Basic Information

Insect: Cotesia sesamiae
Gene Symbol: -
Assembly: None
Location: scaffold:30408-59493[-]

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 0.02 2 9.1 0.1 1 21 8 28 8 29 0.93

2 42 0.39 39 5.0 0.2 1 13 37 49 37 52 0.88

3 42 1.2e-06 0.00012 22.3 2.2 1 21 60 80 60 81 0.96

4 42 0.00084 0.084 13.4 2.7 1 19 89 107 89 110 0.95

5 42 1.2e-05 0.0012 19.2 1.0 1 21 176 196 176 197 0.94

6 42 0.27 27 5.5 0.5 1 21 245 265 245 266 0.91

7 42 0.013 1.3 9.7 0.0 1 21 284 304 284 305 0.96

8 42 0.0039 0.39 11.3 7.0 1 23 313 336 313 336 0.96

9 42 0.033 3.3 8.3 0.1 2 22 397 417 396 417 0.93

10 42 0.068 6.8 7.4 1.7 1 21 425 445 425 446 0.94

11 42 0.0072 0.71 10.4 5.1 1 21 579 599 579 600 0.96

12 42 0.00063 0.063 13.8 2.0 1 21 609 629 609 630 0.94

13 42 0.99 99 3.7 2.2 1 21 638 656 638 657 0.88

14 42 0.00022 0.022 15.2 0.8 1 20 667 686 667 688 0.96

15 42 0.012 1.2 9.7 1.1 1 15 695 709 695 712 0.90

16 42 0.0072 0.72 10.4 2.2 1 21 733 753 733 754 0.96

17 42 4.3e-05 0.0043 17.4 1.0 1 21 795 815 795 816 0.94

18 42 5.3e-06 0.00053 20.3 1.0 1 21 838 858 838 859 0.96

19 42 0.0038 0.38 11.3 0.2 1 21 933 953 933 954 0.96

20 42 0.0016 0.16 12.5 2.7 1 21 991 1011 991 1012 0.95

21 42 0.82 82 4.0 0.2 1 15 1020 1034 1020 1036 0.87

22 42 0.047 4.7 7.9 1.3 1 23 1063 1087 1063 1087 0.96

23 42 0.0017 0.17 12.4 0.7 1 23 1120 1144 1120 1144 0.97

24 42 0.29 29 5.4 1.9 1 23 1151 1174 1151 1174 0.90

25 42 0.9 90 3.8 1.5 2 21 1202 1223 1201 1224 0.85

26 42 0.0064 0.64 10.6 0.2 1 21 1283 1305 1283 1306 0.93

27 42 2.1 2.1e+02 2.7 1.2 1 9 1314 1322 1314 1337 0.72

28 42 0.0017 0.17 12.4 1.2 1 21 1452 1472 1452 1473 0.95

29 42 0.038 3.8 8.1 0.5 1 21 1524 1546 1524 1547 0.92

30 42 0.0057 0.57 10.7 2.4 1 23 1628 1650 1628 1650 0.97

31 42 2.9 2.9e+02 2.2 2.2 1 23 1657 1680 1657 1680 0.88

32 42 0.075 7.5 7.2 0.6 1 21 1700 1722 1700 1723 0.95

33 42 0.058 5.8 7.6 1.0 1 21 1753 1775 1753 1776 0.94

34 42 0.68 68 4.2 2.2 1 23 1784 1807 1784 1807 0.94

35 42 0.0048 0.48 11.0 0.4 1 21 1831 1853 1831 1854 0.93

36 42 0.012 1.2 9.8 2.7 1 23 1862 1885 1862 1885 0.93

37 42 0.0017 0.17 12.4 0.3 1 21 1912 1934 1912 1935 0.97

38 42 0.00087 0.087 13.3 1.4 1 21 1943 1963 1943 1964 0.95

39 42 0.0099 0.99 10.0 1.0 1 19 2030 2050 2030 2053 0.94

40 42 1.5 1.5e+02 3.2 1.1 1 21 2104 2126 2104 2127 0.91

41 42 0.0055 0.55 10.8 0.6 1 21 2199 2219 2199 2220 0.95

42 42 0.012 1.2 9.8 3.4 1 23 2228 2251 2228 2251 0.98

#	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	0.02	2	9.1	0.1	1	21	8	28	8	29	0.93
2	42	0.39	39	5.0	0.2	1	13	37	49	37	52	0.88
3	42	1.2e-06	0.00012	22.3	2.2	1	21	60	80	60	81	0.96
4	42	0.00084	0.084	13.4	2.7	1	19	89	107	89	110	0.95
5	42	1.2e-05	0.0012	19.2	1.0	1	21	176	196	176	197	0.94
6	42	0.27	27	5.5	0.5	1	21	245	265	245	266	0.91
7	42	0.013	1.3	9.7	0.0	1	21	284	304	284	305	0.96
8	42	0.0039	0.39	11.3	7.0	1	23	313	336	313	336	0.96
9	42	0.033	3.3	8.3	0.1	2	22	397	417	396	417	0.93
10	42	0.068	6.8	7.4	1.7	1	21	425	445	425	446	0.94
11	42	0.0072	0.71	10.4	5.1	1	21	579	599	579	600	0.96
12	42	0.00063	0.063	13.8	2.0	1	21	609	629	609	630	0.94
13	42	0.99	99	3.7	2.2	1	21	638	656	638	657	0.88
14	42	0.00022	0.022	15.2	0.8	1	20	667	686	667	688	0.96
15	42	0.012	1.2	9.7	1.1	1	15	695	709	695	712	0.90
16	42	0.0072	0.72	10.4	2.2	1	21	733	753	733	754	0.96
17	42	4.3e-05	0.0043	17.4	1.0	1	21	795	815	795	816	0.94
18	42	5.3e-06	0.00053	20.3	1.0	1	21	838	858	838	859	0.96
19	42	0.0038	0.38	11.3	0.2	1	21	933	953	933	954	0.96
20	42	0.0016	0.16	12.5	2.7	1	21	991	1011	991	1012	0.95
21	42	0.82	82	4.0	0.2	1	15	1020	1034	1020	1036	0.87
22	42	0.047	4.7	7.9	1.3	1	23	1063	1087	1063	1087	0.96
23	42	0.0017	0.17	12.4	0.7	1	23	1120	1144	1120	1144	0.97
24	42	0.29	29	5.4	1.9	1	23	1151	1174	1151	1174	0.90
25	42	0.9	90	3.8	1.5	2	21	1202	1223	1201	1224	0.85
26	42	0.0064	0.64	10.6	0.2	1	21	1283	1305	1283	1306	0.93
27	42	2.1	2.1e+02	2.7	1.2	1	9	1314	1322	1314	1337	0.72
28	42	0.0017	0.17	12.4	1.2	1	21	1452	1472	1452	1473	0.95
29	42	0.038	3.8	8.1	0.5	1	21	1524	1546	1524	1547	0.92
30	42	0.0057	0.57	10.7	2.4	1	23	1628	1650	1628	1650	0.97
31	42	2.9	2.9e+02	2.2	2.2	1	23	1657	1680	1657	1680	0.88
32	42	0.075	7.5	7.2	0.6	1	21	1700	1722	1700	1723	0.95
33	42	0.058	5.8	7.6	1.0	1	21	1753	1775	1753	1776	0.94
34	42	0.68	68	4.2	2.2	1	23	1784	1807	1784	1807	0.94
35	42	0.0048	0.48	11.0	0.4	1	21	1831	1853	1831	1854	0.93
36	42	0.012	1.2	9.8	2.7	1	23	1862	1885	1862	1885	0.93
37	42	0.0017	0.17	12.4	0.3	1	21	1912	1934	1912	1935	0.97
38	42	0.00087	0.087	13.3	1.4	1	21	1943	1963	1943	1964	0.95
39	42	0.0099	0.99	10.0	1.0	1	19	2030	2050	2030	2053	0.94
40	42	1.5	1.5e+02	3.2	1.1	1	21	2104	2126	2104	2127	0.91
41	42	0.0055	0.55	10.8	0.6	1	21	2199	2219	2199	2220	0.95
42	42	0.012	1.2	9.8	3.4	1	23	2228	2251	2228	2251	0.98

Sequence Information

Coding Sequence: ATGCCGTACGTAGGACGCCCGTATACTTGCAGCATGTGCGGTAAATCCTACATGTGGAAAGTATCTCTCGGGCGCCATCTACGTGAAGAATGCGGCAAAACTCCCCAGCACACTTGCGCGCTCTGTGGCCGGGAGTTTAAACAAAGAACACTAAAACCGTCGCATCTGTGGCGGCCATTTCCCTGTCACACTTGCGGGAAATCTTACACGCGTAAAGATACACTGAGGCGCCATCTGCGGTACGAGTGTGGAAAAAATCCCCAGTACATTTGTTACGTCTGCAAGAAGGGATTTAAACAGAAGTCTAATTTCCACAGACATAATCTTAATCTTGGAGAAGCCCTTTCCTTGCCACAAGTGCGGAAGGTCCTACCGGAACAAGGGCTCCCTCAAGCGCCATCTGCAAGACGAGTGTGGAAAGCCGCCGCAGTACATCTGCAGCATCTGCGAGAAGGGTACGAGGACGAGCTTGCCGATCCTGATGATCCTTCTACTTCGGAGTCCAGGAGGTGCAGGACCAAGAAACACGCTTGTCCCCAGTGCGACAGGAAATATACTAATAAAAGCACTCTTAATAGACATCTTCGGGAAGAGTGCGGAAAGAAACCTCAGTATACTTGTCGCTACTGTCACAAAATTTATTTCTTCACGGAAAAAAAAGGAAAAATTTTATTACAAATGGGAATTAGTCGCGGCTCTCAAGGTACAGATTATTACAAGCGCGTGGGGAAACACAGATGTCGTCAATGTGGAAAAGAATACCGGTGGATGCAGTCGCTGATAAGGCACGAGAGAGAAGAGTGCGGAAAAGCGCCCCAGCATCAGTGTCCACTCTGTGGTGATCGGCGTTACGTCTGCGGCATCTGCGGAAGGGCCTATGTGTGGAGAGAATCCTTAAGACAGCATCGCAGACTCGAGTGCGGCATTCAGCCGCAATTTGCTTGTCGGGTTTGTGCCAGGCCGTTCAAACATAAGCATCATTTGAGAGAACATTTGAGAAGAAAACATCAAGTTCATAGCGTCCTCAGTGTACCCTTGCCGCCAATGCGGAAAAATGTTTTTCAACAAGAAAACAATGTGGAACCACCTCGCAGTTTGCGGAAAGGAGCCGCAATACCCCTGCGAGACTTGCGGAATACGTTTCAAACACAAGCACCACTTGACGAGACACTTGAAAATAAAAATTGGAGCTGCCGCCAGTGCGGGAAGAGTTATTATTGGCGTGGATCGCTGATGACTCACATTAGGGTCGAGTGTGGTAAAGACCCGACCTTCGAGTGTGCAATTTGCAGGAGGAAGTTCAAGTACAAGCATCGATGGCAGTATCATATTTTGTCTGTTTATTTTGGGACACGATGGAAGGCTACGAAACTGGAAACAGCGAAGAAAAAAAAACTTATCAATTTTACGACCCAAATTATCAGTTTATTTGCCCAAGATGCGGAAAGTCTTACAAAAGCGCGGGTTCGCTGTCAAGACACAGGCATTACGAGTGTGGAATCGAGCCTAAGGAAAAGTGTAATCTGTGTGGGAAGAAATTTCCTCATAGGTTTAAGCTCACGAGACACATGGTGTCCTGCAAAGCCAAGCAGAAATGGGGATGGATATTTGCCGGCGTCTCAGTCCTCGTCGGATAACGAGGAAATTTACCCGCAAAATCTTCTCGGTGTCGCGTACAAAACTTCGGTTAATAATTCGAAAGAAGTTAGAGACGACGACGGGAAATATCCTTATTTTAAATGCGAAGTATGCTGCACAAAATTCACAGACCAGTCAAATTTCCGCCGCCACCAGAAGTTCAATTGTAAAGACATGACTCGCAAATTTGAGTGCGAAAAATGTCACAATAAATTCCGCCGCCGAGATACTTTGAAAACTCATTTGATTTCTTGCAATAAGCTTGAAAATCAGTTCCACTGTCCAAAATGCGACGCGATGTTTCGTTGCAACCTGATGCGCCACGTGAATTCTATGTGCGGAACCAACAACGCGCAGGCGTACGAGTGTGAGAAATGCGGAAAATTGTTCGGCAGGCGCGACAATATGAAGCGACATCACGATTTGTGTGGGAGCGCTAAAAAGTATCAGTGCTTGAAGTGCAATAAGAGATTCAGCAGGAAGGATTATATTAAAGAACCGAACCAATCAACGACTCCAAAGAAGCGCCGCGGACGAAGATGTGTCCTCAGCTTGAATTATAATTGCAATTCTTGCGGAAATAAATACGCAAGACTGAGTTGTCTTCGCCGGCATCAGAAGGAGTGCTGTTGCGAGCCTACTCTTCACAATCGAAGAATTCAAGAGATGAATTATTTCCTTTATCCAGAATTAAACTACCAGCGCGACGAGCTTGATATTTTAAGGCCGAAGAAGCTGCGATTGCACTACTGCAGCGGATGCGGGCGGTCTTACACACGCGTGGATAGCTTAAAGAGACATCAGTTAAAATGCAGCGAGTATTTGATGACTTCTCTGCAAGACAACGGAGCCGGGAGGAACGAGGACCGGGAGTATTTCTGTGAGAACTGCGGAAAGAGCTACCGAAGAAGAGACTCTCTTTTAAGACACCAGAGATTAGTAGAATTTTATAAAACTTTGGTGATTATAATTGTAAATTTTGGAATATTCGTGAGTTTATTCAGGGAAATTTGGTTGAATGGCGGGACTAATGAGGTGTCGTTGGTTGCAGAGATGCTGGAACAGTACGAGTGGTTCTCGGAACGAGTGGAACCGGAGATGGGCGCCAGAACGAGTGTGACATATGTGTCGGCATCTGGCGACAATCCGACGCAGTTTTACGTCTGCAGTGCCTGCGGGAAAAGGTACAAGTGGCTGGACAGCCTGAGGAGGCACCAGAGGATACCGATACGAGCTCAGGAACCACATATCTGCTTATCATTAGCCGCTCCCGATAATTTTCCAGCGAATGCTAATTGGCGGAGCCAAAGTCTTCTTTTGGAGCAGCAGTCTTACTTCTGTCGCAAGTGTGGGAACAGTTACTCGAGGCTACACTCGCTAAATCGACACATTAAATTTGAGTGTGGGGTTGAGCCGCAGTTTGAGTGCCCTTTGTGCCATAAACGTTTGGGGACCGCCTCAGATTTTGACCTCGCGTTAATGATGATGCGGCCGCCGCGTCTGAACTTAAAACTTAAGGTTCCTGGGACTCAAGGGACCGTCGGTCGCTTTCCGTGTCCCAATCCGTTCTGCAAGAGTGTTTTCAAGGAAAAGCGGCACCTGGGGACTCACATAAACTATCACTGCGGAAAACCTCCGCGTAAAATATCTGTTTCAGTTTTTCCACGCGCCATCTTTGCGGAACCGTACCAACCGAGGCGCCACACTATGATTGGCCAATACCCGTGCCCGAATTCAAACTGCAGAAGTGTCTTCAATTCGTACTACAATTTGCGGAGTCACATAAACAATCATTGTGGGAAACCCCCAAGATTCAAGTGTCCTCACTGCGACTACCAGACAACATGGCGGAATGATGTCAAGAGACACGTCATAAACAAACATCAAGACGCGATTACTCCTGTTGTTGAACTCTACAAGCCGAATTCTCAGAGAAGCGACAAATTTAGTAGGGACGAAAAGTACGCCTGCTTGAACCCGAATTGCAAGAGCGTGTTTAACGACAAGAGCAATCGCAATAGACACTTTAAGCATCAGTGCGGTAAGCCTCCGAGGTACAAGTGCGGTTACTGCAACCAACAGTCCCATTTCAAGACCAACATTAAAGAACACTGCAAGCGAAAGCACACAAATTTTGACATCACATTCTCTAGCCTGTGGTTTGCAGGGAACTTGATGGAGACAAGCATCCAGGTCGGACCTCCGCAGTACGCCTGCCCGAACCCGAACTGCAACAGAGTTTTTAGCAAAAAGTACAATCGCAATGCTCACGTTAATCTCTACTGCGGAAAACCTCCGAGGTTCAAGTGCCCTCACTGCGATTACAAGTCCTTGCTCAAGAGAAATATCAAAGACCACGCTTTTAGAATGCATTCTGATCTCGATGCTAAAGTTATCGAGCTTTATAATCCGGCGGAGGGCAATAAAAGTGGGGGTGAGACCAAAAAAGTGATAAAAAATATAAAATTCGCGTGTCATAATCTAAAATGCAACGTGATGTTCAATAGCGAGCGCCAACGTGATAAACACTCTGTTGATTGTTGGAAAAATAATTTACAGTCTGAAGAAATGACTTCTGAAAAAAGCGCGAAATTTAAAGATGAATTTAAAGAAAATAAGAAGAAAATTTCTTCAAAAAATCCTATGAAGCCTGTTCATCAAAAAAAAATATCTAAAAAGGCTGTAGATGTTTCTAATCCTGTAAAAGGTCGCTTCTTCTCTTGCTCTACTTGCTTACGGTCCTATAAATATAAATCAAGTTTAAGTCTACATATGAAGATCAAGTGTGGCAAAGAGAAGAAATTTATTTGCTCGGTTTGTGAAAATTGGAGGACTTACCACTTACATAGAAACTACCCGCTAACAGTGCGAAGGTTCGATGACTATTACTCAGGGCTGCAGAATTTTCACTCAAATATTAATCTCAACAAGTATCCTTGCGTGAACGCCCACTGTAACAGCGTTTTTAAGGACGAAAATACTTTGCGTAAGCATGTGAAGTATATATGTGGAAAACCGCCAAGGTACCAGTGCGGATACTGCGAATACAGGTCCCACTGGGCGCCAAATGTCAGAACACACTCAAAGGCGCTTCATCCTGATTTGATGACGGATAAATGGGGACTTTTGTTTGTCCTAACTGCTCGCAGCGATACAAAATCTGCAGGCAGCTGGGAGAAGACATGGGCGGTGGAAGAAAATCCAGGAGCTAAAAAAAAATCCAAGACTAATCCTCGGGGTAAATTCAAGTGCTCTAAGTGCGACAGCACTTTCAGCACCAATAACAGCTGGATATATCACGAGAAATACCATTGCGGAAAGCCACCGAGATACCAGTGCTCTTACTGCACCTACAAGTCCCTCAAGTCTACCAACGTGAAGAAACACTCGATTAGAATCCACAAAGAACTTGACCCGCAGATTATTCAACTCTGGAAGCCTGTTGTCAAACCTGGAGAGTTTTCTTGTCCGAATCAAAATTGTTCGCGGGGTTATAAGACGATGGATAGCTTGAAGTATCATTTGAACTACGAGTGCGGGAAAAAACGGTTCATAGTCCTGCCGGGAGCATTAAGACTGATAAAACCGATAACAGAGCCGCTGAAAAGGGCCGGATTGTTCTACTGTCCGAACGCGAACTGTCAAAAAGTGTTCCAGCACGCGGACTCGCGGAACAAGCACGTTAAATATTACTGCGGGAAACCGCCGAGGTACATGTGTCCTCACTGCCAGTACAAGTCGCTGACCAAGTACAACATTCAATTGCACGCCAAAAGAATTCATCCTAATCTCAAGACGGATGTAATTGAGCTCTACGACAACAAACCTTCGAACAAGAGCAAAGCGGTGAAGTACGCCTGCCCGAACCCAACTTGCTCGCGGGTATTCAGCGACAAGAGCAATCGCAACACTCATTACAATTACCAGTGCGGGAAACCCCCCAGGTTCAAGTGCCCGTATTGCGAGCACAGGTCTCATCGCAAGGCCGATCTAAGGGCGCATGTCAGCGCGAAACATCCTGGGTTCACGAATTTTGTTATTGAGTTCCTGAGAAGACGAAGACCGGTCCAAAGATTGGGAATGACCCACGGGTACTACAAATGTCCGAATAATAACTGCGGAAGGAGTTACAAAGCCAAGGGAACTTTGTTAACTCACTTGAGGTACGAATGCGGGCAAGCTCCGCGGTTTATGTGCGCGTATTGCGGGTTTATCACCAGCTTCAAGAGCAATCTTCGGAGACACTTGAATCATCTTTACATTTCTAAAATATTTATCGCAGATAAATTATACCGAAGATTTGTAGAGTCTCCAGAACTAGACTCAGGAATAACAGAATCAAATTACACCGACAATTTAGAGACCAGCAATAATTCGCCGTTAGTTCCAGAGTCGGTAAAGAAAAAAGCATGTACCAAGAGAAGAAATACGAAGAAGAAAAGGAAGAAGTACTCGTGTCCAAACCCTGGATGCAGCAAAGTATTTAAAATGAAGGGTTGTTTGAAGACTCACTCGATGTACTGCGGAAAACCCCTGAGATTCATGTGCCCGCTCTGCAAATACAGGTCCAAGTGGAACTGCTATGTTAAGTCTCATATTTCTAGAGTCCACAGTGGAGAAAACGCGAGTGTTATTGACGTCTATAAACCTTCGGATAAGTCTGAGGGAAGATATTTATGCCCAAATGACGAATGCAGGAAGAAATGCACCAGCAAGAGGATTTTGGAGAATCATATTAATTTTGAGTGCGAAAAATTGACGCAATTTAAGTGCTATTATTGCTCGTTTAGAGCGCACTTTAGGGATGATGTTAAAGAGCATTCTATGAATGAACATAAGGACAAAGTTTGTCGGGTTAATTTGTTTTTGGGAATTTACGGCGACAAGGACTGCGAAGTTTCTTCTCGTAATTCCCGAAAGGCCCAGGATTACTCGATAAATTTATCCACGGGGAGGTTCCACTGCCCCGCGTGCAATTGGAGCTACACAAGGAGAGATTCAATGCTCGCGCACTATCGCTACGAGTGCGGGAAACCCCCGCGGTTCAAGTGTCCGTACTGCCAACTATGCAGCAAAAAAACTTCCAATGTCTACCAACATGTCAGATCTGTTCATCCCAACGAACCGATCTCCATTTCGAGTCATTGA
Protein Sequence: MPYVGRPYTCSMCGKSYMWKVSLGRHLREECGKTPQHTCALCGREFKQRTLKPSHLWRPFPCHTCGKSYTRKDTLRRHLRYECGKNPQYICYVCKKGFKQKSNFHRHNLNLGEALSLPQVRKVLPEQGLPQAPSARRVWKAAAVHLQHLREGYEDELADPDDPSTSESRRCRTKKHACPQCDRKYTNKSTLNRHLREECGKKPQYTCRYCHKIYFFTEKKGKILLQMGISRGSQGTDYYKRVGKHRCRQCGKEYRWMQSLIRHEREECGKAPQHQCPLCGDRRYVCGICGRAYVWRESLRQHRRLECGIQPQFACRVCARPFKHKHHLREHLRRKHQVHSVLSVPLPPMRKNVFQQENNVEPPRSLRKGAAIPLRDLRNTFQTQAPLDETLENKNWSCRQCGKSYYWRGSLMTHIRVECGKDPTFECAICRRKFKYKHRWQYHILSVYFGTRWKATKLETAKKKKLINFTTQIISLFAQDAESLTKARVRCQDTGITSVESSLRKSVICVGRNFLIGLSSRDTWCPAKPSRNGDGYLPASQSSSDNEEIYPQNLLGVAYKTSVNNSKEVRDDDGKYPYFKCEVCCTKFTDQSNFRRHQKFNCKDMTRKFECEKCHNKFRRRDTLKTHLISCNKLENQFHCPKCDAMFRCNLMRHVNSMCGTNNAQAYECEKCGKLFGRRDNMKRHHDLCGSAKKYQCLKCNKRFSRKDYIKEPNQSTTPKKRRGRRCVLSLNYNCNSCGNKYARLSCLRRHQKECCCEPTLHNRRIQEMNYFLYPELNYQRDELDILRPKKLRLHYCSGCGRSYTRVDSLKRHQLKCSEYLMTSLQDNGAGRNEDREYFCENCGKSYRRRDSLLRHQRLVEFYKTLVIIIVNFGIFVSLFREIWLNGGTNEVSLVAEMLEQYEWFSERVEPEMGARTSVTYVSASGDNPTQFYVCSACGKRYKWLDSLRRHQRIPIRAQEPHICLSLAAPDNFPANANWRSQSLLLEQQSYFCRKCGNSYSRLHSLNRHIKFECGVEPQFECPLCHKRLGTASDFDLALMMMRPPRLNLKLKVPGTQGTVGRFPCPNPFCKSVFKEKRHLGTHINYHCGKPPRKISVSVFPRAIFAEPYQPRRHTMIGQYPCPNSNCRSVFNSYYNLRSHINNHCGKPPRFKCPHCDYQTTWRNDVKRHVINKHQDAITPVVELYKPNSQRSDKFSRDEKYACLNPNCKSVFNDKSNRNRHFKHQCGKPPRYKCGYCNQQSHFKTNIKEHCKRKHTNFDITFSSLWFAGNLMETSIQVGPPQYACPNPNCNRVFSKKYNRNAHVNLYCGKPPRFKCPHCDYKSLLKRNIKDHAFRMHSDLDAKVIELYNPAEGNKSGGETKKVIKNIKFACHNLKCNVMFNSERQRDKHSVDCWKNNLQSEEMTSEKSAKFKDEFKENKKKISSKNPMKPVHQKKISKKAVDVSNPVKGRFFSCSTCLRSYKYKSSLSLHMKIKCGKEKKFICSVCENWRTYHLHRNYPLTVRRFDDYYSGLQNFHSNINLNKYPCVNAHCNSVFKDENTLRKHVKYICGKPPRYQCGYCEYRSHWAPNVRTHSKALHPDLMTDKWGLLFVLTARSDTKSAGSWEKTWAVEENPGAKKKSKTNPRGKFKCSKCDSTFSTNNSWIYHEKYHCGKPPRYQCSYCTYKSLKSTNVKKHSIRIHKELDPQIIQLWKPVVKPGEFSCPNQNCSRGYKTMDSLKYHLNYECGKKRFIVLPGALRLIKPITEPLKRAGLFYCPNANCQKVFQHADSRNKHVKYYCGKPPRYMCPHCQYKSLTKYNIQLHAKRIHPNLKTDVIELYDNKPSNKSKAVKYACPNPTCSRVFSDKSNRNTHYNYQCGKPPRFKCPYCEHRSHRKADLRAHVSAKHPGFTNFVIEFLRRRRPVQRLGMTHGYYKCPNNNCGRSYKAKGTLLTHLRYECGQAPRFMCAYCGFITSFKSNLRRHLNHLYISKIFIADKLYRRFVESPELDSGITESNYTDNLETSNNSPLVPESVKKKACTKRRNTKKKRKKYSCPNPGCSKVFKMKGCLKTHSMYCGKPLRFMCPLCKYRSKWNCYVKSHISRVHSGENASVIDVYKPSDKSEGRYLCPNDECRKKCTSKRILENHINFECEKLTQFKCYYCSFRAHFRDDVKEHSMNEHKDKVCRVNLFLGIYGDKDCEVSSRNSRKAQDYSINLSTGRFHCPACNWSYTRRDSMLAHYRYECGKPPRFKCPYCQLCSKKTSNVYQHVRSVHPNEPISISSH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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