Lwla017520.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Lacanobia wlatinum
Gene Symbol
ZNF296
Assembly
GCA_947578705.1
Location
OX388052.1:4599516-4626788[-]

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 71 1.4 1.2e+02 4.1 0.2 3 23 123 143 121 143 0.96
2 71 0.0058 0.51 11.6 2.8 1 23 370 392 370 392 0.99
3 71 0.0002 0.018 16.2 0.3 1 23 398 421 398 421 0.96
4 71 0.021 1.8 9.8 1.6 1 23 426 449 426 449 0.94
5 71 0.00014 0.013 16.6 1.9 2 23 639 660 638 660 0.97
6 71 0.00041 0.036 15.2 3.6 1 23 666 688 666 688 0.98
7 71 0.00014 0.013 16.6 1.9 2 23 698 719 697 719 0.97
8 71 0.00041 0.036 15.2 3.6 1 23 725 747 725 747 0.98
9 71 0.00014 0.013 16.6 1.9 2 23 757 778 756 778 0.97
10 71 0.00041 0.036 15.2 3.6 1 23 784 806 784 806 0.98
11 71 0.00014 0.013 16.6 1.9 2 23 816 837 815 837 0.97
12 71 0.00041 0.036 15.2 3.6 1 23 843 865 843 865 0.98
13 71 0.00014 0.013 16.6 1.9 2 23 875 896 874 896 0.97
14 71 0.00041 0.036 15.2 3.6 1 23 902 924 902 924 0.98
15 71 0.00014 0.013 16.6 1.9 2 23 934 955 933 955 0.97
16 71 0.00041 0.036 15.2 3.6 1 23 961 983 961 983 0.98
17 71 0.00014 0.013 16.6 1.9 2 23 993 1014 992 1014 0.97
18 71 0.00041 0.036 15.2 3.6 1 23 1020 1042 1020 1042 0.98
19 71 0.00014 0.013 16.6 1.9 2 23 1052 1073 1051 1073 0.97
20 71 0.00041 0.036 15.2 3.6 1 23 1079 1101 1079 1101 0.98
21 71 0.00014 0.013 16.6 1.9 2 23 1111 1132 1110 1132 0.97
22 71 0.00041 0.036 15.2 3.6 1 23 1138 1160 1138 1160 0.98
23 71 0.00014 0.013 16.6 1.9 2 23 1170 1191 1169 1191 0.97
24 71 0.00041 0.036 15.2 3.6 1 23 1197 1219 1197 1219 0.98
25 71 0.00014 0.013 16.6 1.9 2 23 1229 1250 1228 1250 0.97
26 71 0.00041 0.036 15.2 3.6 1 23 1256 1278 1256 1278 0.98
27 71 0.00014 0.013 16.6 1.9 2 23 1288 1309 1287 1309 0.97
28 71 0.00041 0.036 15.2 3.6 1 23 1315 1337 1315 1337 0.98
29 71 0.00014 0.013 16.6 1.9 2 23 1347 1368 1346 1368 0.97
30 71 0.00041 0.036 15.2 3.6 1 23 1374 1396 1374 1396 0.98
31 71 0.00014 0.013 16.6 1.9 2 23 1406 1427 1405 1427 0.97
32 71 0.00041 0.036 15.2 3.6 1 23 1433 1455 1433 1455 0.98
33 71 0.00014 0.013 16.6 1.9 2 23 1465 1486 1464 1486 0.97
34 71 0.00041 0.036 15.2 3.6 1 23 1492 1514 1492 1514 0.98
35 71 0.00014 0.013 16.6 1.9 2 23 1524 1545 1523 1545 0.97
36 71 0.00041 0.036 15.2 3.6 1 23 1551 1573 1551 1573 0.98
37 71 0.00014 0.013 16.6 1.9 2 23 1583 1604 1582 1604 0.97
38 71 0.00041 0.036 15.2 3.6 1 23 1610 1632 1610 1632 0.98
39 71 0.00014 0.013 16.6 1.9 2 23 1642 1663 1641 1663 0.97
40 71 0.00041 0.036 15.2 3.6 1 23 1669 1691 1669 1691 0.98
41 71 0.00014 0.013 16.6 1.9 2 23 1701 1722 1700 1722 0.97
42 71 0.00041 0.036 15.2 3.6 1 23 1728 1750 1728 1750 0.98
43 71 0.00014 0.013 16.6 1.9 2 23 1760 1781 1759 1781 0.97
44 71 0.00041 0.036 15.2 3.6 1 23 1787 1809 1787 1809 0.98
45 71 0.00014 0.013 16.6 1.9 2 23 1819 1840 1818 1840 0.97
46 71 0.00041 0.036 15.2 3.6 1 23 1846 1868 1846 1868 0.98
47 71 0.00014 0.013 16.6 1.9 2 23 1878 1899 1877 1899 0.97
48 71 0.00041 0.036 15.2 3.6 1 23 1905 1927 1905 1927 0.98
49 71 0.00014 0.013 16.6 1.9 2 23 1937 1958 1936 1958 0.97
50 71 0.00041 0.036 15.2 3.6 1 23 1964 1986 1964 1986 0.98
51 71 0.00014 0.013 16.6 1.9 2 23 1996 2017 1995 2017 0.97
52 71 0.00041 0.036 15.2 3.6 1 23 2023 2045 2023 2045 0.98
53 71 0.00014 0.013 16.6 1.9 2 23 2055 2076 2054 2076 0.97
54 71 0.00041 0.036 15.2 3.6 1 23 2082 2104 2082 2104 0.98
55 71 0.00014 0.013 16.6 1.9 2 23 2114 2135 2113 2135 0.97
56 71 0.00041 0.036 15.2 3.6 1 23 2141 2163 2141 2163 0.98
57 71 0.00014 0.013 16.6 1.9 2 23 2173 2194 2172 2194 0.97
58 71 0.00041 0.036 15.2 3.6 1 23 2200 2222 2200 2222 0.98
59 71 0.00014 0.013 16.6 1.9 2 23 2232 2253 2231 2253 0.97
60 71 0.00041 0.036 15.2 3.6 1 23 2259 2281 2259 2281 0.98
61 71 0.00014 0.013 16.6 1.9 2 23 2291 2312 2290 2312 0.97
62 71 0.00041 0.036 15.2 3.6 1 23 2318 2340 2318 2340 0.98
63 71 1 91 4.5 3.5 1 23 2406 2428 2406 2428 0.95
64 71 1.2 1.1e+02 4.2 0.3 2 23 2436 2457 2435 2457 0.95
65 71 0.09 7.8 7.8 1.9 1 23 2463 2485 2463 2485 0.96
66 71 0.005 0.43 11.8 1.8 1 23 2491 2513 2491 2513 0.98
67 71 0.0093 0.81 10.9 5.3 1 23 2522 2544 2522 2544 0.99
68 71 0.024 2.1 9.6 2.6 2 23 2591 2612 2591 2612 0.97
69 71 0.011 1 10.6 3.2 1 23 2629 2651 2629 2651 0.96
70 71 5e-06 0.00044 21.2 0.7 1 23 2657 2679 2657 2679 0.98
71 71 1.7e-06 0.00015 22.7 3.1 1 23 2685 2708 2685 2708 0.98

Sequence Information

Coding Sequence
ATGAACCATGCACCCACACAACCAGGCAATGTGGACGTTGACCCGCTGAGCTCATATGAGTACCCAGCGTACAACAGCTATGCAGCCCCGCCATACCCTTATGCCAACAAACTGCAGCAGTCCATCTACGAGGCATACCAACAAACCAATGCTAACTACATGAATAATGGAACGCCGCAGGAACCATTCAACGTACCCCCAGTGTTACCAACTCAACAAGCACAGCAAACTGCTGATATTGTGCAATCTAAAACTGAACAACCAGAACAAAAACCAGTTCTAAAACGGCGTAGAAAGGAGAAAAATGGCCAGAAGAGTACTTATTGTTCTGAAAAGATCACGGATGCTACATTCAAGTTCTATGGCTGTTCAGTTTGTAACATCAGTTACAACGCACTACATGAACTGGACCAACATGTGACTGTACACAAGAACAGAATGACGAGCTATAGACTACGGTTAAGAAATCAAATTAAAAAGAAGCAGATTAAAAAAGAAAAGAAAAAGCTAAAAAAGATGGTTAAGATTAAGAAAGAAATGTGTGAAATTGAAATTAAACCCGAGGATGGTTATATTGGGGAAGAAAAAGCAGTTGATTTCATGAGTAACGGAACAAATCCTAAAAACGAACTTAGCAGTGCTGTAAATAATGGAATCATTTCAAACGCTGAGTGTAACGGAATGAATCCGAATTCTGTAATTGTTCCAAATGTTGAGTTTAATGGAATGAATCTGAATTCTGTAATTGTTCCTAATGCTGAGTGTAACGGAATGAATCTAAATTCTGGAACTGTTCCTAATGCTGAGTGTAACAGAATGAATCTGAATTCTGGAATCGTTCCTAATGTAGAGTGTAACGGAACGAATCTGAATACTGAGTGTGATAGCAAAGTAATAAATACTGAAAACGTAAATAGTGCTACCGAAGCCGGAAACAGTAAAACACACAAGAACAACGACTTAAATTCAATGAATACTGATTCTCAGGATAGTGTTTCTACATCTTTGAGTACTGGCAACAGTGAAGTAGAGAATGCAAACAATGTGAACGGTAAAGACAAGGAGAACAGTATAGATGAAGCCGAGTTAAATAATTTAGAGAAAATTTACAAATGTTTTGCATGTCAGAAACAGTTTACGTTGAGCTATTATTTAAAACTGCACGTGAGATCACATACAGACGAGAAGCCGTACATATGCAGCGTCTGCGGGCAGTCGTTCATTACGGCCAGCAAGCTGGGGCGCCACAATAAGCGCGTGCACCTGGCCGAGCGCTACCAGTGCCGCGTGTGCTTCAAGATATACTCCCGTTTCGAGCTGCTGACGGCTCACTTCGACAAAACGCATCCCGAAGATAAGCTGGAGGGAGAACCGTATGACTACAACGCAATCCTACCATACCTGAAAGAGCTGGAAGAGCAACTGCGCGCGCCGCCAGAGCAGGACAGCACTCTAGCGCCGGAATGCGAGCTAGAGCAGGACAGCAAGCCTAAGGCCGAGGAGATGTTCTGGGAGGTGTCTGTGGGCCCGCAGCAGGTCAGCGCGCCGCCCGGAGAGGAGTCCGTCGAGATTAAGGTGGAGGTACTTGATGAGGACCACAAAGAATTCGTACAGAAGATAGATATTTTAGTAGAAGAGGTGAAGGTGGACTACGACGCGGCGTTCAAACGGGAGCTGTCTGACGACGAGCACGCGCCTGACGCGTTTGATGACGGGGGCCACGCGAGCGACGGCGGCCGCGCGGGCGACGCGGCCGGCCCCGGGGCCGCCCCGCTGGCCCACGAGACACACGTCAAGGATGAGGATAGCCAGTCGGACGAGGACTACTTCCCGCCGAGCACGTGGACCGCCCCCCGCGCGCCCTCCCCCTCGCTGCCCGCCCCCGCGCGCTCCCCCCGCGCGCGCGCCTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGGTGAGTCACTCACGTCGCTCACGTGCGAGCTGTGCCACAAGCGCGTCAGCAGCGCCTCGTACATGCGGGTTCATATGCGCACGCACACAGGAGAGCGCCCCTTCAAGTGCTACAAGTGCGGCCGCGGCTTCATCACCAGCAGCAAGATGCACCGACACGTGCTGACGCATGCGCAAGACAAGGACGAAGTGAAGACGGAAGGCGAGGACATCAAGCCGGACGTGGGCGACGCCGACGAGGCTAAAAAGTCACCAGGAGATGGCGCTGCGAAACCAGCGAAGAAGAAATCCAAAATGAAGTCGAAGTCTACGCCTGGCCTGAAGCCGGGCGAGGAGAAGTCGCGTCGCAAGCATCAGAAGAGACCGCACGCCTGCGAGTACTGCAACCAGAAGTTCCTGCACCTCAACATGCTGGAGGTGCACAAGCAGTCGCACGCGGGCGAAGCGCTCGTGCTGCGCTGCCACTACTGTCTGCAGGACGCTCCGGACCAGCGCACGCTGGAGGAGCACCAGGCTGAGCACACGGGGCCGAAGCCCTACCTGTGTACCGTCTGCGGGAACACCTACAAGAAGCGGGAGACCATGGTCTACCACCGCAAGCGCCACGCGCCGGACAAGGAGTTCGTGTGCGACGTGTGCTCCAAGCGCTTCACGGCGGCCTGCAAGCTCAGCAAGCACCTCGTCACGCACCGCGCCGAGCGCTTCGTGCTGCGCTACGAGTGCCCCGTGTGCGCGCACATGTTCAACACGCGCTACCACGTGCACATGCATCTGCGCACGCACCAGAAGGAGGGCCTGATCCTCGAAGAGAATCGCAGTGAAATCCTAGCAATGGTACTGCAGAACGCGCGCAAGATCCCCAAGCAAGCGTCCGCGCCGCTGAGCAGCAGCGCCGCCGTGGCGCCGGACGAGCGCTCGCGCGTCTGCAACATCTGCGGACAGCTGTTCCACCACTTCTACTACCTCGAAGAGCACCTCAAGAGCCACGCCTCCACCATAGCCATCACCGACATGGAGAAGGAAGATGAGAAGAAATACATCTGCGAGATTTGCAACAAAGGATTTAAGCTTCACTACTATTTAAAACTCCACAGCTTCACACATTCGAAGGAAAAACCTTTTATTTGTCAGCAATGCGGGAAGGGATTCATTACCAAAGGTAAGCTGAAGAGGCACCTGGAAACTCACACCGGTCTGAAGAAGTACCAGTGTCATATATGCTACAAGTTCTTCACGAGGCCGAGTTACTTGAGGATTCATGTCCGAACGATCCATGGAACCCAGGATTATAATTTTAGGTTCGATAAGGGGTATGGGGTGGGTTCTATGTCGATGTCGGATGTCAGTCAAAATAGTATATGA
Protein Sequence
MNHAPTQPGNVDVDPLSSYEYPAYNSYAAPPYPYANKLQQSIYEAYQQTNANYMNNGTPQEPFNVPPVLPTQQAQQTADIVQSKTEQPEQKPVLKRRRKEKNGQKSTYCSEKITDATFKFYGCSVCNISYNALHELDQHVTVHKNRMTSYRLRLRNQIKKKQIKKEKKKLKKMVKIKKEMCEIEIKPEDGYIGEEKAVDFMSNGTNPKNELSSAVNNGIISNAECNGMNPNSVIVPNVEFNGMNLNSVIVPNAECNGMNLNSGTVPNAECNRMNLNSGIVPNVECNGTNLNTECDSKVINTENVNSATEAGNSKTHKNNDLNSMNTDSQDSVSTSLSTGNSEVENANNVNGKDKENSIDEAELNNLEKIYKCFACQKQFTLSYYLKLHVRSHTDEKPYICSVCGQSFITASKLGRHNKRVHLAERYQCRVCFKIYSRFELLTAHFDKTHPEDKLEGEPYDYNAILPYLKELEEQLRAPPEQDSTLAPECELEQDSKPKAEEMFWEVSVGPQQVSAPPGEESVEIKVEVLDEDHKEFVQKIDILVEEVKVDYDAAFKRELSDDEHAPDAFDDGGHASDGGRAGDAAGPGAAPLAHETHVKDEDSQSDEDYFPPSTWTAPRAPSPSLPAPARSPRARASLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQGESLTSLTCELCHKRVSSASYMRVHMRTHTGERPFKCYKCGRGFITSSKMHRHVLTHAQDKDEVKTEGEDIKPDVGDADEAKKSPGDGAAKPAKKKSKMKSKSTPGLKPGEEKSRRKHQKRPHACEYCNQKFLHLNMLEVHKQSHAGEALVLRCHYCLQDAPDQRTLEEHQAEHTGPKPYLCTVCGNTYKKRETMVYHRKRHAPDKEFVCDVCSKRFTAACKLSKHLVTHRAERFVLRYECPVCAHMFNTRYHVHMHLRTHQKEGLILEENRSEILAMVLQNARKIPKQASAPLSSSAAVAPDERSRVCNICGQLFHHFYYLEEHLKSHASTIAITDMEKEDEKKYICEICNKGFKLHYYLKLHSFTHSKEKPFICQQCGKGFITKGKLKRHLETHTGLKKYQCHICYKFFTRPSYLRIHVRTIHGTQDYNFRFDKGYGVGSMSMSDVSQNSI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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