Basic Information

Insect: Sesia bembeciformis
Gene Symbol: -
Assembly: GCA_943735985.1
Location: CALSEZ010000297.1:812297-825645[+]

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 52 0.045 3.1 8.8 1.7 1 23 114 136 114 136 0.96

2 52 0.27 18 6.4 0.2 2 23 165 187 164 187 0.90

3 52 0.044 3 8.9 0.5 2 23 208 230 207 230 0.95

4 52 0.00088 0.06 14.2 2.5 2 23 236 258 235 258 0.95

5 52 0.02 1.4 9.9 0.6 1 23 263 286 263 286 0.96

6 52 2.4 1.6e+02 3.4 0.1 2 23 289 311 288 311 0.93

7 52 0.04 2.7 9.0 1.7 2 22 318 338 317 338 0.94

8 52 0.011 0.79 10.7 0.4 1 23 395 418 395 418 0.92

9 52 2 1.3e+02 3.7 0.1 3 23 447 468 445 468 0.92

10 52 0.13 9.2 7.3 0.2 3 23 492 514 490 514 0.96

11 52 0.0017 0.12 13.3 0.6 3 20 521 538 519 542 0.90

12 52 0.027 1.9 9.5 0.4 1 23 547 570 547 570 0.97

13 52 0.012 0.84 10.6 0.3 2 23 576 598 576 598 0.94

14 52 0.00013 0.0088 16.8 4.7 1 23 602 625 602 625 0.97

15 52 0.00018 0.012 16.4 0.4 2 23 632 653 631 653 0.96

16 52 0.015 1.1 10.3 2.3 1 23 659 681 659 681 0.97

17 52 0.025 1.7 9.6 0.0 2 23 769 791 768 791 0.92

18 52 0.0035 0.24 12.3 3.4 1 23 811 834 811 834 0.98

19 52 5.3e-05 0.0036 18.0 0.8 2 23 840 862 839 862 0.95

20 52 0.0094 0.64 11.0 1.0 1 23 867 890 867 890 0.95

21 52 0.0087 0.6 11.1 0.3 2 23 893 914 892 914 0.96

22 52 0.24 17 6.5 0.1 2 23 1019 1041 1018 1041 0.95

23 52 0.53 36 5.5 0.7 2 23 1064 1086 1063 1086 0.94

24 52 0.016 1.1 10.2 0.4 3 23 1093 1113 1092 1114 0.95

25 52 0.00088 0.06 14.2 1.1 1 23 1119 1142 1119 1142 0.96

26 52 0.034 2.4 9.2 0.8 2 23 1275 1297 1274 1297 0.95

27 52 8.5e-05 0.0058 17.4 1.4 1 23 1302 1325 1302 1325 0.98

28 52 0.035 2.4 9.2 1.6 1 23 1330 1353 1330 1353 0.92

29 52 2.9 2e+02 3.1 0.3 2 18 1385 1401 1384 1404 0.82

30 52 0.031 2.1 9.3 4.8 1 23 1447 1470 1447 1470 0.94

31 52 0.24 16 6.5 0.1 2 23 1499 1521 1498 1521 0.95

32 52 0.0076 0.52 11.3 0.5 1 23 1543 1566 1543 1566 0.92

33 52 0.0026 0.18 12.7 0.4 1 23 1571 1594 1571 1594 0.93

34 52 0.00019 0.013 16.3 0.8 1 23 1599 1622 1599 1622 0.94

35 52 0.0016 0.11 13.4 1.4 1 23 1627 1650 1627 1650 0.98

36 52 0.00027 0.019 15.8 4.5 1 23 1654 1677 1654 1677 0.97

37 52 0.12 8.1 7.5 0.9 2 23 1684 1705 1683 1705 0.96

38 52 0.11 7.9 7.5 2.6 1 23 1749 1771 1749 1771 0.96

39 52 0.042 2.9 8.9 0.0 2 23 1799 1821 1798 1821 0.91

40 52 0.019 1.3 10.0 0.4 1 23 1841 1864 1841 1864 0.96

41 52 3.3e-05 0.0023 18.7 0.3 1 23 1869 1892 1869 1892 0.96

42 52 0.084 5.8 8.0 2.9 1 23 1897 1919 1897 1920 0.96

43 52 1e-05 0.00071 20.3 1.8 2 23 1923 1945 1923 1945 0.95

44 52 0.097 6.7 7.8 4.9 1 21 1951 1971 1951 1972 0.95

45 52 1.2 85 4.3 3.6 1 23 2025 2048 2025 2048 0.94

46 52 0.11 7.3 7.6 0.1 2 23 2121 2144 2120 2144 0.94

47 52 3.6e-05 0.0025 18.5 2.3 3 23 2151 2172 2150 2172 0.93

48 52 0.17 12 7.0 1.2 2 23 2177 2199 2176 2199 0.94

49 52 0.0003 0.02 15.7 1.9 1 23 2204 2227 2204 2227 0.94

50 52 6.4e-05 0.0044 17.8 5.9 1 23 2231 2254 2231 2254 0.97

51 52 0.0016 0.11 13.4 0.5 3 23 2262 2282 2261 2282 0.97

52 52 0.0023 0.16 12.9 1.3 1 23 2288 2310 2288 2310 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	52	0.045	3.1	8.8	1.7	1	23	114	136	114	136	0.96
2	52	0.27	18	6.4	0.2	2	23	165	187	164	187	0.90
3	52	0.044	3	8.9	0.5	2	23	208	230	207	230	0.95
4	52	0.00088	0.06	14.2	2.5	2	23	236	258	235	258	0.95
5	52	0.02	1.4	9.9	0.6	1	23	263	286	263	286	0.96
6	52	2.4	1.6e+02	3.4	0.1	2	23	289	311	288	311	0.93
7	52	0.04	2.7	9.0	1.7	2	22	318	338	317	338	0.94
8	52	0.011	0.79	10.7	0.4	1	23	395	418	395	418	0.92
9	52	2	1.3e+02	3.7	0.1	3	23	447	468	445	468	0.92
10	52	0.13	9.2	7.3	0.2	3	23	492	514	490	514	0.96
11	52	0.0017	0.12	13.3	0.6	3	20	521	538	519	542	0.90
12	52	0.027	1.9	9.5	0.4	1	23	547	570	547	570	0.97
13	52	0.012	0.84	10.6	0.3	2	23	576	598	576	598	0.94
14	52	0.00013	0.0088	16.8	4.7	1	23	602	625	602	625	0.97
15	52	0.00018	0.012	16.4	0.4	2	23	632	653	631	653	0.96
16	52	0.015	1.1	10.3	2.3	1	23	659	681	659	681	0.97
17	52	0.025	1.7	9.6	0.0	2	23	769	791	768	791	0.92
18	52	0.0035	0.24	12.3	3.4	1	23	811	834	811	834	0.98
19	52	5.3e-05	0.0036	18.0	0.8	2	23	840	862	839	862	0.95
20	52	0.0094	0.64	11.0	1.0	1	23	867	890	867	890	0.95
21	52	0.0087	0.6	11.1	0.3	2	23	893	914	892	914	0.96
22	52	0.24	17	6.5	0.1	2	23	1019	1041	1018	1041	0.95
23	52	0.53	36	5.5	0.7	2	23	1064	1086	1063	1086	0.94
24	52	0.016	1.1	10.2	0.4	3	23	1093	1113	1092	1114	0.95
25	52	0.00088	0.06	14.2	1.1	1	23	1119	1142	1119	1142	0.96
26	52	0.034	2.4	9.2	0.8	2	23	1275	1297	1274	1297	0.95
27	52	8.5e-05	0.0058	17.4	1.4	1	23	1302	1325	1302	1325	0.98
28	52	0.035	2.4	9.2	1.6	1	23	1330	1353	1330	1353	0.92
29	52	2.9	2e+02	3.1	0.3	2	18	1385	1401	1384	1404	0.82
30	52	0.031	2.1	9.3	4.8	1	23	1447	1470	1447	1470	0.94
31	52	0.24	16	6.5	0.1	2	23	1499	1521	1498	1521	0.95
32	52	0.0076	0.52	11.3	0.5	1	23	1543	1566	1543	1566	0.92
33	52	0.0026	0.18	12.7	0.4	1	23	1571	1594	1571	1594	0.93
34	52	0.00019	0.013	16.3	0.8	1	23	1599	1622	1599	1622	0.94
35	52	0.0016	0.11	13.4	1.4	1	23	1627	1650	1627	1650	0.98
36	52	0.00027	0.019	15.8	4.5	1	23	1654	1677	1654	1677	0.97
37	52	0.12	8.1	7.5	0.9	2	23	1684	1705	1683	1705	0.96
38	52	0.11	7.9	7.5	2.6	1	23	1749	1771	1749	1771	0.96
39	52	0.042	2.9	8.9	0.0	2	23	1799	1821	1798	1821	0.91
40	52	0.019	1.3	10.0	0.4	1	23	1841	1864	1841	1864	0.96
41	52	3.3e-05	0.0023	18.7	0.3	1	23	1869	1892	1869	1892	0.96
42	52	0.084	5.8	8.0	2.9	1	23	1897	1919	1897	1920	0.96
43	52	1e-05	0.00071	20.3	1.8	2	23	1923	1945	1923	1945	0.95
44	52	0.097	6.7	7.8	4.9	1	21	1951	1971	1951	1972	0.95
45	52	1.2	85	4.3	3.6	1	23	2025	2048	2025	2048	0.94
46	52	0.11	7.3	7.6	0.1	2	23	2121	2144	2120	2144	0.94
47	52	3.6e-05	0.0025	18.5	2.3	3	23	2151	2172	2150	2172	0.93
48	52	0.17	12	7.0	1.2	2	23	2177	2199	2176	2199	0.94
49	52	0.0003	0.02	15.7	1.9	1	23	2204	2227	2204	2227	0.94
50	52	6.4e-05	0.0044	17.8	5.9	1	23	2231	2254	2231	2254	0.97
51	52	0.0016	0.11	13.4	0.5	3	23	2262	2282	2261	2282	0.97
52	52	0.0023	0.16	12.9	1.3	1	23	2288	2310	2288	2310	0.97

Sequence Information

Coding Sequence: ATGAAGCGTGGTCATGTCGAGATAAATCGTGGCTACGTCCTGCACGCGGTCAGTCTTGACGTGACCACGGTTCACGATGTTAAACCGCGGAAATACAAAGGCTCTGAAGTTAAACCGCGGAAATACAAAGAATCTGAAGTTAAACCGCAGAAATACAAAGGATCTGAAGTTAAACCGCGGAAATACAAAGGATCTGAAGTTAAACCGCAGAAATACAAAGCATCTGAAGTTAAACCGCGGAAATACAAAGGATCTGAATCATCATCGATGCGTAGACGGAAAAACCTACAAATTATATTCAACAACACGTCAATTATCCCTTTTAAATGGCGCGGAAAATATCTATGTTTTTACTGTAGTAAAGATATATCAGAGTACTCAGAGCTAAGGAAACATACAAAATCACACGGCAATTGCTCCACTAAAGACCATTCCTTAAAAGTTCTGAAAGGTGGTCAGAACATGGAAATCAAAATTGACGTCTCCAATGTCACATGCGAAAACTGCAACGAAACGTTCCCGAATATTGACGAGGCTATCAGTCATTTGCACGCAACTCATAAGCTAGAGTACGATCGAGGCGTAGACATGGCCATCGAGGAGTACCGACTTGCCGATCTCACTTGTTTACTTTGTAACGAGAAATTCACATATTTTGGATACTTAGTTTCCCATGTAAATAGTAATCATCCGAAAAAATGCCTGATTTGCGACAAATGCAATCAGAGATTCAACAAGAAGAGGGATTTGTTCTCCCATATGAAAAACTACCATAGAGACGGCGGTTACCAATGCGACGTATGCCCTCAAATTTTCAACTCTCTAAATATTCTACGTAAGCATAGAAATAACAGACATTTGACTAGATGCAGTATTTGTCAGTTGAAACTGCCCTCGGCAGCGTTAAAGCAAAAACATATTGAGCTTGAACACCCCGACGATGGATCGTTACAGTGTAATAGTTGTTCTAAAGAGTTTCACACGAAACAAGGGCTCAAAATGCACGTCAGAAAATGCCAAGGAGACTTATTCGACATTGAAATTAAAAGAGAAAGCTACGATTTAGATTTGGACGAAAATTATGAGGAAGTCAAGCGGCCGAGCGTGAAACAAATCAGAGAAAACATAGTCATAGTCATTAATATGTCTACTGCTATACCTTTCAACTTCTATAAGAACAAATTCAACTGCTTCTATTGCTCAAAAGACTTCCCTGACTCTGATTCTATGCGGGAGCATACAGTTATAGAGCACCCCGTGTGTGATGTCAAAGAGAAGTGCATCCGGAAGTGTCGGGAGTCAGTAGCGTGCGTCAAAATTGACATATCATCCCTCGCTTGCAAAGTTTGCTTCGAGTCCATGACCGACTTGGATTCCTTACTCGACCATCTCATACTTAAACACGATGCCAACTATGACAAATCTATAACCACCTGTCTCCAACCATATAGGCTCATTAAAGATCACATGGCATGTCCAAATTGCCCTGCAGAAGTCTTCCGATTCTTCGGAACTTTGCTGAAGCATATGAACAAGAAGCATACGAACAACAACATCATTTGCGTGTACTGCGGTCAGACTTTTAGAAGAGACCAGAATTTGCGGGTTCATATCTGGAGGCACCATAGGGACGGGAGATTTAAATGCAACATTTGCGGTGCTGAATGTAACATACCTTCAAGGTTGTACATGCATATGGCCAAAGCGCACGGTGTGAAGGCGGCAAAATGTCCGAAATGCGCAGAGACTTTCGCGACTCAGTACCTTCGCCAAAAACATTTGATAGAAGCTCACGATTCTGGACACAAGTGCAGTTACTGTGGGAAATTGTTTACGAGGAACTCCTTTATGAGAGATCATATAAGAAGAACGCATTTGAAAGAGAAAAACGTAGAATGTCCCATATGCAACATGAAGTTCTTTAACAACATTCTTTTGAGACGTCACATGGTTAAACATAGCGGGGAAAAGAACTTTCACTGCGATGTGTGCGGTGAAAGATTTTTCTGGAGGAAAAGCCTCCGTACGCACATGGCTAGACATAAATTATTACCAGACAAAACGAACGCAGAGAGCGCCGCTAAGCGCAGGCGGACCAACTTGGTGACACTCTTTAATAACACTACCGTAATGCCCTTTAAGGGGCACGGCGTATTTCTTTGCTATTATTGCGGTTCCAAACATCCCCAGTACACAGATTTCACGAAACACACCAGATCTCATGGTCCGATCACGGCTAAGCATAAGTCACTGAAAGTCCTAAAATCGAAACATGTCGAAATAAAAGTGGACGTGTCTAATATCACTTGCGAATTGTGCGAGGAGACTTTTTCCACATTGAACGATATTATTAAACATTTGATAGGGATACATGGCTTGAACTACGACAAAGAAGTGCCCGTGACATTATCTCCATTCAGATTGGCAGATTTTAGATGCTTGAAGTGTAAAACTGCGTTCGAAAGTCTCTGCTCTCTGGTACGCCATATGAATAGAAGTCATCCAGACAAAACTCTGCCTTGCAAAGAATGCGGCCAGACGTTTAATAGGCGTAAGGACCTGATGGAGCATTTCAGGGTTCGTCATCGCAACGGCGGATATAATTGCACGAAATGTAAACTTAGTTTTCAGAGTTTGACGCAGTTGCGAGAGCATTCCGCCACCGCACACGCTACCTCTTGTGGAATATGCTCAAAAGAATTTCCCACAGAAAGGTTAAAACAGAAACATATGATAGTTCACTCAGATGTTAGGACGGCAGAGGAAGAAATAGAAATCGCTAGGCTCGAGAATACTACTGCTTTGCAGGAAAAGAGACAGCTGGCCAGGCGAAACCGGGAGAATATAGCTTGTATTTTGAACATGACAAGCGCTATACCTTTCAAGTTTTTTAGAAACAAATTCGGTTGCATTTACTGTTCTAAAGAGTGTTCTGATCACGAGCAGTTACGAGAGCATAATGTTCAGAAACATTCGTTTTTCGACGTGCGTAATAAGTGTCCACCAGTTCTCAAAGGAGTCGACATTTATTTGAAACTTGACATAACAAACATGTCTTGCCGAATATGCCGTCAATCCTTTGAAGATTTGGAATCTATTGTAGACCATTTAATAACAAATCATGATGCTAAATACAATAGAAGTATAACGGGAATTATGCAAGGATTTAAATTGGAAAAGTACAACATGGTATGCCCGTTTTGTCAACATTCTTATGCGTATTTCAATCGCCTACTGACGCATATCAATCTTGTGCATATGCCTAAAAATAATCTCTGCGCTGAGTGCGGCGAGGCGTTCCCTAACAAAGTCTTACTGGATTTGCATTTCAAACGTCACCATGAAATTAACGTGTTCAAATGTGAGGATTGTAGTCTGGAATTTAAAAGTAAACTGCAGCTAAGGAGTCACAGGGCGAAAGTGCACGGAGTTAAAGAGGTTGTTTATGAAAACGGCCCAGGGTCTGGTAATAAGCAAAGGAGGAGGAATCTGGAAATTATATTCAACAATACCACGATGATACCTTTTAAATGGCGCGCAAAATATCTTTGTTTTTACTGCTGCGCCGATGTAGGGGATTATAAAGAGTTAAAAAAACATACTAAAGCTCACGGTCCCTATTCAACTACGGATAAAACTGTGAGACACGTTAAAGGCAAAGATATTGAAATCAAAATAGATGTTTCGCATATCGCTTGTGAAATATGCTATGAACCATTCTTAAATTTCAACGAAATTGTCGACCATTTGATATATAAACACAATCTGCAATATAATAAAAATGTAGAACTAACATTGGCTACATATCGGCTAATTGATTTGAAATGCTTGTTCTGCGATGAGCAGTTCAATTACTTCAGTAAATTAATAGTTCACGTGAATAGTAAACATCCGAATGATTGCTTTCAGTGTGATAATTGCAAACAAATGTTTAACAAGAAGAGAGACTTGGAGGCCCACGTGAGAATGTACCACAAGAAAGACGGTTATAATTGCCACGAGTGCTCGTTGATTTTCACTTCTATAAACAGTTTGAAAACTCACAACGCGTCGACTCACCCGTCTATGTGTAATATTTGTTGCAAACTTTTCGAGACTGCTAGAAAAAAGGTGCGCCATATAGAAATCGAGCATGACGATAAAGAGCCGATGCAATGCGGTTTTTGCTCAAAAATATTTAACAGAAAACAAATTTTTATACAACACGCATCGCAGTGTACTAGAAAAGTGTCTAAAGGCAGTGTAAACGACAGGACTGTTGTGAGTCAAATAAGGAACAATCTCGCTTGCATAATAAACATGTCTACCGCTTTACCCTTCAAACATTTCTTGAATAGGTTCAGATGTTTCTATTGTCCGAAAGACTTCAATGAATGCCACGACTTAAAAAACCACACGGTGTCAGTTCACCCTCACTGCGATATTAAGGTAAAGAGCATGAAATTACGTAACAGGACAAGGAATGAAGGCATAAAAATCGACATCTCTTCTTTGTCATGTAAAATTTGCTATAAAACTGCTGAAGATTTGGACAATATGGTTGACCATTTGATCAGGGAGCACAAAGCTCGCTATAACAAATTTGTCAAGCTCAAAGTACAACCTTATAAGTTGATAAAAGACAATTTCCCGTGTCCACATTGCGGTGAAGTGTTCAGGTACTTCGGCATTTTACTCAAGCATGTGAGTAGCAGCCATACGGAGAACAAACACATTTGTGTGTATTGTGGGAAACCGTCCAGAACAGATGCGAATTTAAGGGCCCATATAACAAATTACCATAAAGATATTACCCACAAATGTCCTAACTGCAGTCTAGAGTTCACTACAAATAGTGCTCTCCAGTCACATTTAGGTAAAGCTCATGGGACCAAAATATTTAAATGCACGGAGTGTCCCGAAAAATTCGTGTCACGGTACTCCAAATTGAAACATTTGATAACTACCCACGGTTCTGGACACAAGTGTCAGTACTGTGGGAAGATGTTCACGAAGAATTCATTTATGGTAAACCACGTGAGGCGCACACACTTGAAAGAAAAAAACGTTGAATGCTCCGTGTGTCACGATCGGTTTTTCGACGCGCAACTTCTCAAAATGCACATGGTGAAACATATTGGCGAGAGAAATTTTCATTATGAGAACCCTGGCCCGAACGAAGGGTATACCGCTGAACGCAGGAGAAAAAACCTACAGGTTATATTCAACAATACCTCCATTATACCTTTTAAATGGCGAGGCCGATACCTCTGCTTCTATTGCGGTACAAATTACACAGAATACCTCGAGTTCAAAAAGCACACGAAATCTCACGGACTGTGCTCAGTTAATGACTACTCCTTGAAGGTCATCAAGGGAAACCATGTCGAAATAAAGATCGATGTCTCGGAGATCAGCTGTGATATATGCGACGAATCTTTTGACACTTACAAAGAGATAATCGATCATTTAATCGGGAAGCACAATCTGGAGTACGACCACAGCATCGATACTCCGATCCAGGAGTACCGTCTTGTCGATTACAAGTGCCTTTTATGCGAAGAACAGTTTTCTTACTTCGGCTATTTGATTCAGCATGTTAACAACGCACATCCAGCTAATTGCTTCATATGCGATGATTGTGGTGTCACATTTAATAAAAAGCGGGATTTGGCAGTTCATATACGGAATTTTCATCGCCTAGGAGGATATCGCTGTGAAAGATGCTCTCTAAACTTCAGCTCTTGGTTTATACTCCGGAAACACGTAAACAACCACCATTTTCGAAAGTGCACTTTCTGCGGACTCAGTTTTTCTTCTAAAAGTCTACTTCAAAAACATATGCAGTTCGACCATCCGGATGACGGCACTTTTAAATGTAGTCACTGTGCGAAAGTCTGCCATTCTTCGCAGGGATTGAAACAGCATATGAGTAAATGTAAAGTTAGGTTAGTCGCCGGTCCAGTGGTCGACAGTCCTTTTATTGACGATTGCATAGAACCCAAGAAAAAGCAAGACATACAACAAATAAGACTGAATATCCAAAGCGTCCTGAACATGTCCACCGCGATACCTTTCAAATTTTTCGCGAAGTTCACCTGCTTCTATTGTTGCAAAAAGTTCGTGGAATTCGATGAATTGAAACAGCATACTATTTTGGAACATCCTGTTTGTGATATACAGGCTAAAGCAATGAGGAAGTGCAAGGGGGAACGAATAGCCGTCAAAATTGACATAGCAGCACTTGCTTGCAAAATTTGCTGCGCTCCTATAGAAACTTTCGATGTCTTAATCGATCATTTGATAACGAAACATAAGGCAAACTATGACAAATCGATTACAGGCTGTCTCGAGCCGTATCGAATTATAAAGGACAGCATGCCTTGTCCGATATGTCCGGACCAGATGTTCCGATACTTCAACACACTTCTACGACACATGAATGCCGTGCACAATAACAATAACAAAATCTGTGATCACTGCGGGCGAAGCTTCAAGAACGTATCAAATTTGAAAGTGCATATAGCTCATACGCACATGGGCTCTTCCGAATGCGACCTCTGCGGAGCGAAATTAAAAAACCAATGGTGTTTACTACGTCACAAAGCGAGGAACCACGATGTTAAAAGCTACAAGTGTCCTAAATGTCCTGAAAAATTCATAACCCAGTATCACAAACAGAAGCATTTAATAGAGGTCCACGATGTAGGCCATAAATGTACTTATTGCAACAAGATGTTCACGAGAAACTCTTTCATGAAAGATCACATACGCAGATCACATCTGAAAGAGAAGAACGTGGCTTGCTCGGTGTGCAATGAGAGATTCTTCGATAACTACTTGTTAAGAATGCATATGGTGAAACACGATGGGGAGAGGAAATTTAGCTGTGATGTGTGTAATAAAGCGTTTTTGAGACGGAGTAATCTAGATTCTCACAAGAAATTGCATAAGAAGTATGGACATTTGCCAGTGCAGATGTAG
Protein Sequence: MKRGHVEINRGYVLHAVSLDVTTVHDVKPRKYKGSEVKPRKYKESEVKPQKYKGSEVKPRKYKGSEVKPQKYKASEVKPRKYKGSESSSMRRRKNLQIIFNNTSIIPFKWRGKYLCFYCSKDISEYSELRKHTKSHGNCSTKDHSLKVLKGGQNMEIKIDVSNVTCENCNETFPNIDEAISHLHATHKLEYDRGVDMAIEEYRLADLTCLLCNEKFTYFGYLVSHVNSNHPKKCLICDKCNQRFNKKRDLFSHMKNYHRDGGYQCDVCPQIFNSLNILRKHRNNRHLTRCSICQLKLPSAALKQKHIELEHPDDGSLQCNSCSKEFHTKQGLKMHVRKCQGDLFDIEIKRESYDLDLDENYEEVKRPSVKQIRENIVIVINMSTAIPFNFYKNKFNCFYCSKDFPDSDSMREHTVIEHPVCDVKEKCIRKCRESVACVKIDISSLACKVCFESMTDLDSLLDHLILKHDANYDKSITTCLQPYRLIKDHMACPNCPAEVFRFFGTLLKHMNKKHTNNNIICVYCGQTFRRDQNLRVHIWRHHRDGRFKCNICGAECNIPSRLYMHMAKAHGVKAAKCPKCAETFATQYLRQKHLIEAHDSGHKCSYCGKLFTRNSFMRDHIRRTHLKEKNVECPICNMKFFNNILLRRHMVKHSGEKNFHCDVCGERFFWRKSLRTHMARHKLLPDKTNAESAAKRRRTNLVTLFNNTTVMPFKGHGVFLCYYCGSKHPQYTDFTKHTRSHGPITAKHKSLKVLKSKHVEIKVDVSNITCELCEETFSTLNDIIKHLIGIHGLNYDKEVPVTLSPFRLADFRCLKCKTAFESLCSLVRHMNRSHPDKTLPCKECGQTFNRRKDLMEHFRVRHRNGGYNCTKCKLSFQSLTQLREHSATAHATSCGICSKEFPTERLKQKHMIVHSDVRTAEEEIEIARLENTTALQEKRQLARRNRENIACILNMTSAIPFKFFRNKFGCIYCSKECSDHEQLREHNVQKHSFFDVRNKCPPVLKGVDIYLKLDITNMSCRICRQSFEDLESIVDHLITNHDAKYNRSITGIMQGFKLEKYNMVCPFCQHSYAYFNRLLTHINLVHMPKNNLCAECGEAFPNKVLLDLHFKRHHEINVFKCEDCSLEFKSKLQLRSHRAKVHGVKEVVYENGPGSGNKQRRRNLEIIFNNTTMIPFKWRAKYLCFYCCADVGDYKELKKHTKAHGPYSTTDKTVRHVKGKDIEIKIDVSHIACEICYEPFLNFNEIVDHLIYKHNLQYNKNVELTLATYRLIDLKCLFCDEQFNYFSKLIVHVNSKHPNDCFQCDNCKQMFNKKRDLEAHVRMYHKKDGYNCHECSLIFTSINSLKTHNASTHPSMCNICCKLFETARKKVRHIEIEHDDKEPMQCGFCSKIFNRKQIFIQHASQCTRKVSKGSVNDRTVVSQIRNNLACIINMSTALPFKHFLNRFRCFYCPKDFNECHDLKNHTVSVHPHCDIKVKSMKLRNRTRNEGIKIDISSLSCKICYKTAEDLDNMVDHLIREHKARYNKFVKLKVQPYKLIKDNFPCPHCGEVFRYFGILLKHVSSSHTENKHICVYCGKPSRTDANLRAHITNYHKDITHKCPNCSLEFTTNSALQSHLGKAHGTKIFKCTECPEKFVSRYSKLKHLITTHGSGHKCQYCGKMFTKNSFMVNHVRRTHLKEKNVECSVCHDRFFDAQLLKMHMVKHIGERNFHYENPGPNEGYTAERRRKNLQVIFNNTSIIPFKWRGRYLCFYCGTNYTEYLEFKKHTKSHGLCSVNDYSLKVIKGNHVEIKIDVSEISCDICDESFDTYKEIIDHLIGKHNLEYDHSIDTPIQEYRLVDYKCLLCEEQFSYFGYLIQHVNNAHPANCFICDDCGVTFNKKRDLAVHIRNFHRLGGYRCERCSLNFSSWFILRKHVNNHHFRKCTFCGLSFSSKSLLQKHMQFDHPDDGTFKCSHCAKVCHSSQGLKQHMSKCKVRLVAGPVVDSPFIDDCIEPKKKQDIQQIRLNIQSVLNMSTAIPFKFFAKFTCFYCCKKFVEFDELKQHTILEHPVCDIQAKAMRKCKGERIAVKIDIAALACKICCAPIETFDVLIDHLITKHKANYDKSITGCLEPYRIIKDSMPCPICPDQMFRYFNTLLRHMNAVHNNNNKICDHCGRSFKNVSNLKVHIAHTHMGSSECDLCGAKLKNQWCLLRHKARNHDVKSYKCPKCPEKFITQYHKQKHLIEVHDVGHKCTYCNKMFTRNSFMKDHIRRSHLKEKNVACSVCNERFFDNYLLRMHMVKHDGERKFSCDVCNKAFLRRSNLDSHKKLHKKYGHLPVQM

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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