Basic Information

Insect: Trichogramma brassicae
Gene Symbol: SEC23IP
Assembly: GCA_902806795.1
Location: CADCXV010000901.1:294636-368812[-]

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 26 0.00041 0.017 15.4 0.1 1 23 2158 2181 2158 2181 0.97

2 26 0.00098 0.042 14.2 1.2 1 23 2187 2210 2187 2210 0.95

3 26 0.00019 0.008 16.5 6.2 1 23 2216 2239 2216 2239 0.97

4 26 5.8e-05 0.0025 18.1 1.4 1 23 2245 2268 2245 2268 0.94

5 26 0.0016 0.068 13.6 1.4 1 23 2274 2297 2274 2297 0.96

6 26 4e-05 0.0017 18.6 1.1 1 23 2303 2326 2303 2326 0.96

7 26 1.9e-05 0.00081 19.6 0.4 1 23 2332 2355 2332 2355 0.96

8 26 0.0028 0.12 12.8 0.7 1 23 2361 2384 2361 2384 0.95

9 26 1.2e-06 5.3e-05 23.4 1.5 1 23 2414 2437 2414 2437 0.96

10 26 8.2e-06 0.00035 20.8 1.0 2 23 2444 2466 2443 2466 0.96

11 26 2.2e-05 0.00093 19.4 0.7 1 23 2472 2495 2472 2495 0.97

12 26 2 84 3.8 0.0 11 23 2800 2813 2796 2813 0.86

13 26 3.5e-06 0.00015 21.9 0.2 1 23 2941 2964 2941 2964 0.94

14 26 1.1e-05 0.00046 20.4 1.4 1 23 2999 3022 2999 3022 0.97

15 26 0.0031 0.13 12.7 0.1 5 23 3033 3052 3032 3052 0.95

16 26 0.00019 0.008 16.5 0.3 3 23 3061 3082 3059 3082 0.97

17 26 1.1e-05 0.00045 20.4 0.4 3 23 3106 3127 3105 3127 0.98

18 26 0.00054 0.023 15.1 0.1 1 23 3133 3156 3133 3156 0.95

19 26 2.1e-05 0.00091 19.5 0.4 1 23 3191 3214 3191 3214 0.95

20 26 0.046 2 9.0 0.1 5 23 3224 3243 3223 3243 0.95

21 26 0.17 7.3 7.2 0.1 7 23 3284 3301 3280 3301 0.94

22 26 0.00017 0.0072 16.7 0.5 1 23 3336 3359 3336 3359 0.97

23 26 7.3e-05 0.0031 17.8 1.2 1 23 3365 3388 3365 3388 0.97

24 26 0.00022 0.0092 16.3 2.4 1 23 3392 3415 3392 3415 0.97

25 26 0.0002 0.0084 16.4 6.4 1 23 3421 3444 3421 3444 0.98

26 26 7e-06 0.0003 21.0 0.9 1 23 3450 3473 3450 3473 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	26	0.00041	0.017	15.4	0.1	1	23	2158	2181	2158	2181	0.97
2	26	0.00098	0.042	14.2	1.2	1	23	2187	2210	2187	2210	0.95
3	26	0.00019	0.008	16.5	6.2	1	23	2216	2239	2216	2239	0.97
4	26	5.8e-05	0.0025	18.1	1.4	1	23	2245	2268	2245	2268	0.94
5	26	0.0016	0.068	13.6	1.4	1	23	2274	2297	2274	2297	0.96
6	26	4e-05	0.0017	18.6	1.1	1	23	2303	2326	2303	2326	0.96
7	26	1.9e-05	0.00081	19.6	0.4	1	23	2332	2355	2332	2355	0.96
8	26	0.0028	0.12	12.8	0.7	1	23	2361	2384	2361	2384	0.95
9	26	1.2e-06	5.3e-05	23.4	1.5	1	23	2414	2437	2414	2437	0.96
10	26	8.2e-06	0.00035	20.8	1.0	2	23	2444	2466	2443	2466	0.96
11	26	2.2e-05	0.00093	19.4	0.7	1	23	2472	2495	2472	2495	0.97
12	26	2	84	3.8	0.0	11	23	2800	2813	2796	2813	0.86
13	26	3.5e-06	0.00015	21.9	0.2	1	23	2941	2964	2941	2964	0.94
14	26	1.1e-05	0.00046	20.4	1.4	1	23	2999	3022	2999	3022	0.97
15	26	0.0031	0.13	12.7	0.1	5	23	3033	3052	3032	3052	0.95
16	26	0.00019	0.008	16.5	0.3	3	23	3061	3082	3059	3082	0.97
17	26	1.1e-05	0.00045	20.4	0.4	3	23	3106	3127	3105	3127	0.98
18	26	0.00054	0.023	15.1	0.1	1	23	3133	3156	3133	3156	0.95
19	26	2.1e-05	0.00091	19.5	0.4	1	23	3191	3214	3191	3214	0.95
20	26	0.046	2	9.0	0.1	5	23	3224	3243	3223	3243	0.95
21	26	0.17	7.3	7.2	0.1	7	23	3284	3301	3280	3301	0.94
22	26	0.00017	0.0072	16.7	0.5	1	23	3336	3359	3336	3359	0.97
23	26	7.3e-05	0.0031	17.8	1.2	1	23	3365	3388	3365	3388	0.97
24	26	0.00022	0.0092	16.3	2.4	1	23	3392	3415	3392	3415	0.97
25	26	0.0002	0.0084	16.4	6.4	1	23	3421	3444	3421	3444	0.98
26	26	7e-06	0.0003	21.0	0.9	1	23	3450	3473	3450	3473	0.97

Sequence Information

Coding Sequence: GTCACGGAAAAGCTCGAGAATCTAATTCTCTACGAGCAGAGCGACGACGCCCTGTCCGTGAAATCCGAGCTCTCGTCCGAGGTCGCAGCGATAACTGCTGGCATCGCCGATAACAAGCCCGAGGAAAGCAGCAGCGCTACAGAAGAGCTAACGGAGATCGATCTGACCGCGACTTCGTCGGCCACCAACGAGATCGACTCGTCGGAAACTCAAACGAGCTCGGTGCAGCAGCCAGAGGAGCAACAGACGTCGTTGGATTTGTTCTCGGTGCCGCCACCGACGACCACGGATTTCTTCTCCTCCTCGGCTCAGAGCTATCCAGCAGCGTCGTtccagccgcagcagcagcagcaaccagcGGCGGTCGATCCGTTTTCTTTCGTGCAGCAGTCGCAACAGGCTCCCCAAGAGACGACGAACGATCGGACAGAAACGAGTTCGATTCCGAGTGCAAACGTTGACCCGCGACCTACGCCACAGTCGATTTGGTCTACTACCGAACAGCAAAGCCACTCGGCAGTTCTGAATCCCGTATACGGCGCGCCGATTCACCAATCCGTGCCCACCTTCTACAATCCAAATCAATTCGCTCAGACCCAACAACCGTCGTTCCAATCCGGCATCAGTAGCACCGACGGCCAACAACGAACTGCCGCCCCCGCCACGCCGAATTACTTCCAGCCGGCGTCTATTCAGGACAGCTTCAATGTGCGTCCCGAGCCCACTGGCTCGGCTACTCTCAGCCCGGTGCAGATGTCAGCGAATCCGCTGACGGcaacgcgcagcagcagcagtaatcAACATCATCAACTGCCGGTGGAGACCGTACCGCCGAGCCTGGAGAATTTGGCCGAGGGCGACAGACGCTATCGAGCGCAAGAAATGGAGTATCGCGCGGTCTATCACCACTGGTTCTATAGGCGCGAGGTCGAGGCCAAGACGCTCTGGCTGCCCTTCTCCATGCACGACAGTCTCAATCTCGACGAGGTGCACAACTCCAACGAGATCGGGCCCGAGACCAAGGTCGCCACCGACGGCGGCCGCTACGACGTCGAAATTTTGAGACGTCAACGTTCGCCCGTCTACTGGACCGGACCCGTGACGGAGGTGCGTCGCTGCTCCTGGTTCTACAAGGGCGCCGCCGAGTCGCGCTACACCCCCTACGAGGAGAACGTCGCGGCCCGCCTCGAGGACGAGTACAAGCAGGCCCACCAAGCCAATCACTGGAATCGTCGGGTCGAGCTCAACAACGGTGAGTACATCGTGTTCCACAGCCCGAGCGTGATGGTGCACTACCAGCAGGCCACGACGCCCGACATGGCCGCCTCCTGGGGCAACAACGCGAGCTCTGAGGACGGCACGTACTTGCAGGGCTCGACGGTGAGGCCGCGCGTCGTCAAGCGCGGCATGGACGAGTTCAACGTCGACGACGGCGAGCCCGAGAAGATCGACCATCTTCTGTTTCTCGTTCACGGCATCGGCAGCGTGTGCGATCTCAAGTTCCGCACCGTCGAGGAAGTCGGTAAGTGTCTCGGTGTGCATGACTCTTTATTTTCCttctattttttctcgatttttaaCGACTTGTCTCTCTCATGCGCCGCAGTGGACGAATTCCGCAGCGTGTCGCTGCAGCTCGTGCAGTCGCACTATCGCAGCTCGAGCGAGCAGGGCGTCGTGAATCGCATCGAGGTGCTGCCGATCTCCTGGCACGCCACACTGCACTCGGGCATCGACAAGAAGCTCCAGATGATCACCCTCGAGAGCATACCCAAGCTGCGCCACTTCACCAACGACACCCTGCTCGACATACTGTTCTACACGAGCCCGATCTACTGCGAGACCATCATGCAGACGGTGGGCAGCGAGATGAATCGTCTGTACGATCTGTTCAGGAGCAGAAACCCCGAGTTTCAGGGTAGCGTGTATCTGGGCGGTCACTCGCTCGGCAGCCTGATCATGTTCGATCTGCTGTGTCATCAGAAGCCGACggacgacgaagaagacgaggagcagcagcagcagccacagcaggGAGTGAACGGACAGTCGACGGCGGACGGTCACAAGGACACCGATGACAATACGCAAGAAACGAGTGTCGCAACCAAGTCGACGAGAACGAAGAAGCTCAGCAAGAAGGTCAGCTACGTAATGGGCAACGCCGGCACGGGCCAGCCCTTCATCAATTATCCCCAGCTGCAGTTCAAGCCGCAGGCCTTCTTCGCCCTGGGCAGCCCGATCGGCATGTTCGTCACGGTCCGAGGGATAGACAATCTCGGCGAGGacttcactctgcccacgtgtCCGGCcttcttcaatattttccaTCCCTTCGATCCGGTCGCCTACAGAGTCGAGTCGCTCATCAATCCCGAGGCGCACAAGTACCGGCCCATGCTGATACCTCACCACAAAGGCAGAAAGCGCATGCACTTGgAATTGAAAGAAACGATGGCCAGAGTCGGAGCCGATTTGAAGCAGAAGCTCATCGATTCCGTACGAAGCACCTGGAACTCGGTGTATCAGCTGGCTATGTTCCATCGTCAAGACAATCGAACCCTGCTGGAACAAGAGATCGAAAAGGTCGTCGAGGAGCAGTTGAGCAATCCTCCACCCGAGTCCATGCATCACGGGGACGACGCCGGAGCTGACGTGAAAATTGGAAAGTTGAACGGCGGCAGAAGAATCGATTACGTGCTGCAGGAGGCTCCCTTCGAGTACATCAACGAGTACATATTCGCACTGACGAGCCACGTCTGTTACTGGGAATCCGAGGATACCATGCTGTTGATTCTCAAGGAGATCTACGGCTCCATGGGTATCCAAACGGACGCTCAGCTGCCTCAACAGAGTCTGTCGATCGAGAGAGTTTCGACCCCGACGCTTCCGACGTCTCCGGCCGGCAGCAGTCTAGCGACGTCGCCGACGACCGTCGCCGCCCCTTCGGCGACACCTTACGGCGGAATCGATCCGACGGCTCCGATGTCGGCGAAACCGGTCGGGCCTCCGCCGCGCGTTGGTTTCGTCAGAAAATCTACGATCCCTCATGGAGAAAATCAACAACTCTACTACGGGTCTATTGCAATAGGCTATAGCATAATGAAGCGGAATATCATTCCTATTCGGCACGAGCAAATTGGGATCGACTTTGCCGAGCTCCAAAAATTGTCTGACGACTTTTACGCTTGCCGCCgtgcaggccacgtggaagtGCGTTTCGACGGTCTCCTCGTTAATGGAATTCGCTTCATACTTGTCGTAAATTCTAAACAAGTTGTTGACCAATTGCGCATCCAGGATCGGCTGCGCACAGCTGATCAAGAGATGCAGCGGTGTGGTGCGGCTCAACCACGTGTTGCCGTGTTCGTCGACTTCGGGCTTGTGTCTATAGCCGCTCAAAGACACGAATTCGATGACTTCCTTTCCCACGGTGAAAAGCCTGGGGTTCAAGACCGTCAAAATCTATTGATGAAATCACTACCAGCCCGCCGAAAGACGAAAGATCATGCACAGACCAGGAAGCATCCTCCCCTGTTAAAAGTGATGATATCGTTGCAGCATGCAAGAGACGAAGTGACTGTGGAGGCTGTAAATGTCGTGCAGGCGTCTGCGTCTGCCCGGGTCCGGGCTAAAAATGAcCTCGATCACGACGGTCACATGGATTTCgataaattgttgaaaaagctGCCGGCCGTGGAGTCGTTCGCCGATCACGGAGCTGCCATGGTTGCAGCTTGCCGTCACATAAccgGAGCCAACCCTTGCGAGAGTGCCTTTAAAATCATGCAGTGTTGGCAGAGCACATATCCCGATATCAAAGcaaaatctttgcgacatTCATtctttacgaccttcatgaactgttttttggtgccgaatcataatccatttttgtccaaataccttctcgcacttatcgcatgtgaaatctttacGATGTTTCTGGACTGTCGTCCTGCAGCGCACAGTTCCAAAATTGGACGATCGCGACCCCGGGCCATCTCTGGCGATAATATAACAGAAAGCGATCGGCAAAAAAAGACGATAACTTTAATTATGGCGCAAAAAGAGTCGAGATGTATTCGATCGTGGATATATGATCGACGCCAACGAGAGAAACTATCACTACTACTGTTTGGCCGGCAAAATCTGAAAAAGCCTGTCCACGAGTGTAGTTTTTCGGCAACGGCCGTGCGAGAGATCGTAAAGCAGTCCTCGTCGTCTCTGGCGCTGCTGCCCGAGCGCATACTTTCACGTACtccgagtagcagcagcagcgacgttgTCAGGCCTCGGCGCAATGATGCAGTGCATGCAGGACGTACACATTGCACACAGAGACAGacccTCGAAATCGAAACTAGGCGAGGTGGTTTAGTTCCGACCTTGACATCGATTAACGAGGCTAAGTCCCGAAGATTTGCCCGATTATTTAATGAGGATTTCCAAACGATAGACCAGATTTATTTCTTCCTCTCGCGgttgccgcagcagcagcgaagagcGTCGGTGGTGCGGTGCACTGCATATAATGCatcgcaggtgtgtttttcttcacggcgtttcaatgaggtgtgtttttcttcacgtcatccgatgagatgtgttttttttcacagtatTTCGTTAAGTGGAGAACGAAACGCATTCATCCTGTTTGCTGTCAGCaacggctacaaagacgagccaaTAATTGGTGTGGACGGCAAGCCATTGTCGCGTCGCACCACCGCAATTCATCGTGCGGCTATGAACAAGTGCAGTGAGTTTATCATCCGAGAgctctttaaaatttatagcaGATTCGACGTCAACTACGTCGACGAATTCGGATTTACGCATCTCCACGTGGTCTGCGGCTATGGCCTTGACTACCACGTgacgaaatttctcgagctcggccaagATCCCAATTGCATCGAACGATTAACGGGTAATTCGCCGCTACACGTGGCACTGACCAGCACAGCCGAGAGAATAGAAGTCGTCAGATGGCTGCTGGAAAATGGCGCCGATCCGTTTTTAGCCAACAAGGACGGTTCGACCCCGTTGCACATCGTATGCAAGAAGAAACAGGCttatttatccattttggaGATGTTCTTCAGGATCTGTGACGACAAACGTCAGAAAGAGAAGTTCGATGCCTTGGACATATTGGGTCGGACGCCGCTACACTGCGCTTGCTGCAGTGGCAACGAGAGCGCAGTTGAAtcactgctgagaagaggtgcAAATCCGTATTTGGCTGACATGAACGGATGGACACCGTTGCACATCATTTGCGATAATATATGCACGTATCCTAATTTGGcacccatttttttcaaaatcatcgaTGAAAAACAGATGATCGTCAAGAACAAGAAAACAACACCACTGAAATTGGCTCTGAGGCAAGAACACGCGAAGATAGAATCACTACTGAAGAAAAGCGTGATCGTCAAGCGGAATTCGGCCGATGGGAACGAATTAACACATGCACAGGTTATAAACAAGAGGCACCGTGAAAATGATTTGGTGAGGACGATCTTCGAGTTCAGCGTCGACGAAAATCTGCTGGCGTGTATCAACGCTCAGAACAAGGACGGCgacacaccgttgcacttggctctgcgcAGACGCAGCAACTGGGCAGCCGAGTGGCTGCTGCAAAACGGCGCCAATCCAAATTTAGCCGATACAGAAGGGAGGAATTCTCTGCACGCAATTTGCCAACCGAGTAAAAAAAGCAGAGAAGAGGACGACGACCAGGTTGACTTGGTGAAGACGATATTCGAGCGCTGCCACAAAAAATATCAGCCGTTGCGGGTCGACGCCCAGGACGagttgggccggacaccgcttcaATGGGCCGTGTCGAGTCTACTTCCGAACGTGGTCGGTGTACTCTTGGATaacggcgccgatctgtccGGCTTCGCTTTTCCCACCGAGGCTTATTTTGCCACgaaatttgataaatcgaTGGTTTTCAAATTCAGATCGGCGTCCGGCGCTCTGGCCATCGTCGAGCGTCTCGAGAGCAAAGGATACGAACTGAACCTAAGCGAGGCCCTGAcgatcttgaaatttttccataGGCTCGAATTGTTTCAGGTGCAGTCGCGCGACCAGAATTGTGTCAGGTGCAGTAGCGAGTGTGTGAGCGTGGCCCGCAATCCAGCGTCGTGGACTCGGGCAGCGGATATCACAGTCGGAGGCAACACGTCTTTCTCAGGATTTTCCAGTCTCGAGTATTTCGATCATTATTATACGGTACCGTGGGCTCGATCGTTCATGACTCGATTACTCGGGCCGCGACGAGcgaaattaAACTTCTCGGCCGATGAAAACGAGGCGCCTACGCgagatgataatttttcacacCCTGGCACCAAGATGGATGAAAGTGAGAAAAACCCCCAAGAAATTGTCTCTGAAGATAATCTGGGTGAACATGACGTTGTCGTTTCAGACgacgaaaaatacgtttgCGATATTTGCCAAGAGGCATTTACAcaagaatcaagcatgatagctcaccgagacacaattcacaatgatccGAATGATTTTGCCTGCGACAATTGCGCCAAGAAATTTgccaaaaaatcgagtttgtttacgcaccaaaaattggtacacaaaCATCGTGAAGATTTCTCATGCCATAagtgccaaaaaaaatttgaaaataaatcatctttactcaaacacaaaagaatatttcacgaagttttcaataattacttatgTAACAATTGCGGGAAGAGattcagaaataaaaatagtttgctCCTTCACATAAAAAATCTTCACGAgggccgcaaagatttcgcttgtgacaagtgcgaagaCAAATTTGTGTATCAGAGTCATTTGAATAGGCACCAAATGATTGTACACAAAGGCCGCAAAGAATtcgcttgcgacaagtgcgaagaaaaatttccgTATCAAAGTCATTTGAATAGGCATCAAATGGTTGTACAcaaaggccgcaaagatttcgcttgcgacaagtgcgaagaaaaatttgtgtaTCAAAGTAATTTGAATAGGCACCAAATGATTGTACACAAAgaccgcaaagattttgcatgcgatagGTGTGAGCTCAAATTCGAGCGCAAGAGGCTtttgatcaggcaccaaaaAGAAATACATGAAAGTCGAATCGTTTATGCACCCAAACAGAGCAATCCATCGGACTCGAGTAGCCACCAAGAAATGGTCTACGAGAGtcacgaaaatttttcctGCAAAATTTGCGGTAAAAAATTTAGGTATCGTAATGATTTGACCAGGCACATGAATTgggtacacgaaggtcgcgaTGATACCGTTTGCGACCAGTGTGATAAGAAATTTTCGTTTCGAGGAAATTTGATAAGACACCAAAGAGTAACCCACGAGGGTCGCAGAgatttcgaatgtgacatGTGTGGAAAGAAGtttggatataaaaaaagtttgcagcAACATCAAGCAACAGCCCACGAACGTCGCAGAGATTACGTGAATGACAATTACGAGAGCCGATTTGGACAAAATCAGCAATCCCTCACCTACCAAAAGACGTTGCACGAAGATCCCAAAGATAACATATTTGAAAATGTCGGGAAAACATTTGTAGATCAAAGACATTTGATCAAACGCCAAAAAATAAGCCATGAAAATCGCCAAGACGACGTATGTGGAAGTTTCGAGGAGACGATTGTGATTCTAAGCGGTTTGATCACCCACCAAGAAACAGcccaagaaagaaaaaaagatgacgCCGACAATAACGAGAgcaaatttgaacaaaaacaGCAATCGCTCACCCTCCACGAGACTTTACACGAAGGTAACAAAGATAACATATGTGAAAATGTCGGGGTGACATTCGAGGCTCAAAGCAACTTGATCATCAACCAAGAAACAATCCAAGTAGGTCCGAAAAATGACGTATGCGACAATAACGAGAgcaaatttgaacaaaaacaGCAATCGTTCACCCCCCACGAGACCTTAAACGAAGGTCCCATAGATAACATATGTGAAAATGTCGGGGAGACATTCGAGGCtcaaagcaatttgatcaCCCACCAAGAAACAGCCCAAGAAGGTCACGAAGATGATGTATTCAACAATTGTGagaacaaaattgaaaaaacacaGCAATTGCTCACCACTCAAGAAACAGCCCAAGAAAATCATGAAGATTATGTATATGACAATTGCGAGAACGAAATTAAACAAAGCCAGCAATTGTTCATCCACCAAGAAACAGCCCAAGAAAGTCACGAAGATGATGTAATCGAcaatgtcgaaaaaaatcttgaacaAACACAACAATTGCTCAGCCCCCAAAAGTCAGTACATAAAAAGGTCAAACATTATTTAAGTGATGATTCTGGCGAGATATTAGAGGATCCAAGCAGTTTGACCAAACATCAaaggatagtacacgaagGTTTGAAGGAAACTGACAAAGATCACTTATGTGATAATCCCGGGGAGAAATTTGAGGTTCCAAGCAGTTCGCTCGCCCACCAAGAAACAGCCCAAGAAATTCATGAAGATGACGTATTTGACAATTGTGagaacaaaattgaaaaaacacaGCAATTGCTGAGCCCTCAAGAAACAGCCCAAGACAATCATGAAGATTACGTATATGACAATCGCGAGAACGAAATTGAACAAAACCAGCAATTGCAATTGCTCTCCCCCCACGAGTCGGTACATGAAGGTTTGAAAGAATActcatgtgaaaatttcacAGAAACATATGAGAATATAAGCAGTTCGAGCAGACACCAAGAAACAGCTCacgaaagtaaaaaagatttCTTATGTGACGACTGCGGGCAAATATTTGAGGATCAGAGCAATTTGAccaaacaccaaaaaatagtacacgaTGATGAAAtacattacttatgtgacaatTCCGGAGAGACATTTGATGATCAAAGAAGTTCAATCGAACGCCAAAAATTATCCCTCGAAAGTAGCAAAAATTTCTCATGTGACAATTGTGGGCAAACATTTGAGGATCAGAGCAATTTCACCAAACACCGAACAACAGCTCACGAAGGTGGCAAAGATTACTCATTATGGGAAATTTGCGGGGAAATATTTGAGGATCCAAGCAGTTTGACTAAACACCATAAAATATCACACGAAGATGGCAACGATTGCTTATTATGTGAAAATTGTGGAGAGACATTTGAAGATTTAAACAGTTTGACcaatcatcaaaaaacaatccacgaaggaCAAGAACAGCAACTGCTCACCCACCAAGAAATAGTCCAAGAAAATCACGAAGATGACTTATTATGTGAGATTTGCGGGGAGACATTTAAGGATTTAAGCACTTTGACCAGACATCAAGAAACAACCCACGAAAGTAGCAGAgattatttgtgtgaaaattgCGGGGAAACATTTGAGGATCTAAGCAGTTTGATCggacaccaaaaaataatacacgaAGGTGGCAAACATTACTTATGTGACGATTCCGAAGAGACTTTTGAGGATCAAAGGAGTTCGATCAAACGTCAAAAAATAACCCACGAAAGTAGTAAAGTCTTcttatgtgacaattgcgggCGAATATTCGAGGATCAGAGCAGTTTGACCAAACACCAAACAACAGCTCACGCAGGTGACGAAGATTATTCATTCGAAAAGTGTGGGGAGACATTGGAAGATAGAAGCAGTTTTACCAGACATCAAGAAACAGCCCACGTAGCTTCCAAACATCATGTATACGTCAATTGTGAGAACACGATTGTACAGAAACAGCATTTTCTCATCCCCCAAAAGCCGATACACGAAGAGGTCAAAGCTTACTTGTGTGACAATACCGGGGAGACATTTGAAGATCGAAGCAGTttgatcaaacaccaaaaaataagCCATGAGAATAGCAAAGATTCATTACGTGACAATGCCGGAGAGACATTTGAGGATCGTAGCAGTTCGACCAGTTTCCAAAAAACAGCCTACGAAAGTAGCAAAAATTACGCGTGTGACATGTGCacaaagaaatttggaaccaAGGGATATTTGCTCGTTCATCAAAGGTCaatacacgagggtcgcaaagattatgcatgcgacaagtgcgacaagagatttggacaaaaatcaggTTTGCAATACCACAagaagacagtacacgaaggtgaCTACGCATGCGAGAAATGCCAAAAAGTATTTGGATATAAATGTTATTTGCTCTCGCACATGAGAACTgcccacgagggtcgcaaagattacgaatgtgataaatgcgagcATAAATTTAAACATAGATCAGATTTGTacaagcaccaaaggacagtacacgatggtcgcaaagattttgcatgcaacaagtgcgacaaGACATTTGGACAAAGAGGTAATTTGAAAttgcacataaaaaaagttcacgaAGGTCACTAA
Protein Sequence: VTEKLENLILYEQSDDALSVKSELSSEVAAITAGIADNKPEESSSATEELTEIDLTATSSATNEIDSSETQTSSVQQPEEQQTSLDLFSVPPPTTTDFFSSSAQSYPAASFQPQQQQQPAAVDPFSFVQQSQQAPQETTNDRTETSSIPSANVDPRPTPQSIWSTTEQQSHSAVLNPVYGAPIHQSVPTFYNPNQFAQTQQPSFQSGISSTDGQQRTAAPATPNYFQPASIQDSFNVRPEPTGSATLSPVQMSANPLTATRSSSSNQHHQLPVETVPPSLENLAEGDRRYRAQEMEYRAVYHHWFYRREVEAKTLWLPFSMHDSLNLDEVHNSNEIGPETKVATDGGRYDVEILRRQRSPVYWTGPVTEVRRCSWFYKGAAESRYTPYEENVAARLEDEYKQAHQANHWNRRVELNNGEYIVFHSPSVMVHYQQATTPDMAASWGNNASSEDGTYLQGSTVRPRVVKRGMDEFNVDDGEPEKIDHLLFLVHGIGSVCDLKFRTVEEVGKCLGVHDSLFSFYFFSIFNDLSLSCAAVDEFRSVSLQLVQSHYRSSSEQGVVNRIEVLPISWHATLHSGIDKKLQMITLESIPKLRHFTNDTLLDILFYTSPIYCETIMQTVGSEMNRLYDLFRSRNPEFQGSVYLGGHSLGSLIMFDLLCHQKPTDDEEDEEQQQQPQQGVNGQSTADGHKDTDDNTQETSVATKSTRTKKLSKKVSYVMGNAGTGQPFINYPQLQFKPQAFFALGSPIGMFVTVRGIDNLGEDFTLPTCPAFFNIFHPFDPVAYRVESLINPEAHKYRPMLIPHHKGRKRMHLELKETMARVGADLKQKLIDSVRSTWNSVYQLAMFHRQDNRTLLEQEIEKVVEEQLSNPPPESMHHGDDAGADVKIGKLNGGRRIDYVLQEAPFEYINEYIFALTSHVCYWESEDTMLLILKEIYGSMGIQTDAQLPQQSLSIERVSTPTLPTSPAGSSLATSPTTVAAPSATPYGGIDPTAPMSAKPVGPPPRVGFVRKSTIPHGENQQLYYGSIAIGYSIMKRNIIPIRHEQIGIDFAELQKLSDDFYACRRAGHVEVRFDGLLVNGIRFILVVNSKQVVDQLRIQDRLRTADQEMQRCGAAQPRVAVFVDFGLVSIAAQRHEFDDFLSHGEKPGVQDRQNLLMKSLPARRKTKDHAQTRKHPPLLKVMISLQHARDEVTVEAVNVVQASASARVRAKNDLDHDGHMDFDKLLKKLPAVESFADHGAAMVAACRHITGANPCESAFKIMQCWQSTYPDIKAKSLRHSFFTTFMNCFLVPNHNPFLSKYLLALIACEIFTMFLDCRPAAHSSKIGRSRPRAISGDNITESDRQKKTITLIMAQKESRCIRSWIYDRRQREKLSLLLFGRQNLKKPVHECSFSATAVREIVKQSSSSLALLPERILSRTPSSSSSDVVRPRRNDAVHAGRTHCTQRQTLEIETRRGGLVPTLTSINEAKSRRFARLFNEDFQTIDQIYFFLSRLPQQQRRASVVRCTAYNASQVCFSSRRFNEVCFSSRHPMRCVFFHSISLSGERNAFILFAVSNGYKDEPIIGVDGKPLSRRTTAIHRAAMNKCSEFIIRELFKIYSRFDVNYVDEFGFTHLHVVCGYGLDYHVTKFLELGQDPNCIERLTGNSPLHVALTSTAERIEVVRWLLENGADPFLANKDGSTPLHIVCKKKQAYLSILEMFFRICDDKRQKEKFDALDILGRTPLHCACCSGNESAVESLLRRGANPYLADMNGWTPLHIICDNICTYPNLAPIFFKIIDEKQMIVKNKKTTPLKLALRQEHAKIESLLKKSVIVKRNSADGNELTHAQVINKRHRENDLVRTIFEFSVDENLLACINAQNKDGDTPLHLALRRRSNWAAEWLLQNGANPNLADTEGRNSLHAICQPSKKSREEDDDQVDLVKTIFERCHKKYQPLRVDAQDELGRTPLQWAVSSLLPNVVGVLLDNGADLSGFAFPTEAYFATKFDKSMVFKFRSASGALAIVERLESKGYELNLSEALTILKFFHRLELFQVQSRDQNCVRCSSECVSVARNPASWTRAADITVGGNTSFSGFSSLEYFDHYYTVPWARSFMTRLLGPRRAKLNFSADENEAPTRDDNFSHPGTKMDESEKNPQEIVSEDNLGEHDVVVSDDEKYVCDICQEAFTQESSMIAHRDTIHNDPNDFACDNCAKKFAKKSSLFTHQKLVHKHREDFSCHKCQKKFENKSSLLKHKRIFHEVFNNYLCNNCGKRFRNKNSLLLHIKNLHEGRKDFACDKCEDKFVYQSHLNRHQMIVHKGRKEFACDKCEEKFPYQSHLNRHQMVVHKGRKDFACDKCEEKFVYQSNLNRHQMIVHKDRKDFACDRCELKFERKRLLIRHQKEIHESRIVYAPKQSNPSDSSSHQEMVYESHENFSCKICGKKFRYRNDLTRHMNWVHEGRDDTVCDQCDKKFSFRGNLIRHQRVTHEGRRDFECDMCGKKFGYKKSLQQHQATAHERRRDYVNDNYESRFGQNQQSLTYQKTLHEDPKDNIFENVGKTFVDQRHLIKRQKISHENRQDDVCGSFEETIVILSGLITHQETAQERKKDDADNNESKFEQKQQSLTLHETLHEGNKDNICENVGVTFEAQSNLIINQETIQVGPKNDVCDNNESKFEQKQQSFTPHETLNEGPIDNICENVGETFEAQSNLITHQETAQEGHEDDVFNNCENKIEKTQQLLTTQETAQENHEDYVYDNCENEIKQSQQLFIHQETAQESHEDDVIDNVEKNLEQTQQLLSPQKSVHKKVKHYLSDDSGEILEDPSSLTKHQRIVHEGLKETDKDHLCDNPGEKFEVPSSSLAHQETAQEIHEDDVFDNCENKIEKTQQLLSPQETAQDNHEDYVYDNRENEIEQNQQLQLLSPHESVHEGLKEYSCENFTETYENISSSSRHQETAHESKKDFLCDDCGQIFEDQSNLTKHQKIVHDDEIHYLCDNSGETFDDQRSSIERQKLSLESSKNFSCDNCGQTFEDQSNFTKHRTTAHEGGKDYSLWEICGEIFEDPSSLTKHHKISHEDGNDCLLCENCGETFEDLNSLTNHQKTIHEGQEQQLLTHQEIVQENHEDDLLCEICGETFKDLSTLTRHQETTHESSRDYLCENCGETFEDLSSLIGHQKIIHEGGKHYLCDDSEETFEDQRSSIKRQKITHESSKVFLCDNCGRIFEDQSSLTKHQTTAHAGDEDYSFEKCGETLEDRSSFTRHQETAHVASKHHVYVNCENTIVQKQHFLIPQKPIHEEVKAYLCDNTGETFEDRSSLIKHQKISHENSKDSLRDNAGETFEDRSSSTSFQKTAYESSKNYACDMCTKKFGTKGYLLVHQRSIHEGRKDYACDKCDKRFGQKSGLQYHKKTVHEGDYACEKCQKVFGYKCYLLSHMRTAHEGRKDYECDKCEHKFKHRSDLYKHQRTVHDGRKDFACNKCDKTFGQRGNLKLHIKKVHEGH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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