Basic Information

Insect: Yponomeuta padella
Gene Symbol: -
Assembly: GCA_947311075.1
Location: OX371232.1:3609732-3648213[+]

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 0.44 29 5.8 0.2 1 21 295 315 295 319 0.92

2 42 0.0055 0.37 11.8 2.9 2 23 534 556 533 556 0.94

3 42 0.0049 0.33 12.0 0.0 1 23 562 584 562 584 0.97

4 42 9.5 6.4e+02 1.6 0.2 1 10 593 602 593 612 0.80

5 42 9.5 6.4e+02 1.6 0.2 1 10 618 627 618 637 0.80

6 42 9.5 6.4e+02 1.6 0.2 1 10 643 652 643 662 0.80

7 42 9.5 6.4e+02 1.6 0.2 1 10 668 677 668 687 0.80

8 42 9.5 6.4e+02 1.6 0.2 1 10 693 702 693 712 0.80

9 42 9.5 6.4e+02 1.6 0.2 1 10 718 727 718 737 0.80

10 42 9.5 6.4e+02 1.6 0.2 1 10 743 752 743 762 0.80

11 42 9.5 6.4e+02 1.6 0.2 1 10 768 777 768 787 0.80

12 42 9.5 6.4e+02 1.6 0.2 1 10 793 802 793 812 0.80

13 42 9.5 6.4e+02 1.6 0.2 1 10 818 827 818 837 0.80

14 42 9.5 6.4e+02 1.6 0.2 1 10 843 852 843 862 0.80

15 42 9.5 6.4e+02 1.6 0.2 1 10 868 877 868 887 0.80

16 42 9.5 6.4e+02 1.6 0.2 1 10 893 902 893 912 0.80

17 42 9.5 6.4e+02 1.6 0.2 1 10 918 927 918 937 0.80

18 42 9.5 6.4e+02 1.6 0.2 1 10 943 952 943 962 0.80

19 42 9.5 6.4e+02 1.6 0.2 1 10 993 1002 993 1012 0.80

20 42 9.5 6.4e+02 1.6 0.2 1 10 1018 1027 1018 1037 0.80

21 42 9.5 6.4e+02 1.6 0.2 1 10 1043 1052 1043 1062 0.80

22 42 9.5 6.4e+02 1.6 0.2 1 10 1093 1102 1093 1112 0.80

23 42 9.5 6.4e+02 1.6 0.2 1 10 1118 1127 1118 1137 0.80

24 42 9.5 6.4e+02 1.6 0.2 1 10 1143 1152 1143 1162 0.80

25 42 9.5 6.4e+02 1.6 0.2 1 10 1193 1202 1193 1212 0.80

26 42 9.5 6.4e+02 1.6 0.2 1 10 1293 1302 1293 1312 0.80

27 42 9.5 6.4e+02 1.6 0.2 1 10 1502 1511 1502 1521 0.80

28 42 9.5 6.4e+02 1.6 0.2 1 10 1527 1536 1527 1546 0.80

29 42 9.5 6.4e+02 1.6 0.2 1 10 1736 1745 1736 1755 0.80

30 42 9.5 6.4e+02 1.6 0.2 1 10 1761 1770 1761 1780 0.80

31 42 2.1 1.4e+02 3.7 0.5 1 14 1861 1874 1861 1875 0.85

32 42 9.5 6.4e+02 1.6 0.2 1 10 1970 1979 1970 1989 0.80

33 42 0.092 6.2 8.0 0.2 1 23 1995 2018 1995 2018 0.88

34 42 0.00049 0.033 15.1 2.0 1 23 2023 2045 2023 2045 0.98

35 42 0.00011 0.0072 17.2 0.8 1 23 2051 2073 2051 2073 0.98

36 42 0.00017 0.011 16.6 3.8 1 23 2079 2101 2079 2101 0.98

37 42 4.9e-06 0.00033 21.4 0.5 1 23 2107 2129 2107 2129 0.98

38 42 0.0054 0.36 11.8 5.0 1 23 2135 2157 2135 2157 0.99

39 42 0.00091 0.061 14.3 1.2 1 22 2163 2184 2163 2184 0.97

40 42 0.0017 0.12 13.4 2.7 1 23 2191 2213 2191 2213 0.98

41 42 1.9e-05 0.0013 19.5 2.8 1 22 2219 2240 2219 2240 0.96

42 42 5.1 3.4e+02 2.5 2.7 1 17 2247 2263 2247 2264 0.93

#	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	0.44	29	5.8	0.2	1	21	295	315	295	319	0.92
2	42	0.0055	0.37	11.8	2.9	2	23	534	556	533	556	0.94
3	42	0.0049	0.33	12.0	0.0	1	23	562	584	562	584	0.97
4	42	9.5	6.4e+02	1.6	0.2	1	10	593	602	593	612	0.80
5	42	9.5	6.4e+02	1.6	0.2	1	10	618	627	618	637	0.80
6	42	9.5	6.4e+02	1.6	0.2	1	10	643	652	643	662	0.80
7	42	9.5	6.4e+02	1.6	0.2	1	10	668	677	668	687	0.80
8	42	9.5	6.4e+02	1.6	0.2	1	10	693	702	693	712	0.80
9	42	9.5	6.4e+02	1.6	0.2	1	10	718	727	718	737	0.80
10	42	9.5	6.4e+02	1.6	0.2	1	10	743	752	743	762	0.80
11	42	9.5	6.4e+02	1.6	0.2	1	10	768	777	768	787	0.80
12	42	9.5	6.4e+02	1.6	0.2	1	10	793	802	793	812	0.80
13	42	9.5	6.4e+02	1.6	0.2	1	10	818	827	818	837	0.80
14	42	9.5	6.4e+02	1.6	0.2	1	10	843	852	843	862	0.80
15	42	9.5	6.4e+02	1.6	0.2	1	10	868	877	868	887	0.80
16	42	9.5	6.4e+02	1.6	0.2	1	10	893	902	893	912	0.80
17	42	9.5	6.4e+02	1.6	0.2	1	10	918	927	918	937	0.80
18	42	9.5	6.4e+02	1.6	0.2	1	10	943	952	943	962	0.80
19	42	9.5	6.4e+02	1.6	0.2	1	10	993	1002	993	1012	0.80
20	42	9.5	6.4e+02	1.6	0.2	1	10	1018	1027	1018	1037	0.80
21	42	9.5	6.4e+02	1.6	0.2	1	10	1043	1052	1043	1062	0.80
22	42	9.5	6.4e+02	1.6	0.2	1	10	1093	1102	1093	1112	0.80
23	42	9.5	6.4e+02	1.6	0.2	1	10	1118	1127	1118	1137	0.80
24	42	9.5	6.4e+02	1.6	0.2	1	10	1143	1152	1143	1162	0.80
25	42	9.5	6.4e+02	1.6	0.2	1	10	1193	1202	1193	1212	0.80
26	42	9.5	6.4e+02	1.6	0.2	1	10	1293	1302	1293	1312	0.80
27	42	9.5	6.4e+02	1.6	0.2	1	10	1502	1511	1502	1521	0.80
28	42	9.5	6.4e+02	1.6	0.2	1	10	1527	1536	1527	1546	0.80
29	42	9.5	6.4e+02	1.6	0.2	1	10	1736	1745	1736	1755	0.80
30	42	9.5	6.4e+02	1.6	0.2	1	10	1761	1770	1761	1780	0.80
31	42	2.1	1.4e+02	3.7	0.5	1	14	1861	1874	1861	1875	0.85
32	42	9.5	6.4e+02	1.6	0.2	1	10	1970	1979	1970	1989	0.80
33	42	0.092	6.2	8.0	0.2	1	23	1995	2018	1995	2018	0.88
34	42	0.00049	0.033	15.1	2.0	1	23	2023	2045	2023	2045	0.98
35	42	0.00011	0.0072	17.2	0.8	1	23	2051	2073	2051	2073	0.98
36	42	0.00017	0.011	16.6	3.8	1	23	2079	2101	2079	2101	0.98
37	42	4.9e-06	0.00033	21.4	0.5	1	23	2107	2129	2107	2129	0.98
38	42	0.0054	0.36	11.8	5.0	1	23	2135	2157	2135	2157	0.99
39	42	0.00091	0.061	14.3	1.2	1	22	2163	2184	2163	2184	0.97
40	42	0.0017	0.12	13.4	2.7	1	23	2191	2213	2191	2213	0.98
41	42	1.9e-05	0.0013	19.5	2.8	1	22	2219	2240	2219	2240	0.96
42	42	5.1	3.4e+02	2.5	2.7	1	17	2247	2263	2247	2264	0.93

Sequence Information

Coding Sequence: ATGGATGTTTTGCTTTATAATTCCGCAGTGTGTAGATTATGTGGTGAGGAAAATGAAAATGGAACATTACTGTATGCTGATCCAGAAAACGAAGAAAATCTGTGTGATTTGATCAATACTTACTTGCCTCTAAAGATTTCTGATGATGGACAGCTTCCACGTACCATATGCCCTGGCTGTACCATCCAAGTTGAAGCTACTGTGGAGTTCCTTAACTTGATAATCAAGGGACAGAAAATCGTTAGAGAGCTCCACAGCAATGAGAAAGCGTACAGCAAATCTCTGCTACAGAAATTGGACATATCAGAAAACGAACTTCCTGAAAAACTGTACTATGAAATAAACACAAGCAATGGGGTCTACCAAGTGGAGCACCCCATGTCGCTCCAGGCCGCTGGATTGGACAAGCCGAAGCGCAAAAGAGGCCGGCCTCCGAAGAAGCCCAAAACTCCAGAGGAGTTGGCTGCAGAAGCCTTGGAGAGAGACAAGGAGCTCGCCAGGATTAAGGCTTCGAGGGAAGCGAATGACAATGAGGAACCTACTGGGAAGCGACGTAGGAAGGCACCAACGAGATTCAGGGAGGCTGTTCAGGGCAAAGAGCTGGAGCGGATACTCAAAGACGAGGGGGTGATAGACCCTGAAGAGGTCGACCCGGACGGGAAACCGGACGAGCCGGGCCGCAAGTCGCCCGTCTGCAAGCTTCCCGAGGTCATCGGCCACCTGGAGACCTCGGGCGAGCCCGTCGTCGTGCTGCAGGGGAAGGGCCGGGGCAGACCCAAAGGCCGCATGCGTCCGACGCGTGAGCAGTGCGCCATATGCGGCATGGAGTTTTCGTGCGTGGGTCGCTATATGTCCCACATCGCACAGCACGGACCCGTCATGTACCAGTGCGGAGAATGCGGCTTGCAGGCTTCCACACGGCTGCTCTTCACACAGCACCAAAGCGACACCGGTCACACCGGGCAGAAAGTGATTCCTCTGAAGAATGAGAAACACGAGATGCCTACAGATTCCGACCCGCTCGCTATCGAGGAAGCCACGGTGCTTCCCGACCTGAACCCGGCGAGTCTCAACCTTATGCCCATCGGCGCTAAGGTCGACAGTGCCGCGAAGGTGGCTGACCTGGAAGTGGACGTCATCAAGGGACTGGGCAATGATAGCAAGAGCGATGGAGACTCGTCCACTGTGGATGTTGAGTCGAGTCCTGTGGCCAAGACTGAAGTTGGGACTAGCGGTGATTATATCATAAATTCTGTGGAATTTCACGCCAGGCAGACGGGCGTCGCGAAGCTTTCCAAACAGATTACCAGTTGCAAGTATAAAGAGAAAGATATGAGAGCGGCAATTTCCATACTTGAGCCCCGTTTTGAGAAGCTATGTGTAGAAAAGCAAGCTCATCCTGCGCCCTGGGGCGTCGCAAAGAAATGGAAAACTCCCACGAGCGTCAGAGTCAAAATAAGTTTGGGAAGCCCTGGCTTAAGGGACAGGATGTTTAATGGGGCTATTCTACATCAATCCTATCTCCTGCCGACAGAGAGTGAGGAAACAGCGCGGGCGGGCCCCGCGGCCGCGGGGGGGGCGGGACTTAAGGCCAAGCTCAAGTGCAACCACTGCGACAAGATGTTCAGTAGTCGGCAGAGCAAGTCTATGCACATCAAGGCCCTGCACGCGGGCGAGCGGCCGTACGTGTGTCGCGAGTGTGGTGCCGCCTTCCCCTACCCGCGCTCGCTCGCCATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCACCTGCGACCTATGCGGGAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCACCTGCGACCTATGCGGGAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCACCTGCGACCTATGCGGGAAGGTAACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACATACACGCCATCAGCCACCGCCGGACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTAACACACACACACGCCATCAGCCACCGCCGCACCAACCCCAGCAAGGGGTTCGCCTGCGACCTATGCGGGAAGGTGCTGAACCATCCGTCGTCGGTGGTGTACCACAAGGAGGCGGAGCACGCCGGCAAGCAGTACGTGTGCCTCAAGTGCGGCAAGGGCTTCAAGCATAAGCAGATCCTGCAGCGGCATCAGCTGGTGCACTCGCAGCTGCGCCCCTACACCTGCCAGACGTGCAGCGCCTCGTTCAAGACCAAGCCGAACTTGATAAACCATCAGCTGCTTCACACCGGCATCAAAAAGTACAGCTGCGAAACCTGCAAGCAGAGATTTGCACACAAAACCAGCTTGACGCTCCACATGAGATTGCACACGGGCCTCAAGCCCTACACGTGCGGCGTGTGCACAAAGAGCTTCTCCCAAAAGGGCAACCTGTCGGAGCACGAGCGCATCCACACGGGCGAGAAGCCCTACAAGTGCACTCTCTGCACGCGCGCCTTCACCACCAGCTCGCAGCACCGCCTGCACCTGCGGCGCCACTCCGCCGACCGGCCCTACGAGTGTACGCACTGCGGGAAGAAGTTCCTGTCGCGCGAGTCGTGGCGCGTTCACATGCGTCGCGAGGCGGGCGCGCGTGCGCACCGCTGCGCGCTGTGTCCGCGCGCCTTCTGCGAGCGCTGGGCGCTGCTGAAGCACCAGCGCCGGCACACCGGCGAGCGACCCTTCCGCTGCCCGCACTGCCCGCGCGCCTTCGCAGACTGCTCCAACCTCAACAAGCATAAGAGGAAAATCACCGGCGAGCGGCCATTCCCCTGCTCGCACTGCCTGCGCGCCTTCGCCGACTGCTGTAACCTCAACGAGAATAAGAAGCAAGTCCACAAGCAGATCTCACTGCTGGTCTCCGAGAACCAGCGGCAAGCCGTGGAGCCAGCAGGCCAGATCATCATCCAGCCCCAGCCCAGCCCCCAGCTGATCATCCAAGCCGAGGCAAGCGACCTGGTCCTGGAAGACAGCGAACAGATCGTCCTGCAGGAAGCCGGGGAAAGTCTTCCTACATCACCTGAAGACGGGGAGCGGGTCATATATGTCACTTACAACGTGGAGGGTGAAGACTCTGGATTCCATATACTGGATGCGAACGCTGAGGAGGAGGAGCCCCAGTCCCCGGAGGCGGCGCCCCCGAGCCCGCTGCCGCCGGGCCGCTCGCTGCTGCTGCCCGGTGACGACGTGACCGCGCCGCGCCGCCGCCGGGACCCCGCCGGGGACCAGAAGACACACATGGCGGTGACGGACGAGGAAGGCAACCCGCTGCACTTTACGATGCAAGACGGCACACGGCTCGCTATCACTTCTGCCGACGGGAAGTCGTTGCAGGTGGTAACGCAAGATGGCCGCACCATTCCGGTTGAGATAAATGGCTACAACGACGAAGAGGTTGCCATGGAAGTAGAGAGCGAGGATACAGTGGAGCAGCAACTGGCGCTGCATAAGACCGAGGAGGCGAGTCCTGAAGCTTCCCCCGTCGCGCATTACTTCACCATCGTCTAG
Protein Sequence: MDVLLYNSAVCRLCGEENENGTLLYADPENEENLCDLINTYLPLKISDDGQLPRTICPGCTIQVEATVEFLNLIIKGQKIVRELHSNEKAYSKSLLQKLDISENELPEKLYYEINTSNGVYQVEHPMSLQAAGLDKPKRKRGRPPKKPKTPEELAAEALERDKELARIKASREANDNEEPTGKRRRKAPTRFREAVQGKELERILKDEGVIDPEEVDPDGKPDEPGRKSPVCKLPEVIGHLETSGEPVVVLQGKGRGRPKGRMRPTREQCAICGMEFSCVGRYMSHIAQHGPVMYQCGECGLQASTRLLFTQHQSDTGHTGQKVIPLKNEKHEMPTDSDPLAIEEATVLPDLNPASLNLMPIGAKVDSAAKVADLEVDVIKGLGNDSKSDGDSSTVDVESSPVAKTEVGTSGDYIINSVEFHARQTGVAKLSKQITSCKYKEKDMRAAISILEPRFEKLCVEKQAHPAPWGVAKKWKTPTSVRVKISLGSPGLRDRMFNGAILHQSYLLPTESEETARAGPAAAGGAGLKAKLKCNHCDKMFSSRQSKSMHIKALHAGERPYVCRECGAAFPYPRSLAIHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFTCDLCGKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFTCDLCGKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFACDLCGKVTHIHAISHRRTNPSKGFTCDLCGKVTHTRHQPPPHQPQQGVRLRPMREGNTHTRHQPPPDQPQQGVRLRPMREGNTHTRHQPPPHQPQQGVRLRPMREGNTHTPSATAAPTPARGSPATYAGSKGFACDLCGKVTHTHAISHRRTNPSKGFACDLCGKVLNHPSSVVYHKEAEHAGKQYVCLKCGKGFKHKQILQRHQLVHSQLRPYTCQTCSASFKTKPNLINHQLLHTGIKKYSCETCKQRFAHKTSLTLHMRLHTGLKPYTCGVCTKSFSQKGNLSEHERIHTGEKPYKCTLCTRAFTTSSQHRLHLRRHSADRPYECTHCGKKFLSRESWRVHMRREAGARAHRCALCPRAFCERWALLKHQRRHTGERPFRCPHCPRAFADCSNLNKHKRKITGERPFPCSHCLRAFADCCNLNENKKQVHKQISLLVSENQRQAVEPAGQIIIQPQPSPQLIIQAEASDLVLEDSEQIVLQEAGESLPTSPEDGERVIYVTYNVEGEDSGFHILDANAEEEEPQSPEAAPPSPLPPGRSLLLPGDDVTAPRRRRDPAGDQKTHMAVTDEEGNPLHFTMQDGTRLAITSADGKSLQVVTQDGRTIPVEINGYNDEEVAMEVESEDTVEQQLALHKTEEASPEASPVAHYFTIV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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