Basic Information

Insect: Pteromalus puparum
Gene Symbol: -
Assembly: GCA_012977825.2
Location: Scaffold:2121074-2131701[-]

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 40 0.003 0.28 11.7 0.7 1 23 94 116 94 116 0.98

2 40 0.0097 0.91 10.1 2.3 1 23 299 321 299 321 0.99

3 40 0.088 8.3 7.1 0.4 1 23 337 360 337 360 0.96

4 40 0.083 7.8 7.2 3.0 1 23 373 396 373 396 0.96

5 40 4.8e-05 0.0045 17.4 2.3 1 23 402 425 402 425 0.95

6 40 0.002 0.19 12.2 0.7 3 23 432 453 430 453 0.93

7 40 0.0091 0.85 10.2 0.4 1 23 458 481 458 481 0.96

8 40 1e-07 9.4e-06 25.8 0.8 2 23 488 509 488 509 0.97

9 40 1e-06 9.5e-05 22.6 0.9 1 23 515 537 515 537 0.96

10 40 7.9e-07 7.4e-05 23.0 0.3 1 23 543 565 543 565 0.98

11 40 0.13 12 6.5 0.6 1 23 719 742 719 742 0.92

12 40 3 2.8e+02 2.3 2.6 2 23 892 914 892 914 0.96

13 40 9.3 8.7e+02 0.7 0.4 1 23 1036 1059 1036 1059 0.83

14 40 0.053 5 7.8 4.4 1 23 1074 1097 1074 1097 0.94

15 40 0.59 55 4.5 1.6 1 23 1107 1130 1107 1130 0.96

16 40 1.7 1.6e+02 3.0 1.8 1 23 1144 1166 1144 1166 0.94

17 40 0.022 2.1 9.0 0.9 1 23 1179 1202 1179 1202 0.98

18 40 0.028 2.6 8.7 1.7 1 23 1220 1243 1220 1243 0.95

19 40 0.00051 0.048 14.1 2.1 1 23 1249 1272 1249 1272 0.95

20 40 0.0011 0.1 13.1 1.2 3 23 1279 1300 1277 1300 0.93

21 40 0.0088 0.82 10.2 2.0 1 23 1305 1328 1305 1328 0.97

22 40 2e-06 0.00019 21.7 0.3 2 23 1335 1356 1334 1356 0.97

23 40 0.00011 0.01 16.3 0.8 1 23 1362 1384 1362 1384 0.98

24 40 0.0001 0.0096 16.3 2.1 1 23 1390 1412 1390 1412 0.97

25 40 0.19 18 6.0 0.6 1 23 1543 1566 1543 1566 0.90

26 40 0.27 25 5.5 1.6 1 23 1715 1738 1715 1738 0.94

27 40 7e-05 0.0065 16.8 3.5 1 23 1744 1767 1744 1767 0.96

28 40 9e-05 0.0085 16.5 0.9 3 23 1774 1795 1772 1795 0.96

29 40 0.017 1.6 9.4 0.3 2 23 1806 1826 1805 1826 0.95

30 40 0.017 1.6 9.3 0.8 1 23 1836 1859 1836 1859 0.90

31 40 0.00063 0.059 13.8 0.2 1 23 1865 1887 1865 1887 0.98

32 40 0.03 2.8 8.6 2.7 1 23 1985 2008 1985 2008 0.94

33 40 0.0011 0.1 13.0 1.3 1 23 2258 2281 2258 2281 0.97

34 40 1.9 1.8e+02 2.9 1.5 2 23 2353 2375 2352 2375 0.95

35 40 8.4e-05 0.0079 16.6 4.3 1 23 2381 2404 2381 2404 0.96

36 40 0.0001 0.0093 16.4 2.2 2 23 2410 2432 2409 2432 0.96

37 40 0.0062 0.58 10.7 2.3 1 23 2437 2460 2437 2460 0.97

38 40 1.3e-06 0.00012 22.3 0.8 1 23 2466 2488 2466 2488 0.98

39 40 0.00018 0.017 15.6 2.3 1 23 2494 2516 2494 2516 0.97

40 40 5.6e-05 0.0052 17.1 1.7 1 23 2522 2544 2522 2544 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	40	0.003	0.28	11.7	0.7	1	23	94	116	94	116	0.98
2	40	0.0097	0.91	10.1	2.3	1	23	299	321	299	321	0.99
3	40	0.088	8.3	7.1	0.4	1	23	337	360	337	360	0.96
4	40	0.083	7.8	7.2	3.0	1	23	373	396	373	396	0.96
5	40	4.8e-05	0.0045	17.4	2.3	1	23	402	425	402	425	0.95
6	40	0.002	0.19	12.2	0.7	3	23	432	453	430	453	0.93
7	40	0.0091	0.85	10.2	0.4	1	23	458	481	458	481	0.96
8	40	1e-07	9.4e-06	25.8	0.8	2	23	488	509	488	509	0.97
9	40	1e-06	9.5e-05	22.6	0.9	1	23	515	537	515	537	0.96
10	40	7.9e-07	7.4e-05	23.0	0.3	1	23	543	565	543	565	0.98
11	40	0.13	12	6.5	0.6	1	23	719	742	719	742	0.92
12	40	3	2.8e+02	2.3	2.6	2	23	892	914	892	914	0.96
13	40	9.3	8.7e+02	0.7	0.4	1	23	1036	1059	1036	1059	0.83
14	40	0.053	5	7.8	4.4	1	23	1074	1097	1074	1097	0.94
15	40	0.59	55	4.5	1.6	1	23	1107	1130	1107	1130	0.96
16	40	1.7	1.6e+02	3.0	1.8	1	23	1144	1166	1144	1166	0.94
17	40	0.022	2.1	9.0	0.9	1	23	1179	1202	1179	1202	0.98
18	40	0.028	2.6	8.7	1.7	1	23	1220	1243	1220	1243	0.95
19	40	0.00051	0.048	14.1	2.1	1	23	1249	1272	1249	1272	0.95
20	40	0.0011	0.1	13.1	1.2	3	23	1279	1300	1277	1300	0.93
21	40	0.0088	0.82	10.2	2.0	1	23	1305	1328	1305	1328	0.97
22	40	2e-06	0.00019	21.7	0.3	2	23	1335	1356	1334	1356	0.97
23	40	0.00011	0.01	16.3	0.8	1	23	1362	1384	1362	1384	0.98
24	40	0.0001	0.0096	16.3	2.1	1	23	1390	1412	1390	1412	0.97
25	40	0.19	18	6.0	0.6	1	23	1543	1566	1543	1566	0.90
26	40	0.27	25	5.5	1.6	1	23	1715	1738	1715	1738	0.94
27	40	7e-05	0.0065	16.8	3.5	1	23	1744	1767	1744	1767	0.96
28	40	9e-05	0.0085	16.5	0.9	3	23	1774	1795	1772	1795	0.96
29	40	0.017	1.6	9.4	0.3	2	23	1806	1826	1805	1826	0.95
30	40	0.017	1.6	9.3	0.8	1	23	1836	1859	1836	1859	0.90
31	40	0.00063	0.059	13.8	0.2	1	23	1865	1887	1865	1887	0.98
32	40	0.03	2.8	8.6	2.7	1	23	1985	2008	1985	2008	0.94
33	40	0.0011	0.1	13.0	1.3	1	23	2258	2281	2258	2281	0.97
34	40	1.9	1.8e+02	2.9	1.5	2	23	2353	2375	2352	2375	0.95
35	40	8.4e-05	0.0079	16.6	4.3	1	23	2381	2404	2381	2404	0.96
36	40	0.0001	0.0093	16.4	2.2	2	23	2410	2432	2409	2432	0.96
37	40	0.0062	0.58	10.7	2.3	1	23	2437	2460	2437	2460	0.97
38	40	1.3e-06	0.00012	22.3	0.8	1	23	2466	2488	2466	2488	0.98
39	40	0.00018	0.017	15.6	2.3	1	23	2494	2516	2494	2516	0.97
40	40	5.6e-05	0.0052	17.1	1.7	1	23	2522	2544	2522	2544	0.97

Sequence Information

Coding Sequence: ATGGCAAATAATACAATTTTTTGTGCACTGTTGTGTACTAATTACAAGTACGACAGCGCGGAAGCAGAGAGCATTGGCGTCACCTCTCCGACCAAGAAGACCGTTTTCATCCGGAAGAACAACACCAAGACGAAGAGCAGTCCTGAACAGGAGTCCTCCATGACTCTTTACCAAGTTTCCATTGTTAACGGCAAGGCTTCGTACTCGTTGTTGCCCATCAAGGAGGCCGAAACTAAGAGAGCTTCGCCGAAGAAGACCAATCAGCAAACTGACCAGAAGTTCACCTGCGACGAGTGTGATTTGCAATTCACAACAATAATCCGTCTTAAGGCGCATAAGTCGACTCACAAACCGCTGAACAAGCTGTCGAAGGTGTCGAGGATAAGGTGTAACGAGGAAACAGCAGCGACACCCACATTGCGCAGAAAACAGTCTCTCAAATCGTACGACGAAACGGAAGACGCGGATATAGCTTTTAAGCCGAAGCAAGCTGGCAACAAGGATTTGACGTTTATCTGTCCCTCCTGCGAGTTCAGCACCGACAACAGGAACATCATGCTAAACCATTTTTCCGTTATGCACGGCATGAAGTCCTCTGACATCAAGCATGAGTCTAACGAGCAGCAAACTCACGATGACGAGGTCCACGTCGAAAACAATGAAGAGCTGGAAGAAATCGTGGAGGAAGAGCACCTAGATCAGCTGAACTGCGGACAGTGTGGCTTTACCTGCAACACCCAGGATGATCTTGACTTCCACACGTGTGAGCCTCCGGAAGAGTGCACCTCTTTCAGCTGCCACCTATGCACCTACGAGTGCCTCACTCGCATGGGTCTACAGAGCCATATTACTCGCAAGCACAGGCCGAAGCCCGAGAAGGGCGTCAGCAACGAGTACGAGTGCGACGAGTGCGAGTTCCGTAGCCAGAACAAGAGTTCACTATACTCGCACAAGCGTCGACACCGCAGTGGCAAGCTCAACGTCAGCGTCAAGAGCAGCGAGAACAAATTCTTCTGTAACGAGTGCGACTTTGCTGCCAGGATCAAGAGCGCCTTGTACTTGCACATCCAGAGGAGACACAAGCTGATGGACTCGAAACCCGAGAGGCCTGAGTTCTACAGTTGCGAGCACTGCGATTACACCAACAAGACCAAGTACGAGATGAAGGTACACGTGATCAGAAAGCACACGAACGAGTACCCGCACGAGTGCAAGGACTGCGGGAAGAAGTACAAGATCAAGGGAGATCTGACCAACCACATCAGGTTCCAGCATAGAGAGCAACCGATAATATGTGATGTCTGCGGCAAGACCTGCGGCAACAGTAACTCACTCTACGTGCATCAGAAGTTCGCCCACTACAAGGCTGAATTCGAGTGTCCGATCTGTCATAGAAGGATGGTGAGTCAAGCGAACCTCGACGAGCACGTTCTCAAACAGCACGAACAGAGGGAGGACGCCGTGTGCGAGGAGTGTGGCAAGACGTTCACGAGGCAGAGTAGATTGAAAATCCACATGAGAATTCACACTGGTTTAAAACCTCACGCTTGCAAGATCTGTGGAAAAGCTTTCAGCAGAAAAACCGCATTGAGGCAGCATCTACTCATTCACACCGGACAACGGCCATACGTCTGCGATATTTGTGGCAAGACGTTCACGCAGAAGCCCGGACTGATCAGTCACAGAAAGAGCCATCCTGGATCGCATCCACCCTTGCCCAGGGTTACTATCGATCACGTGCTGTCGGATTTACTTACCGAAGAAGACGGAAGCAGAAATCGTACAGCTTTTTGTTTGGAATTTATGTACGGTCTGATTGAAATAGCAAGCGGTGTACATTCTTTATATGTGTCGCCAAAAAGCTTTTTCTTCTTTCACCTTGACATCCTCGCTCAGAAAGACAGCAAGGTTTTTCGAAAATTTCGACTGCCGATCATTAGACCCATGGGCGGAAAGCACCTGGTCTTCCAAAAGAAACTCGTCAAGATTAGCAAGCCCTTGATGGGTAAGCTCTTGTCCGTCGCCACTCCAATGGTTCAAGTGAAGATCGAGCCGCGCGAGTCGCCCAACCCTGGCGACTTCGAAGAGGTCACTATCGATGGCACCAGTTCTTACGACATTGTCGCACCAAAAAAGAAACACGATTTCATAGTGTACATGTGCAAAACCTGCAAGATGTACTTCCCTGTACGGCAAATGCTCGAGAATCACAACGCGAAGGTCCATGCACCCCAGAAGTCTCCTGCCGTAGTGGTAAGCAGAGTAGTGGTGAACAAGACAGTACAGCAGACCGAGACGATTGCGAGTCCTCCGAAGAAAAGGCAAAAGCGCTTGCAGCCGTTAGTTCAAAAACCTAAAGAATCTCCTGTGGAAGGTGAGGATAGGATCTACTTCACGGGCTACTACAAACTCTCTAGCGGCGATTATGTCTGCAGTAGCTGCAACTTCAGCTCACGCATCCGCACAACCGTCGCCTCGCATGCCGCGCGCAAGCACAACTCTACCGGCTTAGAAAGTGAGGAAAAATCCACGCTTTTCAAAGATCTCACCGAAGAAGAATCGAATATCAAGCAGGTCGAAGAGGACGACGAGGGCAGCTGGCCAGTAGAGGTAGTTGAGGAGGAGATAGAAGTGGAGTCGGAAAAGGATCCTCTGACCGATAATCCAGGTCGTTCCTGTCCGCATTGTCCTTTCGTCTCGAGCATTGGCTCGACCTACCACTCGCACATTAAGCGCAAACATCGCGAGCAGTGGCTCAAGTCAGTCGCGAATAGAGTCGCTGCCCTCGCGTCATCGTCTGTGACTAACACCTTGAGCAACCAGCTTAGCTGCGCGTTCTGCCCCTTCAAGAGCTTCAAACGTACGACGATGCGCTCGCACGTCGTACGTAAGCATCAGTCGACAGACCCGTTGAAAGATGACCCAGAGCTTGCAGATATGCAGGCGCAGACCGAGGGCAAGAAGGTGCGCAAGTGTCCCTACTGCCCGTTCGAGTCTTGGGTCTACTCGACGATGAACTCGCACATCACGCGGAACCACGGCGACCAGCCTCACCCGCTCTTCTCCAAGAACAAGCCACGCTACAACATGCAGCTGTTCACCGGCTATGCCTGCCACTACTGTAGCTTCGCTGGAGCCACGGTTATGAGCATCCGCTCGCATACCGCGAGGGAACACACTGGCAGGAAGCAACCGCTGCAGCAGGTGCCAGTGAAAGAATTCGACTGCGACCAATGCGACTACAAGACCAAGAGCCGGCGAAACATGCAGCAACATCTCAAGGACTGCCACACGATGCTGGCCAATACAGATGGTATGTTCCAGTGTCACGCCTGCTCTTACGAGACGCAGTCGCGGATGGGTTTGCAGAGGCACGTGTCCATCAAGCACAGCGTGCTAGCCAGTAAGAACATTGCGGACAGCGCGTACTTCAAGTGTGAACAGTGCGACTACAAGACACTCAATACCAAGCTCCTGGACTGGCACAAGAGACAGCACAGCGAGGAGAACGACGGAGAGAACGATGGCAAATGCTACGAGTGCAACGAGTGTGACTTCTCCACGTGGGCGAAGAGCCAGTTGTACCAGCACATCAGAAGGAAGCACAAGGATGGCGAGGGTAACGAGAAAGAGCAGGAACCCGAGGTTGAACAACTCTTTGCCTGTGGTCAATGTGACTACGTCTCTAAAAACAAGCACGCTATGAAGACCCACGTGCTCAGAAAACATACCGACGACTATCCGCACGAGTGCAGTCTCTGCGAAAAGAAGTACAAAGTCAAGGCTGACCTCACCAACCATATCAGATTCCAGCATAGAGAGCAGCCCATAATCTGCGACGTTTGCGGCAAGACCTGCCGGAACAGCAACCTGCTCTATCTGCACCAGAAGTTCGCTCACTACAAGCCGGACTTTGAATGCCATATCTGCCATCGGCGAATGGTCAGCCAAGCAAATCTCGACGACCACATACTCAAACAGCACGAGCAAGTCGAGGAGTCCGTGTGCGAGGAGTGCGGTAAGACGTTCAGAAAGGCAGCTCGATTGAAAATCCACATGCGAGTGCACACCGGGGTCAAGCCGTACACCTGCAAGATCTGCATGAAGTCGTTCGCCAGGAGAAACGGATTGAGACAGCACCTGCTGATACACACCGGCAAGCGGCCGTATATTTGCGATATCTGTGGAAAGAGCTTCACGCAGAAAACTGGACTGATCTGTCACAGGAAGATGCATCCAGGCGATAAACCGCCACTGCCGAGAGTCACCATCGAACACGTTCTTACGGATCTGCTAGAAAAAGAAAATTCATTCAAACACCACTTGTCTAGCTCTGAATCTTTAATAAAGAAAAATGATCTTGGTAATCAAAACGATAATTGTAATATCTCTAATACCTCTAATTTACTTTCAAGCGCAATTCAAGATCTAAGGCTCCCGAAGAGGATTAAAATCGAGTCGAAGGAAGAACCAGAGGACAACTACGACTATTCGTCGAGCGACATCGAGTTTGAAGAAGTGACGATAGACGGTAGCAGATTTTCAACTCCCACAGAGAGCAAGGATAATCTGAAGGTCTCCAAAAGTCGCGATAAAAAGATTGTCTCCTCGAAAAAGTCAGTAGTCTACATGTGCAAGTCATGTAATTTAATCTTCCCGAGCTTCAATTCGTTGGAGATACACTTCGGCTCGTTTCATCGAAAAAAGGTGAAGAAACCGGAATCAATTCTAACGGACTGCAAAACTGCGCACGTAACCAGATTGCATAGAGCCCCCGGTCGGAATGTTTTGACGCGTTGGCAAACGTTACCTACAGAATCAATAGCCAAGGAAGAGTTAGATAGTAAGCTGGTTGAAGAGATCATAATTTCTGATGACGAAGAGCAGGTCGTAGTCAAAGAAGTACCAATTGCCAGCGTAGTCGATGACGTTTCAGAGAACCTTGTCGAGGGAGATGCTGAAATGGTGCAAGAAGCCGACAAACTATTAGCTGACTTTGACTTTGATAATGAACTAATCGAGGAGGATGACGACGACTACGTGGTAGAGGAAGGCAACGAAGCAGCTGAATATGGAGTCCATTCTTACAAAACAGAAGACCACGAAGCACGCCTACAATCCGAGAGCCAGAGCCAGGTAGAGTTCCCCTGCTCTATTTGTGATTCCGTCTGTCGAAGCAGACAGGTGCTTAAAATGCACTTCATCCGCAATCACAGCAATCGTTACGAGCATCAGTGCAAGTTCTGCCCAAAGAAGTTCAATATCAAGGGGGACCTAACCAGACACATGCGCTTCGAGCACGAAAACAAGCCCGTCAACTGCAACTTTTGTGGCAAGATCTTTATCAATCGTCGATCGCTCTTCTTGCACCTTAAAACGTTACATAACAAATCTACGTACGCCGAGGAACAGATCGTTTGCGGCAAGTGTGGAAAATCCTTACCCAAGTCCCAGTTTAAAGTCCACATGGATAACCACACCAAGACCTCCTCGAGCGAGAAACCATACTTTTGCATCGTTTGTAACAAGACCTTCGTCACGAGAATGGAGATTAGGCGGCACTTGATGCTTACCCACGTTGATAAAAAGAACTTTGTCTGCTATATTTGCAATAAGCAATTTGCACAGGAAGCCGAAATGGTAAACCACCGAAAGATCCATCTGGCACAGACCAGAATTGGTGCGAGACTCGGTAAAGAGCTCTCCAAGAAGATGAGTACGAAGCAACGGATAATAAACGAAGACGGTAATCTGATCGAGATCGAGCCAAAGGAAGAGCCTAAGGAAGAGCCGGTGGAAAGCTTTGACTGCACATCGAATGACATTGAGTTCGAAGAGGTGACGATAGACGGTAGTAGCAACAGCCTTCCAAGTCTCGTAAACAGCAAGGATAATCCAAAGGTCTCTAATACCCATAATAAAAAGAGCGTCTCCTCGAAAAAACCTGCGGTCTACGTGTGTAAGCCCTGCGACGTCAGCTACTCGGACCATCACTCACTGACGAGACACTTCAACTTGGTTCACCAAAATAAGGCGAAAGAACCGGAAGTCAAGCAAAAACTAACCAAAAGCATAATAGAAAAACTGCAGGAACGCGCTAAGGGATACAGCCAAACCAAAGATGGAAAGTTCGCATGCAATTATTGCGACTACAAATCGGTACTATCGGTCTGCGTTTCTGGACACGTGGCCAGGTTGCACAAAAACCACGAACAGAGTATCGCCGTGCGGACGTCTTCCATAACGTTGGCGATAGAGCCAATAGTCAAGAACGAGTTGGACGTCAAACCGGACGAAGAGATCATAATAACAGATGACAAAGAGCAGGTCGTGGTTGAAGAGGAGGTACCTACGGACAGCGCGATCGATGGCATTACCGAGGACCTTGTCGAGGGAGACGCTGAGATGGTGCAAGAAGCCAACGAACTATTGGCTCACGATGACGACTACGTAGTAGAGGAAGACAACGAAGCAGTTGGATACGGAGTCCATCCTTACGATGCGGAAGATTACGGAGATCACGACGAAATGGAAGGTTACGGTGATCAGGTGGACTACGAAGAGGAAGTAGAAGAAGTCGAAGAAACAGGCGACTACACAGATCACATCGAAGACTCGGCAGACTATGAAGATGAAGTTGAATACGTCGAAGATTGCGACACACAGTACGTCAAAACAGGTGATCTCGATGCACAAGTGGAGACCGAATCGGTCGAGGGCGCCGAAGAGCACCAGTTGAATCAGGAATTCAATAACGCGCAGTTGGTGACCTATACCTGTCCGTACTGCGACTATACCACTACCGATAAAGTTGCTATTCACCAACACATCACCACCACGCACACTGACGTTTTGGCCAAGAAAATTCGCGGCACAATCGAAAGCATCGAGAAGAACAAGGAGAAGAGGAATCAGAAACGAAAGCGTCCAGGTTTCAAGTGCATGTACTGCGACTTTGTTGGGCGTACCCGTACAATCGTTTACGAGCACTCCCGCGTGGAGCACCCAGGCACTGTTCAACCCGCCAAGTGGAGAAAGGAGCCGCCCTACGATCTCAAGTGCGATCGCTGCGACTTCATGACGACGGAACGCCGCAAGATGATGATGCACATCGAGCGCAAACACACAACCGAGTACAAATTCACCTGCGAGTACTGCGGCAAGAAATTCAAAGTCAAATGCGACCTGTCCTCGCACATACGTTTTCAGCATTTCAAGAAGCCGCTGGTCTGTGACGTCTGCGGCAAGGTCTGCAGTAACAGCAACTCCCTGCACGTGCATCAGAAACGCGAGCACTATCAGCCCCAATTCGAGTGTCACATATGCCACCGAAGGATGGTCACCCAGGAAAATCTGGACGAGCACATCCTCAGGCAGCACGAACAGAGGACCACCTTCATGTGCGATCAGTGCGGCAAAGTCTTCGACCAGGCGAGCAAACTAAAGCAGCACACGATGACTCATACCGGAGAGAGACCGCACACGTGTCACCTTTGCGGTAAAGCTTTCGCCAGAAGAGCTGTATTTAGACAGCATTTACTCATTCACACCGGGGAGAAACCCTATAAATGCGATATATGCGGAAAGAGTTTCACGCAGAAACCAGGATTGATCTGCCACAGGAAGGTGCATCCAGGAGAGAAGCCGCCTTTACCCGTCGTCTATATCGATCATATACTTAAGAAAATTGAGCAGAAGATTGGGGAATAA
Protein Sequence: MANNTIFCALLCTNYKYDSAEAESIGVTSPTKKTVFIRKNNTKTKSSPEQESSMTLYQVSIVNGKASYSLLPIKEAETKRASPKKTNQQTDQKFTCDECDLQFTTIIRLKAHKSTHKPLNKLSKVSRIRCNEETAATPTLRRKQSLKSYDETEDADIAFKPKQAGNKDLTFICPSCEFSTDNRNIMLNHFSVMHGMKSSDIKHESNEQQTHDDEVHVENNEELEEIVEEEHLDQLNCGQCGFTCNTQDDLDFHTCEPPEECTSFSCHLCTYECLTRMGLQSHITRKHRPKPEKGVSNEYECDECEFRSQNKSSLYSHKRRHRSGKLNVSVKSSENKFFCNECDFAARIKSALYLHIQRRHKLMDSKPERPEFYSCEHCDYTNKTKYEMKVHVIRKHTNEYPHECKDCGKKYKIKGDLTNHIRFQHREQPIICDVCGKTCGNSNSLYVHQKFAHYKAEFECPICHRRMVSQANLDEHVLKQHEQREDAVCEECGKTFTRQSRLKIHMRIHTGLKPHACKICGKAFSRKTALRQHLLIHTGQRPYVCDICGKTFTQKPGLISHRKSHPGSHPPLPRVTIDHVLSDLLTEEDGSRNRTAFCLEFMYGLIEIASGVHSLYVSPKSFFFFHLDILAQKDSKVFRKFRLPIIRPMGGKHLVFQKKLVKISKPLMGKLLSVATPMVQVKIEPRESPNPGDFEEVTIDGTSSYDIVAPKKKHDFIVYMCKTCKMYFPVRQMLENHNAKVHAPQKSPAVVVSRVVVNKTVQQTETIASPPKKRQKRLQPLVQKPKESPVEGEDRIYFTGYYKLSSGDYVCSSCNFSSRIRTTVASHAARKHNSTGLESEEKSTLFKDLTEEESNIKQVEEDDEGSWPVEVVEEEIEVESEKDPLTDNPGRSCPHCPFVSSIGSTYHSHIKRKHREQWLKSVANRVAALASSSVTNTLSNQLSCAFCPFKSFKRTTMRSHVVRKHQSTDPLKDDPELADMQAQTEGKKVRKCPYCPFESWVYSTMNSHITRNHGDQPHPLFSKNKPRYNMQLFTGYACHYCSFAGATVMSIRSHTAREHTGRKQPLQQVPVKEFDCDQCDYKTKSRRNMQQHLKDCHTMLANTDGMFQCHACSYETQSRMGLQRHVSIKHSVLASKNIADSAYFKCEQCDYKTLNTKLLDWHKRQHSEENDGENDGKCYECNECDFSTWAKSQLYQHIRRKHKDGEGNEKEQEPEVEQLFACGQCDYVSKNKHAMKTHVLRKHTDDYPHECSLCEKKYKVKADLTNHIRFQHREQPIICDVCGKTCRNSNLLYLHQKFAHYKPDFECHICHRRMVSQANLDDHILKQHEQVEESVCEECGKTFRKAARLKIHMRVHTGVKPYTCKICMKSFARRNGLRQHLLIHTGKRPYICDICGKSFTQKTGLICHRKMHPGDKPPLPRVTIEHVLTDLLEKENSFKHHLSSSESLIKKNDLGNQNDNCNISNTSNLLSSAIQDLRLPKRIKIESKEEPEDNYDYSSSDIEFEEVTIDGSRFSTPTESKDNLKVSKSRDKKIVSSKKSVVYMCKSCNLIFPSFNSLEIHFGSFHRKKVKKPESILTDCKTAHVTRLHRAPGRNVLTRWQTLPTESIAKEELDSKLVEEIIISDDEEQVVVKEVPIASVVDDVSENLVEGDAEMVQEADKLLADFDFDNELIEEDDDDYVVEEGNEAAEYGVHSYKTEDHEARLQSESQSQVEFPCSICDSVCRSRQVLKMHFIRNHSNRYEHQCKFCPKKFNIKGDLTRHMRFEHENKPVNCNFCGKIFINRRSLFLHLKTLHNKSTYAEEQIVCGKCGKSLPKSQFKVHMDNHTKTSSSEKPYFCIVCNKTFVTRMEIRRHLMLTHVDKKNFVCYICNKQFAQEAEMVNHRKIHLAQTRIGARLGKELSKKMSTKQRIINEDGNLIEIEPKEEPKEEPVESFDCTSNDIEFEEVTIDGSSNSLPSLVNSKDNPKVSNTHNKKSVSSKKPAVYVCKPCDVSYSDHHSLTRHFNLVHQNKAKEPEVKQKLTKSIIEKLQERAKGYSQTKDGKFACNYCDYKSVLSVCVSGHVARLHKNHEQSIAVRTSSITLAIEPIVKNELDVKPDEEIIITDDKEQVVVEEEVPTDSAIDGITEDLVEGDAEMVQEANELLAHDDDYVVEEDNEAVGYGVHPYDAEDYGDHDEMEGYGDQVDYEEEVEEVEETGDYTDHIEDSADYEDEVEYVEDCDTQYVKTGDLDAQVETESVEGAEEHQLNQEFNNAQLVTYTCPYCDYTTTDKVAIHQHITTTHTDVLAKKIRGTIESIEKNKEKRNQKRKRPGFKCMYCDFVGRTRTIVYEHSRVEHPGTVQPAKWRKEPPYDLKCDRCDFMTTERRKMMMHIERKHTTEYKFTCEYCGKKFKVKCDLSSHIRFQHFKKPLVCDVCGKVCSNSNSLHVHQKREHYQPQFECHICHRRMVTQENLDEHILRQHEQRTTFMCDQCGKVFDQASKLKQHTMTHTGERPHTCHLCGKAFARRAVFRQHLLIHTGEKPYKCDICGKSFTQKPGLICHRKVHPGEKPPLPVVYIDHILKKIEQKIGE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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