	1	22	1939	1960	1939	1960	0.96
30	42	1.7	91	3.4	3.5	3	23	1998	2018	1997	2018	0.94
31	42	0.56	30	4.9	0.1	1	23	2029	2052	2029	2052	0.92
32	42	0.28	15	5.9	3.2	2	23	2068	2089	2067	2089	0.95
33	42	0.0011	0.059	13.5	1.4	1	23	2096	2118	2096	2118	0.97
34	42	0.64	35	4.8	1.3	3	23	2164	2184	2163	2184	0.95
35	42	0.11	6.2	7.1	0.0	1	23	2195	2218	2195	2218	0.92
36	42	0.062	3.4	7.9	4.6	2	23	2234	2255	2233	2255	0.96
37	42	0.00035	0.019	15.0	0.5	1	23	2262	2284	2262	2284	0.96
38	42	0.16	8.6	6.7	2.4	3	23	2316	2336	2315	2336	0.93
39	42	7.7	4.2e+02	1.3	0.4	1	23	2347	2370	2347	2370	0.89
40	42	1.8	1e+02	3.3	4.6	2	23	2386	2407	2385	2407	0.96
41	42	8e-05	0.0043	17.0	2.2	1	23	2414	2436	2414	2436	0.98
42	42	1.5e-05	0.00079	19.4	2.9	1	23	2442	2465	2442	2465	0.97

Sequence Information

Coding Sequence: ATGGCTACCAACACGGATTTTACATCATTCCTAAGTACGAGAGTCAAGGCGGAGCTCGAGTCGGAGGAGGAGATTCTAGATGAAATCCTAGAAGACAATGAAGTTAAGGACATTCATTCAGATTTCTTGGATGCTGGACAGGAGGCAAAGTGTGGAAGTATCTTCATATCGACTACTCGAAAGTATACCTTGGTCTGCGAAAGTTGCGATGGACGCTTCGATAGTATGGAAGCGTTTGGTTATCATCTGGAAAAGGACCACTTCGACTATGGAGTACGAAACGGTGGCTGGTGTAAAATACCCATAAAGGAGGAGGTCTCTTTCAAGACTGAGGATATACAAAATAAAGAATGCACCGCGACGAATTTCGATGCCACGTATCTTCCAAAAAATTccattttcgaggaatctgccaTGAATGCTTTCCAGAACTTCCCACTTCAATCTTCCAACAATAGCTCAGTCATTTCTAGGAGACCTACAGTGGTATTAACCGGACAACCCCTCTACGAtgagaaaaaaaacttttgcaTCACATGCGATCGTCAGTTGGAATCGAAGAAGTCTTTCTACCGTCATAAGTATTATCACAAAGAGATGTTCCGCAAGCAGGATAGGCTCCATTTGCAATATCCCGGGCCAAATGGTGCATTAGTTGAAACTGTTGTTAAAGAGGAACTCGATATTGGAAATTATGAAGTTCAGAATCCAGggTTTCCAGAAGCATACAATGAGACCTATATTCACCCAGGTGCCGTCGGCAATCCTATCGACCCAGCAGCAGAACATCTCAAATCAATTCAAATGAATTCCCCTTCTCTCCATTGTGGTTCCACACGGACTAGCTACGATGAATTGCAACCTAAACTCAATACCTCAGTGGATATTAACGCGCAGTATTCTCACCACATCCAAGCGATAAATATGGCGGAAATTCAACTAGGGTCTACTATGCAAAACGAACAATTGTTTTGCCCAGAAAGCAGTCAACAATATGAGGCAGACAAAAATCAAACAGCGGAATTCAACCACAATGCCGCGGTAACGGGCGAAAGTAGTGAATATGACCAACACGAAAATGATCCAGATGCACCACGAAGGGGCCGAAAAAAGGGAAAAGTGGTATTTTCGTTTGAACCTGAATTCGACAAGGCAAGAAACTTTTGTATTACATGTAATCGTCAAATGAGCTCAGGGGAATCCTTCAAACATCACGAGTACGATCACAAATTCAAAATTCGAAAGTGGTACATCGCCAATGGATTGAAATCAAGGAAAGAACAAGTTAAATTCGTGTTTTCCGAAAACCCAAGTTTCGACGATGAAAGAAATTTTTGTATCACTTGCAATCGAGAATTCGACACTAAAATAGGTTTTCAGCTCCACAAGAAAAGGCATAGATTAAAGATACGTGAAAAACAGGGCACAGTTAGCACGTCTGAAGCCACATTCTCATGTGAATTGTGTCCTGGAAAATTTAAATCAGATTTCTGTTTACGAAGACATACAGTATCGAGCCACGGGGATAAAATCCCGAATTCCCTACAAGGGGATCCAACGTACCTCAGGTGTCGGTTTTGCCATAAGGATTTCGAAAAGCCAACAGAACGCCATCAACACGAACGGGACCACGCTAACGAACGAGCACGGTATCGATGTCACCTATGTCCGAAGTCATTCACCACAAGTGCAGGTCGAAAGGCTCACAAAACCATTCATCGAGGTGATCGCCCATTTCTCTGTTCACAGTGTCCGAAAGCTTTTGGAGCTCGAGCGAATCTTTATCGTCATGTTCAATGCATCCATTCTGGCATAAAACCATTCGCATGTGAATATTGCGGCAAAACATTCAGTGAGAAATCAGATCTTACCTCTCACATTGTAAGTCATACGAAAGAGAAGCCTCACGAGTGCCAGGAGTGTGGGGCACGATTCAGTTATTTGCAGAGTTTACGTATTCATAAGAAAAGACACGCAAATCAACGAGACTTTAAATGTGAGGTGTGTGGAAAACTGTTCACTACTAACAGCGAATTGCGGGATCATAGGACGATTCATTCTGAGGGATGTGATTTTCAGTGTCCGCACTGTCAAAAACGATTCAAAAGAAAGAGTACTTTGAGGGCTCATAAGAAATTGCACGAAAATGAACAAATGTATCGTTGTATGATGTGTGACATAAAATTCGCTAATGAAGGCGAATTAAATTTGCATATGGAATCTCATAGTGGATTCGATGCTCAAGCAAACATTTTAATTATGGATTcgatatttttattgaattcggGACTACAGACCGACGTAAAATTGGAGGAAAAAATTCTAGATAAATCCATAGAAGACTATGGATCTGTGTGGACACGTCCTGACTCTCCCACTATCGACTGGACATCGGAGTGTGGTCGTATTCTGATATCAACCGAAGGAAAATATACCGTTGCTTGCAATAGCTGCAGTGATCGCTTTAATAGTGTAGGGTCCTTCGGGAATCATTTGAAAACTGTCCACCCGGACTATGGCGAAGAGGAGGAGGTCCTACCCGAAAACGATGAAATTCGATGTAAAGGAGCTGATACAACAGATGGGATCGTGACCGCTACATCGCAGATACAGCAGAATCGAAGAAACACGAAACTTGCacgttacaaaaactgttcgaatacTCCAAAGAAACCAACTGTGATAATTTCGGCCGAGCCTTTTTATGACGAGAAAAGACTCTTTTGTGTTACATGCGATCGTCAGTTAGCTTCAAGACAGGCCTTCACGCGACATAAGAGGTATCATAAGGACCAATTCCCAAAACAGGGAATGACCTATTTGAATCATGACGACGAGGAAGATACGTCAAATGAAACTACAGTCAAGGATGAACTTGATATTGGCGACTATGAATTCCAGGATTCAGTATACGATGCCGAAAGCGTTGAGAAAATTGACGGCAACGAACTCATGCATAGAGAAGATCCAATTCGCTGTTTACACTGTCTTAAAACCTTTTCAACCAAATCAAATCTTAAACGCCATATTCAAAGCTTAAAGGCGGAAGACAAACCGCAATTTTATCGGACCGTATTCACATTGGAGCCCAAGTATGACgagaaaaaacatttttgtatATCATGCAATGTTCAAATGAATTCGCAGGAAACATTCATACATCATAAGAAGGAGCATAAATCGGTTATTCGAAGATGGAAGACCCGCAACGGCTTGAGATTGCCTGGAAAAAATCTCAAACCTGTGTTTTCTGAAAACCCCGATTTTGACGACGAGAACAACTTTTGCATCACGTGCAATCGTGAATTTGTCTCGAAGGGCAGATTTCTGAAACATAAATTGTTACATATGAAGGACTCAACTAATCCAAAACTTccgacatttttttgtgaattatgTCCTGGAAAATTTATGTCAGATTTTGGATTAAGAGATCATATCGTGGCGAACCATGGAGATGAGATTCCAAAGTCTCTACAAAACGATCCAACGTACCTGGAATGTCGATTTTGTTTTAAGGAATTTGCAAAACCAACGGAACGTTACCAACATGAGGAGAGCCACATTAAAGAGCGAAAGAAATATCGGTGTCCTTTATGCCCAAAATCATTCGCCACAAATTCAGAACGCATAGCTCATGAATCTGTTCACAGAGAAGATCAGCCCTATCGTTGTGAGCAATGTCCTCAATCATTCAGatttaaaacaaattttaaCCGTCACGTTAAGGATGTTCATTTTGGCATAAAATCGACCAATGTTGCACTTGTTAAGGCAGAGGGTGCTgccaaaaatgagaaaatgggACGAGTCAAAACTGTGTTTTCTGTGAACCCCAATTTCGACGATGAGAAAAATTTTTGTATCACATGCAATCGGGAGTTTAGCTCGAAGTCTAGTTTTAATACCCATAAATTTCTGCATAGGAGAATGATCCGGATAAAACAAGCCAGATTCAAAGAGCCAACAGAACGtgatatacataaaaaggatcgGTCTGCTGCAGAGGGTCATGACCAATCTAATCGTCCGCTTGAATCTCCGAGCTCTCCACAAGAGGATCCATTTGTAGACCGCAAAATTCACGACGGTATAAAACCGGCAAATGACGAGGACACTATCAAAACTGAGAAAATGAGACGAACCCAAATGGTTGTGTTTTCCGAAAATCCGAAATTCGATGACGAGAAAAACTTTTGCATCACATGCAATCGTGAATTCGCCTTGAGGGCCACCTTCAATAAACATAAATTATTACATAAGAATTTAATTAATCCAAAACATCCGACATATTTGTGTGAATTGTGTCCTGGAAAATTTATCTCAGATTTTGGATTAAGAGATCACATTGTGGTGAACCATGGAGATGAGATTCCAAAGTCTCTACAAAATGACCCAACGTACCTAAAGTGCCGATTTTGTCATAAGCAATTTCCTAAGCCTACAGAACGTTACGAACATGAGGAGAGCCACGCTAAAGAGCAAAGGCCATATCGTTGTCCGTTATGTCCAAAATCTTTCGCCACAAATTCAGAACGCAAAATTCACGAACCTATTCATGGAGAAGATCGGCCATATCGTTGTGAACGATGTCCTCAATCATTCAGACATAAGACAAGCTTTAATCGCCACGTTAAAAATGTACATTTTGGCATCAAACCGACAAAAGGCGCATCGGTTCAGTTTCTGTTTACTGTGAAACAATTAGTGTTAAAAACAAATAAGATAAATATGGACTCAATACCTCTAATGGATCCGAGACTGCAGATAGTCGTAAAATCAGAGGAAGGACTTCTAGATGAATTCATAGAAGACAATGAATCTGTGTGGACCCGTGCTGACTCTTCGACTATCGACTGGAAAGCCGAGTGTGGCCGTATCCTGATATCAGCTGGAGGGAAATATACCGTTGCCTGCAATGactgcagtgaccgcttcgATGGTATGGGATCGTTTGAGAATCATTTGAAAACCGTCCACTATGGCGTACAGAAAAATGACTGGACTAGagtccagataaaggaggaggtcCTACTGAATGAGATTTTAGATAAAGCGGTTGATACACTAGATGTTAAGAATCGAGGGAAAGTTGTTAAGAATCGAGGGAAACCTTCACCCTACTCTTCGAGCAATACATGGAAATTTGTGAAAATTACGACCGATCCTATTTATGATGAAAAAAGGCTCCTTTGTGTCACATGTGATCATCAATTAGCTTCAATACAGGCCCTCAGGCGACATAAGAGGTATCATAAGGAACAACTTCGGAAAAAGGGACTGATTCATTTGGATCATGGTGGCCAGGAAGATGCTTCACATGAAACTGTTGTCAAGGATGAACTTGAGATCGGAGACTACGAAATCCAGAAAGCAGTATACGATGGGAAGAGCGGTGTTTTGGATAATTCGACTGGTTCGCATTGTAATCCTTCATGGGATAGCTCCGTAGCAATAAAAGTCGAAACTGGCATGCCAACTGTTACCGATGTGACTAACAAAAGGACCAATGCAGCAGCAGTTAATCCAGACGAGAAACCCTTATCCGAAGATAGCAATCGACAAAATGAAATAGAGTCAGACCAAAGGCAGACAATGAAGGACTCAAAGGCCCGGGACTCGATCAAAGACGATTCGAAAGACTTCCAGTGCCGATTTTGTTATAAACAATTTGAAAATCTGACACAACGTTACCAACATGAGGACAGTCACGCTAACGAAAAAACGCCTTATCGGTGTTCAATATGCCCGAAATCCTTTACCAAGGGCTTCAGTCGCAAAAATCACGAGCTCTCCCATAGAGGAGACCGTCCATTTCGCTGTTTACAATgtcataaaacctttcatactaaGACCAATTTTAAATATCATGTTCGACGTTCAAGGCTATGTTCGAGGTTCAAGGCACAATCTTATCATAACAGCTTGAAATTTCCCAGACTCAAACTTGTGTTTTCTGAAAATCCCAATTATGATGAGGAGAAAAACTTTTGCCTCACTTGCAATCGTGGATTTGACTCGAAGCGCTGCTTTAACATACATAAACTTGCCCATATGAACTTAATTCATCCTAAAAAGGCAACATTTCTTTGTGAATTGTGTCCTGGAAAATTTATGTCAGAAAGCAGGTTAAGAGATCATATTGTGGTGAACCATGGAGATGAGGTTCCGAAGTCTTTTCAAAACGATCCAACGTACCTAAACTGCCGCTTTTGTCATAAGCAATTTACAACACCAATAGAACGTTACCAACATGAGAGAAGTCACCGTAAAGAGGAGAAGCCATATCAGTGTTCATTTTGCCCAAAATCTTTTATCAAAAATTCAGAACGAAAAAGTCACGAGTCTGTTCATAAAAAACACGAAATCTATCTGGCTCACGTGGCATCTCTTCAGGGAGAGAGCACtacaaaaattgagaaaatgatGCGAATCAAAAGAAAGGTGGTGTTTTCTGAGAACCCCAATTTCGATGACGagaaaaaattttgtttcacgTGCAATCGTGGATTTATCTTGCGGACGAGCTTCAACGctcataaatatgtacataaaaaattaattaacccGAAACAACCCACATACTTGTGTGAATCATGTCCTGCAAAATTCGTATCAGATTCTGGATTAAGAGATCATATTCTGGCGAATCACGGAGATGAGATTCCAGCTTTCCTTAAGGACGATCCAACTTACCTAAAGTGTCGCTATTGTCATAAGCAATTTGAAAAACCAAGTGAACGTTACAAACACGAGAAGAGTCATTCTAAAGAAAAAACACCGTATCGATGTCCTTTATGTCCGAAATCTTTCGCCAGAAATACAACGCGCAAGATTCACGAGTCTGTTCATAAAAAACCACCCCCAATCAAAAATATGAAAGTGACACCAATCCGAAAAGTTTTGTTCTCCGAAAACCCCAATTTCGACGAAGAGAAACAATTTTGCGTCACATGCAATCGTGAATTTGCCTCAAGAAACAGCTTCAACAAACATAAATTCTTACATAGAAATTTAATTAAACCAGATCAACGGACATTTGCTTGTGAATTGTGTCCTGGAAAATTTATGTCTGATTGTAGGTTGAGAGCTCACATTGTCCTGAATCATGGAGATGAGATTCCAAAGTCTCTACAAAACGATCCAACGTACCTACAATGCCGCTTTTGTCATCAGCAATTTACAAAGCCAACAGAACGCTTCCAACATGAGAAAAGTCACGCTGAAGAGAAGAAGCCTTATCAGTGTACATTATGCCCGAAATCTTTCAGCAGAAGTTCAGACTGCAAAGTTCATATATCGATTCATAGAGGAGATCGACCATTTCGTTGTGAAGAATGTTTTCAAACATTCAGAAGAGAGTCATATCTTAAACGGCACCTTAAAAGTTTACATTTTGATAGACGACCGGCAAATGTATCGGTCCAGGTTGAGGATAGTAATAAcattaaaaaagaagacgaaacaaAATGA
Protein Sequence: MATNTDFTSFLSTRVKAELESEEEILDEILEDNEVKDIHSDFLDAGQEAKCGSIFISTTRKYTLVCESCDGRFDSMEAFGYHLEKDHFDYGVRNGGWCKIPIKEEVSFKTEDIQNKECTATNFDATYLPKNSIFEESAMNAFQNFPLQSSNNSSVISRRPTVVLTGQPLYDEKKNFCITCDRQLESKKSFYRHKYYHKEMFRKQDRLHLQYPGPNGALVETVVKEELDIGNYEVQNPGFPEAYNETYIHPGAVGNPIDPAAEHLKSIQMNSPSLHCGSTRTSYDELQPKLNTSVDINAQYSHHIQAINMAEIQLGSTMQNEQLFCPESSQQYEADKNQTAEFNHNAAVTGESSEYDQHENDPDAPRRGRKKGKVVFSFEPEFDKARNFCITCNRQMSSGESFKHHEYDHKFKIRKWYIANGLKSRKEQVKFVFSENPSFDDERNFCITCNREFDTKIGFQLHKKRHRLKIREKQGTVSTSEATFSCELCPGKFKSDFCLRRHTVSSHGDKIPNSLQGDPTYLRCRFCHKDFEKPTERHQHERDHANERARYRCHLCPKSFTTSAGRKAHKTIHRGDRPFLCSQCPKAFGARANLYRHVQCIHSGIKPFACEYCGKTFSEKSDLTSHIVSHTKEKPHECQECGARFSYLQSLRIHKKRHANQRDFKCEVCGKLFTTNSELRDHRTIHSEGCDFQCPHCQKRFKRKSTLRAHKKLHENEQMYRCMMCDIKFANEGELNLHMESHSGFDAQANILIMDSIFLLNSGLQTDVKLEEKILDKSIEDYGSVWTRPDSPTIDWTSECGRILISTEGKYTVACNSCSDRFNSVGSFGNHLKTVHPDYGEEEEVLPENDEIRCKGADTTDGIVTATSQIQQNRRNTKLARYKNCSNTPKKPTVIISAEPFYDEKRLFCVTCDRQLASRQAFTRHKRYHKDQFPKQGMTYLNHDDEEDTSNETTVKDELDIGDYEFQDSVYDAESVEKIDGNELMHREDPIRCLHCLKTFSTKSNLKRHIQSLKAEDKPQFYRTVFTLEPKYDEKKHFCISCNVQMNSQETFIHHKKEHKSVIRRWKTRNGLRLPGKNLKPVFSENPDFDDENNFCITCNREFVSKGRFLKHKLLHMKDSTNPKLPTFFCELCPGKFMSDFGLRDHIVANHGDEIPKSLQNDPTYLECRFCFKEFAKPTERYQHEESHIKERKKYRCPLCPKSFATNSERIAHESVHREDQPYRCEQCPQSFRFKTNFNRHVKDVHFGIKSTNVALVKAEGAAKNEKMGRVKTVFSVNPNFDDEKNFCITCNREFSSKSSFNTHKFLHRRMIRIKQARFKEPTERDIHKKDRSAAEGHDQSNRPLESPSSPQEDPFVDRKIHDGIKPANDEDTIKTEKMRRTQMVVFSENPKFDDEKNFCITCNREFALRATFNKHKLLHKNLINPKHPTYLCELCPGKFISDFGLRDHIVVNHGDEIPKSLQNDPTYLKCRFCHKQFPKPTERYEHEESHAKEQRPYRCPLCPKSFATNSERKIHEPIHGEDRPYRCERCPQSFRHKTSFNRHVKNVHFGIKPTKGASVQFLFTVKQLVLKTNKINMDSIPLMDPRLQIVVKSEEGLLDEFIEDNESVWTRADSSTIDWKAECGRILISAGGKYTVACNDCSDRFDGMGSFENHLKTVHYGVQKNDWTRVQIKEEVLLNEILDKAVDTLDVKNRGKVVKNRGKPSPYSSSNTWKFVKITTDPIYDEKRLLCVTCDHQLASIQALRRHKRYHKEQLRKKGLIHLDHGGQEDASHETVVKDELEIGDYEIQKAVYDGKSGVLDNSTGSHCNPSWDSSVAIKVETGMPTVTDVTNKRTNAAAVNPDEKPLSEDSNRQNEIESDQRQTMKDSKARDSIKDDSKDFQCRFCYKQFENLTQRYQHEDSHANEKTPYRCSICPKSFTKGFSRKNHELSHRGDRPFRCLQCHKTFHTKTNFKYHVRRSRLCSRFKAQSYHNSLKFPRLKLVFSENPNYDEEKNFCLTCNRGFDSKRCFNIHKLAHMNLIHPKKATFLCELCPGKFMSESRLRDHIVVNHGDEVPKSFQNDPTYLNCRFCHKQFTTPIERYQHERSHRKEEKPYQCSFCPKSFIKNSERKSHESVHKKHEIYLAHVASLQGESTTKIEKMMRIKRKVVFSENPNFDDEKKFCFTCNRGFILRTSFNAHKYVHKKLINPKQPTYLCESCPAKFVSDSGLRDHILANHGDEIPAFLKDDPTYLKCRYCHKQFEKPSERYKHEKSHSKEKTPYRCPLCPKSFARNTTRKIHESVHKKPPPIKNMKVTPIRKVLFSENPNFDEEKQFCVTCNREFASRNSFNKHKFLHRNLIKPDQRTFACELCPGKFMSDCRLRAHIVLNHGDEIPKSLQNDPTYLQCRFCHQQFTKPTERFQHEKSHAEEKKPYQCTLCPKSFSRSSDCKVHISIHRGDRPFRCEECFQTFRRESYLKRHLKSLHFDRRPANVSVQVEDSNNIKKEDETK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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