Basic Information

Insect: Anopheles coluzzii
Gene Symbol: -
Assembly: GCA_016097175.1
Location: CM027929.1:14682835-14698761[-]

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 34 2.2 1.2e+02 3.2 7.8 1 23 832 855 832 855 0.96

2 34 0.003 0.16 12.2 3.8 1 23 861 883 861 883 0.99

3 34 0.1 5.2 7.4 0.2 1 23 931 954 931 954 0.95

4 34 0.00052 0.027 14.6 1.0 2 23 962 983 961 983 0.96

5 34 0.45 24 5.3 0.2 3 23 1020 1041 1018 1041 0.93

6 34 0.23 12 6.2 0.0 1 23 1054 1077 1054 1077 0.95

7 34 0.00075 0.039 14.1 1.6 1 23 1173 1195 1173 1195 0.99

8 34 0.00012 0.0065 16.6 1.0 1 23 1291 1313 1291 1313 0.98

9 34 0.00089 0.047 13.9 3.5 1 23 1320 1342 1320 1342 0.98

10 34 7.1e-05 0.0037 17.3 1.3 1 23 1354 1377 1354 1377 0.94

11 34 1.8e-05 0.00093 19.2 0.9 1 23 1403 1425 1403 1425 0.98

12 34 7.5 3.9e+02 1.5 0.1 1 23 1439 1462 1439 1462 0.87

13 34 0.75 39 4.7 2.1 1 23 1552 1574 1552 1574 0.98

14 34 0.0016 0.085 13.0 1.3 2 23 1603 1624 1602 1624 0.98

15 34 0.006 0.31 11.3 5.2 2 23 1657 1678 1656 1679 0.94

16 34 9.2e-05 0.0048 17.0 5.3 1 23 1685 1707 1685 1707 0.98

17 34 0.00067 0.035 14.2 0.1 1 23 1804 1826 1804 1826 0.99

18 34 0.25 13 6.2 11.3 2 23 1855 1876 1855 1877 0.95

19 34 0.091 4.7 7.5 7.6 1 23 1883 1905 1883 1906 0.95

20 34 0.00021 0.011 15.8 0.8 1 23 1976 1998 1976 1998 0.98

21 34 0.0056 0.29 11.3 0.8 2 23 2034 2055 2033 2055 0.96

22 34 0.44 23 5.4 3.2 2 23 2188 2209 2187 2210 0.94

23 34 0.0052 0.27 11.5 5.8 1 23 2216 2239 2216 2239 0.96

24 34 0.00026 0.014 15.5 0.6 1 23 2255 2278 2255 2278 0.96

25 34 0.0012 0.065 13.4 1.5 1 23 2284 2306 2284 2306 0.96

26 34 1.1 57 4.1 2.7 1 13 2315 2327 2315 2329 0.89

27 34 0.098 5.2 7.4 2.8 2 20 2693 2711 2693 2714 0.94

28 34 0.0098 0.51 10.6 2.3 1 23 2720 2742 2720 2742 0.97

29 34 6.7e-06 0.00035 20.5 1.9 1 23 2748 2770 2748 2770 0.94

30 34 0.00054 0.028 14.5 1.5 3 23 2778 2798 2776 2798 0.97

31 34 0.00054 0.029 14.5 1.9 1 23 2804 2826 2804 2826 0.98

32 34 0.00021 0.011 15.8 2.2 1 23 2832 2854 2832 2854 0.98

33 34 5.7e-06 0.0003 20.8 2.0 1 23 2860 2882 2860 2882 0.99

34 34 0.021 1.1 9.5 0.4 1 21 2888 2908 2888 2909 0.96

#	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	34	2.2	1.2e+02	3.2	7.8	1	23	832	855	832	855	0.96
2	34	0.003	0.16	12.2	3.8	1	23	861	883	861	883	0.99
3	34	0.1	5.2	7.4	0.2	1	23	931	954	931	954	0.95
4	34	0.00052	0.027	14.6	1.0	2	23	962	983	961	983	0.96
5	34	0.45	24	5.3	0.2	3	23	1020	1041	1018	1041	0.93
6	34	0.23	12	6.2	0.0	1	23	1054	1077	1054	1077	0.95
7	34	0.00075	0.039	14.1	1.6	1	23	1173	1195	1173	1195	0.99
8	34	0.00012	0.0065	16.6	1.0	1	23	1291	1313	1291	1313	0.98
9	34	0.00089	0.047	13.9	3.5	1	23	1320	1342	1320	1342	0.98
10	34	7.1e-05	0.0037	17.3	1.3	1	23	1354	1377	1354	1377	0.94
11	34	1.8e-05	0.00093	19.2	0.9	1	23	1403	1425	1403	1425	0.98
12	34	7.5	3.9e+02	1.5	0.1	1	23	1439	1462	1439	1462	0.87
13	34	0.75	39	4.7	2.1	1	23	1552	1574	1552	1574	0.98
14	34	0.0016	0.085	13.0	1.3	2	23	1603	1624	1602	1624	0.98
15	34	0.006	0.31	11.3	5.2	2	23	1657	1678	1656	1679	0.94
16	34	9.2e-05	0.0048	17.0	5.3	1	23	1685	1707	1685	1707	0.98
17	34	0.00067	0.035	14.2	0.1	1	23	1804	1826	1804	1826	0.99
18	34	0.25	13	6.2	11.3	2	23	1855	1876	1855	1877	0.95
19	34	0.091	4.7	7.5	7.6	1	23	1883	1905	1883	1906	0.95
20	34	0.00021	0.011	15.8	0.8	1	23	1976	1998	1976	1998	0.98
21	34	0.0056	0.29	11.3	0.8	2	23	2034	2055	2033	2055	0.96
22	34	0.44	23	5.4	3.2	2	23	2188	2209	2187	2210	0.94
23	34	0.0052	0.27	11.5	5.8	1	23	2216	2239	2216	2239	0.96
24	34	0.00026	0.014	15.5	0.6	1	23	2255	2278	2255	2278	0.96
25	34	0.0012	0.065	13.4	1.5	1	23	2284	2306	2284	2306	0.96
26	34	1.1	57	4.1	2.7	1	13	2315	2327	2315	2329	0.89
27	34	0.098	5.2	7.4	2.8	2	20	2693	2711	2693	2714	0.94
28	34	0.0098	0.51	10.6	2.3	1	23	2720	2742	2720	2742	0.97
29	34	6.7e-06	0.00035	20.5	1.9	1	23	2748	2770	2748	2770	0.94
30	34	0.00054	0.028	14.5	1.5	3	23	2778	2798	2776	2798	0.97
31	34	0.00054	0.029	14.5	1.9	1	23	2804	2826	2804	2826	0.98
32	34	0.00021	0.011	15.8	2.2	1	23	2832	2854	2832	2854	0.98
33	34	5.7e-06	0.0003	20.8	2.0	1	23	2860	2882	2860	2882	0.99
34	34	0.021	1.1	9.5	0.4	1	21	2888	2908	2888	2909	0.96

Sequence Information

Coding Sequence: ATGGAATGGGGCGACAGCCTGGCAACGGAGCGCGTCATTGCCGGAGGGGGCGGGACCGTCGTCACCACCGTCGGCTCGCCGATGACGCCCGGGCTCGGCGGGCACCATCACCATCAGGGGGCGGCGGACGTCGGCGTCACCTTCGTCACGCACGGCGGGTACGGCAATGAGGCGGGCCAGCGACGCATGATAGCGACGGCCGGCGTGGCGCAGTATGCGGCCGGCCGCGTGGTGGACGGGTCGGCGGGCGGCTCCGGCGCCGGGTACTTCCACGATCAGCTGGCCGCCCACGGCCAGTCCGTGGTGGGCACCGCGATGGGCCACTTTGTCGCGGTGGAGGCGACGGGCGGGGGCGCTTACGCAACGGGCGGCATTGGGGGCGGCGGCGGTCGGACGGTCGGCCCGATGGTGGCCAGCCCGAACGCGGCCTCCCCCCCGGGTGTACCCGGCATGGGCGGGGGCAATGCGTACGGCCATGCGGCCGGCACACCGACCCACGTGGCGTCCTACCTGCAGCAGCAGGGATCGCCGTTCTCGGCGGCCGTCTCGCTACCGTCGTCCAGCCCGTGCCTGGTCGATGCGACCGCCGTCGGTGGACAGATAGTGGCCTCCTGCTCGAAGCCCTCCGAGATGGTGCTGAACAATGAGGCGCTCAAGGTGGCCAACCAGATGCCGGTCATTACCCAGCAGCAGCAGCAGCAGCCGAGGGCAACGCAAATGTACGGCCTGCAAGGGTCGGGACCGATGGAGGTGTCGCTCGAGTCCGAGTTTAGCTTCCCGGGTGTCGACCAAAGCGACAATGTCCAGCAGCAACAGCAGCAACAACAGCAACAACAATCTCTCTCCCTTACCCTCAGCGGCAACGGTGGCCAAGCACCCGTCGCCCGATCGGAACCGCCAAACGAACGCATCACACGCTCGTCCACCGCGAACAATCGGGCCGCGGCCCGGCTAGCCGCCAACGAAGGTTCCGGCGATGGGGAAGCCGCCCTCGAGGAGGGCCTTCCGTCCGATTCGCTCACCAGCAACGACCTGCACTCGGTGTTGGACGGGAAGTTGCTGGCGGACACGAAGCCAAACATCAACAGCATGCTGTCCCAGGGTGGCGATGGCCAGCAGCAGCAGCAGCAGCAGCAGTTGACCCCGGCGATGGTGCTGCCCCAGTCCGACCAGCCCCGCAAGCGCTCCGTCAAGCACGTGCGCTTTGTCGAGCCGAACGAGGAGAACTCGTACGACGGGATGCGGCAGACGCGCGGCAACGTCGTGTCGCCCCATCCGCTCGGGCTGGGCCAGCGCACCGACGACAACGAGCAGGACGAGGAAGAGGACGACGAGGAGGAGGACGAGGAGGAGGACGAGGAGGGCGGGGAGGAAGAGGAGGAGGAGGAGGACGATATGGATGGGCTGTCGCTGATGCAGAACCTGCCGCCGGTGGAGAGTTTGCTGGTCGAGATGGACGAACCGCTCGAGGAGGAGAACGACGACGAGGAGGTGGAGATGGAGGACGACGACGACAATGGGAGCCGGCGCCGCCTGTCCGGAAGGCGGGGGCGGCGCGGTGGCCACCACCTGTCCGGGCTGCATCGCCCGGGCCGGCCGCCCAAGCACAGCGAGTCGATCGAGCTCGAGCTGGAACCGCTGCTGCCGGAAATCGAGATGAGCGAGGGTGGCGGCGGCGGCCTGGGCGGGGCCAGCGGTACGGGCGACGAGAAGGGCGACGAGCAGCAGCGGATCCCGCCGGTGGCGCACGTGTGCCGCGTCTGCCTGTGCGACGAGAAGCCGGCCGGCGAGGACGGCGAGGTGCGCCCGATGGAGTCGCTCTACTGCACGGTCGTGCCGGAGTACCAGTCCCGCAGCCTGTACTCGATCCTGGTCGCCGTCTGCCACCCGCTACATCTCGGCAGCAACGCCGGCATGCCGGACCGGATATGCGCCCCGTGCAAGACGAAGCTGCTGGCCGCGTACGAGCTGTACGACATGTGCCTGCGCAACGACGAGATGCTGCGCCGCAAGTACCAGGAGAAGCTGCTGCTCGCGTCCAGTGCGGCCGGCGGCGGGGGCGAGATGCGCCGCATCAAGAAGGAAAAGCTGGACAACAACGGTGTCGATGCGCTCGGGGGGGACCACGACGACGAGGATGACTACTACCGTGGCGGCATGCCGAAGCGTGGCTCGATGCGCGTGAACGATCACGACGACACATATCTGTACGATCGGCAGTACCCGCTGCATTCGGCCAGCGCCGTCGCGGGCAGAAACTCCACCATCGCGGCCTTGCAGTCCCGCTTCCAGCACCAGCAGCAGCCATCGCACGGAAGATGGGGCAAATATCAGCGCCACCAGTCGCAGCTGCACCAGGTGGCGAACGGGCCGGAAGCGCTGCGCCAGCTGCACGACGGCCGGATGAAACAGGCGGGCGCAGGCGGCGGCGCCGCCCGTTCGGCCGCCAACTACGACTACAACGCATTCCACCGCGTGCTGCCGAACGGTAGCCACCAGTGCACCAAGTGTATGCGCGAGTTCAAGTACCACAGCTACTACAAGAACCACTACATCAGCCAGCACGATCCGAGCAAGCCGTTCAAGTGCCGCAAGTGCCACTACACCTTCCTGACCGAGCGGTGGCTGATCGTGCACATGCGCACGCACATTGCGGCGGGCGATCTGATGCCGCTGGCTGGTGGCCCGGCGGCGGCGGCGGCGACCCAGGGCGCGGCCGATGCCGGTGCGGTCGATTCGTTCGACTCGTCGCTGGACGGCAGCGTGGAGCGGAGGAAGGGGGCGCGCGGCTTCGACTGCTACTACTGCGACATGACGTTCCCGGCGATCGCGCTGCAGAAGCGCCACATGCTGTCGGTTCACGCGGACAAGCATCGCGGGCTGGAGTGCCCGATCTGTCAGTGCCGGTTCGCGAACCAGTCCAGCTTCCTGATCCACCTGAAGGAGCACAAGGAGCAGAAGCGATTGCGCAACAGCAGCGGCGGCAAGCAGGAGGAGGCAGGCGGCAAGGGAGAGGACGCTGCGGCCGGCAGTGCGGCGGTGAAGCGCGAGTACGGCTGCTCCGTCTGTGCGGTGACGTTTGCGCGCGAGGTGCTGCTGAACGAGCATCTGCACGAGCAGCATCCGGACGCGTTTTTGGCGCAAAACAGCGACCTGGCGTACATGTGTGGCGTTTGTTTGGCCGAGTTTAGCGACCGGGCCGCCCTGGAGGGTCACACGAGCAGCACGCACACGGAGGCGGAGCTGGCGGAGGCGGCGGCAGCAGCGGCAAAGGAAAAGGTGCAGCCGCCGGCGGCCGAAAGCGAGAGCACCGGCACGCAGCAGGACGATGTTAAAAAGGAGGGAGAACAGGAAGGGGAGGAAGAGGAGGAGGAGGAAGCGGACGATGAGCAAAACGAGCAAAACAATGCCGATGATGGTGTGAAGCAACAACAGCAGCAGCAGCAGCAGGAGGAAGTGGCGGGCGAGGAGGAAACCAAAGGAGCGGAAAAACCACCGGAGGGCTGCTCGCTGGTGTACAAGTGCAAGCTGTGCCAGTCGCGCTTCGTGACGAAACAGTCGCTGGCCACGCATCTGGAGACGCACGTGGCGGCGATGAAGCGCGCCGCCGGCAAGCGGCCGTACAGTGAAACGGGCGACGGCGAGGGCGGCGACGGTGCGGAGGGTGCTGGTGGTGCCGACGAGGACGACTACAGTGGCGAGGACGACGACGAGGAGGAGGAGTACGGTGGGTCGCAGAACGCGGGCGGAGAGAAGCGCCCCAAACGCGCCAAGCCGCAGGCGGCCGAGGAGGACGACGACACGACGACGGAGGAGATGCCGATCGATCCGGACGAGATCTCGTTCAACCCGGACACGGGCGAGCAGATGTTCACGTGCCAGGTGTGCGGCAAGGTGATCAACACGGTGTCGCAGTTCCGCCGGCACAAGCGCGTCCATTCGCCCAAGGGCCGGCCGTTCGAGTGCCACATCTGCTTCTACCGGTTCGCGATGAAGTACAGCTACACGGCGCACATGCTGCGGCACGAGCTGGGCTGCAATCCGACCCAGCCGACCACGTACCGCTGCACCAAGTGCTCGGAAACGTTCACGCGCCGCAAGCTGCTCAGCCAGCACATGGCGGCCATGCACGGGCGCTGGTCGGACGGGGGCAGCCCGATGTACGGGTCGCCGGGCCAGCCCGGGTCGACCAGCGGCCGCGGCACGCACACCTGCCCGATCTGCTCGGAGTCGTTCACGCGCGAGAGCGTGCTGAACGGGCACATGAAGACGCACAACCTGGAGGCGGCGCAGCTGCAACACTCCGAGGTGTGCTACCTGTGCCGCGTCTGCAGCAACGAGTACGAGTCGCGCGAGCAGTACGAGGCGCACGCGGCCGAAGCCCACCCGGGCATGAAGATGGAGATGGTGGAGGCGGGCGTGTCGGCGGACGTGCTGCAGAAGCTGGGCAATGTGCTGGATGCGGCTGCGGCTGCAGCTACTGCGTCACAGGACGGCGACGGCAACGCTGCGGTCAAGACCGAAGAGAAGCGTGACAATGGCGCCGAGGGCGAGGAGGAGGAGCGTGTCGGGGCTGGCGGGGACGGCGGGGAGGAGGAGAACGGGGAGCAGAAGAGTGCGGCCAGCGCGGCCGGCGGGGGCTTTACGCTCATCTTCAAGTGCAAGCTGTGCTCGGGCCGCTTCCTCAAGAAGAAAACGCTCGACTGGCATCTGCAGACGCACCGGTCGATCGCGAAACAGGGCGACGGTGTGGCGATACTGCCCGATCTGGGACCGGACGCGATCGGCGACCAGCCCAAGATGAGCAAGTGTACGGTGTGTGGACAGATCTTCGACAATGAGCTGCTCTTCCACGAGCATATGCGCACCCATCAGCGCGGTCCGCGCCCGGGTGTCCACCTGGGATACGGAGGGATGGCGCAGCAGCCGCCAACGAGGCGCCGGCGAACCGGCGGCCGCAGCCTGATCCAGTGCGATCTGTGCAAAAAGACGTTCATGTACCGCAGCCAGCTGCACCAGCACACGATGCTGCACCATCAGCCGGGCAAGCCGTACGAGTGCAAGATCTGCCACTACAGCTTCGTGCACAAGCTGAACCTGAAGCGCCACGAGCTGACGCATCTGCGCGAACCGCCCCGTCAGCTGCTCGACCAGCAGCAGCAGCAGCAGCAGCAGGACGCGGATCAGGACGATCAGCTGGACAACTCGCACCTGCTGCAGCCGCTCGTGCTGATGGCCGGCGGTACGGAAGAGGAAGCGACGAACGGTCGGGGACGTGGTGGTGGTGCGGCCGGAACCGCCCAAGACGATGGTGGCGACGGCGATCAGTCCGGCTCGGCAATGGATGGCTCGAGCGCGGCCGACGACGGTACGACGGGCGGCAGCGGGCGGTCCTGGACGGCGAAGAAGTTCAAGTGCGTCGTGTGCGCGCTGGTGTTTAACCGGCAGAACGAGCTGGTGGTGCATCTGCAGACCCACATCGAGCGCATCAACGAGGTGAAAAACCGTACCTCGGCGGCGGTCGCTTCGGCGGCGGACGCCGGCATCGCGCCGACCGATCGGCAGTGCAAGCTGTGCCACAAGGTGTTCAAGTTCAGCTGCCAGCTGAAGCAGCACCATCTGCTGCACCACGCGCGGGAGAAACCGTTCGAGTGCCGCACCTGCCACTATCGGTTCGAGTTCAAGGGCCACCTGGTGCGGCACCGGGCCAACCACCATCCGAACGAGGCGAAGGAGGACCAGGACTTCCCGAGCCCGTACCTTACGTCCACCCCGCTGCGGGGTGCGCGCGGCGGCGGCTATGGAGGGGAGGCCAGCAGCAGCAGCCAGGGCAGCGGCAGCGTGCCAAAGTACGGCGGCATGGTGACGGACGACGTGATTATCGCGCCGACCACGTCCTCGCCCCGGTCGGAGAGTGGGTCGGCCCACCAGTGCCCGATGTGCTCGCTCAAGTTCATCAAGGCGCGCTCGCTGGCCATGCACATGCGGATACATCTCGGCGGGCGGAAGCTGCGCCGCGTCATACCGGCCTCGACGGCGGCCCCGTCGCCGCCGGGTGAGGCCCAGCCCGGCACACCGACGACGGGGGCGGACAAGCTGGTGTGTCGGTTCTGCGCCGGCACGTTCCCGACGGCGCACGAGCTGAAGACGCACATGATGACGCACATCGGCAGCGAGGCGATGGATCTGGAGGTGCCGTTCGGTATCAGCGCGTTCAATCTGCTGCACGAGAACATGTTCAACGATTCGATGGGTGGCGAGGGTGGCTCGTCGGCCGGGGCGCTCGGCGGCGAAGATCACAGCAGTATGGGCGGCGAGGGTGGCAGCAACAGCCGGGCGGAGGGTGGCAGCACGGACGGCGACTATCAGCAGGACGATGGCGAGGACGGTAGCGGCGGTGATCCACTGTTCGACGGCTCCAATCTGGAGCTCCGGCACATGAACCTGATGGCGACGCACCGGTCGCGGCTCGCGGCCACGGCCGCCCTGTCCGCCCGGCTGCAGGCGACCCCCTCCGCTTCCTCTTCGTCGCAGTCGTCCTCGTCGGCGAAGGGCAAGATTGTGTGCGAGCTGTGCAAGAAGGAGTTCCTCTACCCGTGCAATCTCAACCAGCACAAGCAGCTGCACCATTCGAAGGAGAAGCCGCACGAGTGCCGCATCTGCCACTATCGCTTCGAGTACGTCGGCCACCTGCAGCGGCACATCCGGCAGCAGCACGAAAAGATGGCGGAGGAGCTGCTGGCGCCGGCGGAACCGCAAACGTTCGATTGCAACTTTTGCGGCGAATCGTTCGACTCGAAACCTCTGCTAACGGCACACGTGCACACGTTGCACCGAGGCGAGAAGCCGTTCCAGTGTGACAAGTGTCCGGCTACGTTTAGCTATAAGAAATCTTACGAAACTCACCGAGAGGAACATTACTTGAAAGCCAGTAATGGAGCCTTCAAGTGCAGCTTCTGCAAGAAAACTTTCAACAGCGCACAAAAAACGGCGTTCGAGCCGGAGTGGTGCCGGGTCTGCGTGTCCGAGCCGGAGGCGATACACGGCATGGACGAGATGATAGACGCCGACCATTCGGTAAGCCTTAACATGATGCTGGAGGCAATGTTTCCCATGTTTGCCAGTCCGGAAGGGAAAGATTCACCCACCACCCAGCAACACTTGCCAACGAAAGCGTGCGATAGCTGCAAGCACAAGATCATGATCGCGTACGGGCTGTACCTGCTGCTGATAGAGAGCGAAGAGCGGCTGCAGCGCTATCTAGGGGAAGCTCCACGGTCCTGCACGGACGATGAGAAGGCGGAACAATCCTGTGCACCGTACGAGGTGCTGATCGAGTGTAGCTTTGACGATGGCGAGACAGCACTGTCGAGGGAGGAGGAACCACCCGCCTTGCAGCCGTTGGAAGCGTTGGACGAGGAAAGTGTACCGCGGAAAAGAGGCAGACCACGAACCCGGCCACTACCACAGACCACCACCGTGCTCGTGGAGGAGGAGAAGCGACCGAAGCGAATGAGTAAACAGGACCGGACCAACGAGAGCGTCACGGAAGAGGAGCAAATGGTGCTGGAAGAAGATATCGTTCTGCTGGATGAATCCACGGGAGAACAAACCTCCCAACCAGTGGCAAAGAAACGGGGTCGAAAGCCCAAAGTTCGGGCAGATAGTACCGATCAGCTGGATGAATCCACCACGGAACAAATAATCGAACCACCGGTGGCAAAGAAACGGGGTCGAAAGCCCAAAGTTCGGGCAGAAAGCACCGATCAGCTGGATGATTCCACGGCGGAACAAACCGTCGAACCACCGGTGGCAAAGAAACGGGGTCGGAAGCCCAAAATTAAACCCGAACCAGCCGAAGGCGACGAAAGCAGCACGGAAGGCAGGAAGGAACGGAAGCAAAGCGCAACGATCAAGGTGGAAGCGGCCGAATATTTGTCGGATCAGGGTGGCAGTGGCGTTGAGCTAGAGTCTAAGGTGGACGTGTACAACTGTCAGCTGTGCGAGGGGCCAACGTATGGGTCGCCCATCGAGCTGACCGATCACCTGAAGGCGGAACATCCGGACCTGATACGCACGTGCGACAAGTGTCCGAAGGTGTTCATGACGGAGGCGGCGTACCAGCATCACCAGTACTGCCATGCGACGCTGCGCTCCTACTTCTGCATGTTCTGCGACAAGGGTTTCCAGACGGAGAATCTGCTGAAAAGCCATACCAAGTCGCACACGGAGATGGCCGAGTTTTTGTGCTCGCTGTGCGGGAAGAAGTTCAACAACAAGAGCAACTTGCGGCAGCATCTGGTGCGCCACACGGGCGTGAAACCGTGGGCCTGTACTCAGTGTCCGAGCCGGTTCTGTACGAAGGGTGCATTAAACTTACACCAGAGAACACACTCGAAGCTAAGACCGTTCAGTTGCGATATTTGTGGCTCGCAGTTCCACACACGATACTCCCTGATCAAGCACCAGCTAATCCATACAGGTGAACGTCCGTACAGTTGCGATCTCTGCCCCATGAGATTCGTCTCCACCTACCACGTGAAACGGCACATGCTTACGCACACCGGTGAAAAGCCGTTCAAATGCACGTACTGTGAGCGCAGCTTCGCGCAAAGCAACGACATGGTGAAGCACATGAAAACGCACGTGGGCGAAAACCCGTACCAGTGCGATCGGTGTGAAGCATCGTTCCGGCTGCTCACCGATCTGCGCAACCACTACAAGGAGACATGCACGCCGGTCGATAAAGGGGCCGGTTCGTCCGCGGACGAGGGGAAAGCGATACGATTCACAAGCACAAGCATTTTGAAGATGCGATACGAGAAGGAGATGGGCCAGTACAGCGAGCAGCGGTACGAGGAAAGCGCTGGCCAGCGGAAGGTTATGGCAGAGGCGACCGAGTTTCCTGCAATGGAGTAG
Protein Sequence: MEWGDSLATERVIAGGGGTVVTTVGSPMTPGLGGHHHHQGAADVGVTFVTHGGYGNEAGQRRMIATAGVAQYAAGRVVDGSAGGSGAGYFHDQLAAHGQSVVGTAMGHFVAVEATGGGAYATGGIGGGGGRTVGPMVASPNAASPPGVPGMGGGNAYGHAAGTPTHVASYLQQQGSPFSAAVSLPSSSPCLVDATAVGGQIVASCSKPSEMVLNNEALKVANQMPVITQQQQQQPRATQMYGLQGSGPMEVSLESEFSFPGVDQSDNVQQQQQQQQQQQSLSLTLSGNGGQAPVARSEPPNERITRSSTANNRAAARLAANEGSGDGEAALEEGLPSDSLTSNDLHSVLDGKLLADTKPNINSMLSQGGDGQQQQQQQQLTPAMVLPQSDQPRKRSVKHVRFVEPNEENSYDGMRQTRGNVVSPHPLGLGQRTDDNEQDEEEDDEEEDEEEDEEGGEEEEEEEDDMDGLSLMQNLPPVESLLVEMDEPLEEENDDEEVEMEDDDDNGSRRRLSGRRGRRGGHHLSGLHRPGRPPKHSESIELELEPLLPEIEMSEGGGGGLGGASGTGDEKGDEQQRIPPVAHVCRVCLCDEKPAGEDGEVRPMESLYCTVVPEYQSRSLYSILVAVCHPLHLGSNAGMPDRICAPCKTKLLAAYELYDMCLRNDEMLRRKYQEKLLLASSAAGGGGEMRRIKKEKLDNNGVDALGGDHDDEDDYYRGGMPKRGSMRVNDHDDTYLYDRQYPLHSASAVAGRNSTIAALQSRFQHQQQPSHGRWGKYQRHQSQLHQVANGPEALRQLHDGRMKQAGAGGGAARSAANYDYNAFHRVLPNGSHQCTKCMREFKYHSYYKNHYISQHDPSKPFKCRKCHYTFLTERWLIVHMRTHIAAGDLMPLAGGPAAAAATQGAADAGAVDSFDSSLDGSVERRKGARGFDCYYCDMTFPAIALQKRHMLSVHADKHRGLECPICQCRFANQSSFLIHLKEHKEQKRLRNSSGGKQEEAGGKGEDAAAGSAAVKREYGCSVCAVTFAREVLLNEHLHEQHPDAFLAQNSDLAYMCGVCLAEFSDRAALEGHTSSTHTEAELAEAAAAAAKEKVQPPAAESESTGTQQDDVKKEGEQEGEEEEEEEADDEQNEQNNADDGVKQQQQQQQQEEVAGEEETKGAEKPPEGCSLVYKCKLCQSRFVTKQSLATHLETHVAAMKRAAGKRPYSETGDGEGGDGAEGAGGADEDDYSGEDDDEEEEYGGSQNAGGEKRPKRAKPQAAEEDDDTTTEEMPIDPDEISFNPDTGEQMFTCQVCGKVINTVSQFRRHKRVHSPKGRPFECHICFYRFAMKYSYTAHMLRHELGCNPTQPTTYRCTKCSETFTRRKLLSQHMAAMHGRWSDGGSPMYGSPGQPGSTSGRGTHTCPICSESFTRESVLNGHMKTHNLEAAQLQHSEVCYLCRVCSNEYESREQYEAHAAEAHPGMKMEMVEAGVSADVLQKLGNVLDAAAAAATASQDGDGNAAVKTEEKRDNGAEGEEEERVGAGGDGGEEENGEQKSAASAAGGGFTLIFKCKLCSGRFLKKKTLDWHLQTHRSIAKQGDGVAILPDLGPDAIGDQPKMSKCTVCGQIFDNELLFHEHMRTHQRGPRPGVHLGYGGMAQQPPTRRRRTGGRSLIQCDLCKKTFMYRSQLHQHTMLHHQPGKPYECKICHYSFVHKLNLKRHELTHLREPPRQLLDQQQQQQQQDADQDDQLDNSHLLQPLVLMAGGTEEEATNGRGRGGGAAGTAQDDGGDGDQSGSAMDGSSAADDGTTGGSGRSWTAKKFKCVVCALVFNRQNELVVHLQTHIERINEVKNRTSAAVASAADAGIAPTDRQCKLCHKVFKFSCQLKQHHLLHHAREKPFECRTCHYRFEFKGHLVRHRANHHPNEAKEDQDFPSPYLTSTPLRGARGGGYGGEASSSSQGSGSVPKYGGMVTDDVIIAPTTSSPRSESGSAHQCPMCSLKFIKARSLAMHMRIHLGGRKLRRVIPASTAAPSPPGEAQPGTPTTGADKLVCRFCAGTFPTAHELKTHMMTHIGSEAMDLEVPFGISAFNLLHENMFNDSMGGEGGSSAGALGGEDHSSMGGEGGSNSRAEGGSTDGDYQQDDGEDGSGGDPLFDGSNLELRHMNLMATHRSRLAATAALSARLQATPSASSSSQSSSSAKGKIVCELCKKEFLYPCNLNQHKQLHHSKEKPHECRICHYRFEYVGHLQRHIRQQHEKMAEELLAPAEPQTFDCNFCGESFDSKPLLTAHVHTLHRGEKPFQCDKCPATFSYKKSYETHREEHYLKASNGAFKCSFCKKTFNSAQKTAFEPEWCRVCVSEPEAIHGMDEMIDADHSVSLNMMLEAMFPMFASPEGKDSPTTQQHLPTKACDSCKHKIMIAYGLYLLLIESEERLQRYLGEAPRSCTDDEKAEQSCAPYEVLIECSFDDGETALSREEEPPALQPLEALDEESVPRKRGRPRTRPLPQTTTVLVEEEKRPKRMSKQDRTNESVTEEEQMVLEEDIVLLDESTGEQTSQPVAKKRGRKPKVRADSTDQLDESTTEQIIEPPVAKKRGRKPKVRAESTDQLDDSTAEQTVEPPVAKKRGRKPKIKPEPAEGDESSTEGRKERKQSATIKVEAAEYLSDQGGSGVELESKVDVYNCQLCEGPTYGSPIELTDHLKAEHPDLIRTCDKCPKVFMTEAAYQHHQYCHATLRSYFCMFCDKGFQTENLLKSHTKSHTEMAEFLCSLCGKKFNNKSNLRQHLVRHTGVKPWACTQCPSRFCTKGALNLHQRTHSKLRPFSCDICGSQFHTRYSLIKHQLIHTGERPYSCDLCPMRFVSTYHVKRHMLTHTGEKPFKCTYCERSFAQSNDMVKHMKTHVGENPYQCDRCEASFRLLTDLRNHYKETCTPVDKGAGSSADEGKAIRFTSTSILKMRYEKEMGQYSEQRYEESAGQRKVMAEATEFPAME

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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