Nnoc021681.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Nomophila noctuella
Gene Symbol
-
Assembly
GCA_958496325.1
Location
OY292507.1:1938167-1958982[+]

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 58 3 2.4e+02 3.1 0.8 3 17 60 74 58 75 0.88
2 58 0.28 23 6.3 0.0 1 20 503 522 503 524 0.95
3 58 0.25 20 6.5 0.0 1 20 564 583 564 585 0.95
4 58 0.22 18 6.6 0.0 1 20 610 629 610 631 0.94
5 58 0.22 18 6.6 0.0 1 20 665 684 665 686 0.94
6 58 0.29 23 6.3 0.0 1 20 720 739 720 741 0.95
7 58 0.32 26 6.1 0.0 1 20 802 821 802 823 0.95
8 58 0.043 3.5 8.9 0.0 1 23 885 907 885 907 0.96
9 58 0.004 0.32 12.1 1.2 1 23 925 947 925 947 0.92
10 58 1.1e-05 0.00092 20.1 0.2 1 23 953 975 953 975 0.98
11 58 0.00027 0.021 15.8 2.0 1 23 982 1004 982 1004 0.99
12 58 0.00089 0.072 14.2 1.9 1 19 1010 1028 1010 1032 0.93
13 58 1.4e-05 0.0011 19.9 0.1 1 23 1038 1060 1038 1060 0.98
14 58 1.4e-05 0.0011 19.8 1.8 1 23 1066 1089 1066 1089 0.96
15 58 0.00022 0.018 16.1 5.7 1 23 1095 1118 1095 1118 0.97
16 58 0.00022 0.018 16.1 2.2 2 23 1125 1146 1124 1146 0.97
17 58 0.00028 0.022 15.8 0.9 1 23 1152 1174 1152 1174 0.96
18 58 0.61 49 5.3 0.0 1 21 1180 1200 1180 1201 0.95
19 58 0.61 49 5.3 0.0 1 21 1218 1238 1218 1239 0.95
20 58 0.61 49 5.3 0.0 1 21 1256 1276 1256 1277 0.95
21 58 0.61 49 5.3 0.0 1 21 1294 1314 1294 1315 0.95
22 58 0.61 49 5.3 0.0 1 21 1332 1352 1332 1353 0.95
23 58 0.61 49 5.3 0.0 1 21 1370 1390 1370 1391 0.95
24 58 0.61 49 5.3 0.0 1 21 1408 1428 1408 1429 0.95
25 58 0.61 49 5.3 0.0 1 21 1446 1466 1446 1467 0.95
26 58 0.61 49 5.3 0.0 1 21 1484 1504 1484 1505 0.95
27 58 0.61 49 5.3 0.0 1 21 1522 1542 1522 1543 0.95
28 58 0.61 49 5.3 0.0 1 21 1560 1580 1560 1581 0.95
29 58 0.61 49 5.3 0.0 1 21 1598 1618 1598 1619 0.95
30 58 0.61 49 5.3 0.0 1 21 1636 1656 1636 1657 0.95
31 58 0.61 49 5.3 0.0 1 21 1674 1694 1674 1695 0.95
32 58 0.61 49 5.3 0.0 1 21 1712 1732 1712 1733 0.95
33 58 0.61 49 5.3 0.0 1 21 1750 1770 1750 1771 0.95
34 58 0.61 49 5.3 0.0 1 21 1788 1808 1788 1809 0.95
35 58 0.61 49 5.3 0.0 1 21 1826 1846 1826 1847 0.95
36 58 0.61 49 5.3 0.0 1 21 1864 1884 1864 1885 0.95
37 58 0.61 49 5.3 0.0 1 21 1902 1922 1902 1923 0.95
38 58 0.61 49 5.3 0.0 1 21 1940 1960 1940 1961 0.95
39 58 0.61 49 5.3 0.0 1 21 1978 1998 1978 1999 0.95
40 58 0.61 49 5.3 0.0 1 21 2016 2036 2016 2037 0.95
41 58 0.61 49 5.3 0.0 1 21 2054 2074 2054 2075 0.95
42 58 0.61 49 5.3 0.0 1 21 2092 2112 2092 2113 0.95
43 58 0.61 49 5.3 0.0 1 21 2130 2150 2130 2151 0.95
44 58 0.61 49 5.3 0.0 1 21 2169 2189 2169 2190 0.95
45 58 0.61 49 5.3 0.0 1 21 2208 2228 2208 2229 0.95
46 58 0.61 49 5.3 0.0 1 21 2246 2266 2246 2267 0.95
47 58 0.61 49 5.3 0.0 1 21 2284 2304 2284 2305 0.95
48 58 0.61 49 5.3 0.0 1 21 2322 2342 2322 2343 0.95
49 58 0.61 49 5.3 0.0 1 21 2360 2380 2360 2381 0.95
50 58 0.61 49 5.3 0.0 1 21 2398 2418 2398 2419 0.95
51 58 0.61 49 5.3 0.0 1 21 2436 2456 2436 2457 0.95
52 58 0.61 49 5.3 0.0 1 21 2474 2494 2474 2495 0.95
53 58 0.61 49 5.3 0.0 1 21 2512 2532 2512 2533 0.95
54 58 0.61 49 5.3 0.0 1 21 2550 2570 2550 2571 0.95
55 58 0.61 49 5.3 0.0 1 21 2588 2608 2588 2609 0.95
56 58 0.61 49 5.3 0.0 1 21 2626 2646 2626 2647 0.95
57 58 0.61 49 5.3 0.0 1 21 2664 2684 2664 2685 0.95
58 58 0.61 49 5.3 0.0 1 21 2702 2722 2702 2723 0.95

Sequence Information

Coding Sequence
ATgaatcaaaattgctttatttgcCACCTAGCAATTGGTATATCGGCAAGGaattgtgttaaaatatttgcagaataTAATAACTTACATCTTCAATCTGGAAACAAGTTATATGAAGTTGTTGGGGATATTGTTGATACACAATTATCAGAAACAGAAGATAAGTCCAATGTTATCTGtaaaaaatgtcataaaacCTGCATAGAATATGACTCTTTGAAAGCCAGATtacaatcaattaaaaatgaacTCAGTGAAAGCTATAAAAAGTCTCTTGAGTCCTACCGAACAAATGACATTGAGGAGATGAAGCCAGTTCTTAAGGACCCAAAAAAGATAGTGTTGCCAGCATCAAAATTACAGCCGTTGCCAGCCAATTATGTAATTGAGATGGGAAAGTTGGCTGGAAGGAATATTGTGTTTCCGAAGATTGAGAATGTTGGTAGCTTGATGCCTGGGAAATTTCTTAAGatgGCAAACCATTTGGTGTCTGTAAGCACAGGGATATCAAACACAATAAAACCAATCTCAGTCAGTCCAATAAAGATGACGACTACCATAGCATCATCACCATCAAAAGTAACGGAAATATTGAGTGACAAAGTGATCGTTTCATCACTAATGCAGCCAACGATGACTCAAAACTCAATAGTAACGAAGAGAACCAAAAATCCAGTGATGAGTTTCAACGTGAACTTACCGAAAGATTTCCTGACAACGAGTATAATAACGAAAAGTGATGATCCAGACAACGGTGAAACGGTGAAGAAGGAAATTGTGATAAATGCTTTAGCCGATGAGAATGAGAATAACGATGAGCAAGCGATGGAAATTGATGAAGATTGCTCGCTAGCAGTCGTTCCCGTTACAACGGATGAGAATGGAAAGTTGGTATTTGAAGGGGATAAAATTGATTTGAAGAAAAATAACTCCAGTTTCTTCGATGTTGGTCTGCTTTTAGAGGGTGATAGCGAAACGCAAACGAGTGAGAGGGAAGAGAAATTCATATTGGATAAGCTGCAGATACTTAATGAGAatttggatgatgatgatagccAAGCTATAGTGATGGAAGAAGGTGACACGGAATCTGGGCAGCCGCGGATAATCCGCGTTGGTCAAGGACAACAAGTACTGTACGATGGAGGCCATCTATCACTAGTACCAACTAGTGATGACTTGGATAATGATCAGCATGACTCAAACGACGAATCCCAAATCGAACTCCAAGTCTCCGGCGACGAGGAAACAGCCAACGCTATCATAGCGGCCGCTCAGGAGCAAGGCGGTGCATTCATCAAAGTGCAATCCGGCGAGATGTACCGCGTGCAGTCGGTGCATAGCCGGGCTCCGGACGAGAATCAACTCGATATAGTGGAGGCTATTGAAGATGGTCAATTCAAATGCCTCCTCTGCGAGAGGAAGGGCCTCACCGGTCAGGCGGCAGtagcgggcgcggcggcggaagcGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGCCGTGCGCCGCCGCCGGGGGCAGTACGCGAGGCATATAGCATTCGCTACGGCTCTAGCTATCTTTCTGACTATACGTGGCGAGAGGAAGTGTCTCCCCGCCTTGTCCCTTGTGGCGGCTGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGccgtgcgccggcgccggggGCAGTACGCGAGGCATATAGAGGAAGACCTCCCCGCCTTGTCCCTTGTGGCGGGCGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGCCGTGCGCCGCCGCCGGGGGCAGTACGCGAGGCATATAGCTATCTTTATGACTATACATGGTGAGAACAAGGGTCTCCCCGCCTTGTCCCTTGTGGCGGGCGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGCCGTGCGCCGCCGCCGGGGGCAGTACGCGAGGCATATAGCTATCTTTATGACTATACATGGTGAGAACAAGGGTCTCCCCGCCTTGTCCCTTGTGGCGGGCGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGccgtgcgccggcgccggggGCAGTACGCGAGGCATATAGTATCTTGGCGGACGACTGGGAGGGAGCAGGACCGAGTAAGGAGACTCTTAGTAGTGACTCGCAGCATCGCTACGGCTCTTGCGATCCTTATTACTATACGTGGTGAGAGGAAGTGTCTCCCCGGCTTGTCCCTTGTGGCGGGCGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGccgtgcgccggcgccggggGCAGTACGCGAGGCATATAGTCTTGGCGGACGACTGGGAGGGAGCAGGACCGAGTAACGAGACTCTTAGTAGTGTCTCGCATCTGCCACGGTTTCGGTCCGCTCTAGCTATCTTTATAACTATACGTGGTGAGAACGGTCTCCCCGCCCTGTACCTTGTGGCGGGCGCGGCGATGTCGCACGCGGCGCGCGAGCACGGCGCGCGGGTGTACATCTGCGCGCTGTGCGGGGccgtgcgccggcgccggggGCAGTACGCGAGGCATATAGAGGAGCATGCCCAGCAAGGCAAGCCCGTCGGCAACACCGCCCGGCCCGCCAGCCGCCTCCACATCTGCACAGTGTGCGGCAAGACTTACAACTCGCGCACTTTATTAGCGGAACATGCGCATGCGCACTCTGGGGAGCGGCCATATGCCTGTGCCACTTGCGGAAAGGCGTACGCGTCGAAATATACGCTGCAGGCGCATCTGAAGACTCATGAGGACCGCCCACGCCCATTCAAATGCAAATCCTGCGGCAAGGCCTTTCTAACCCAACAGAACTTGAACCAGCACGAAAAGACCCATTCCGGCGTCAAAGAGTTCGTCTGTAAAGTGTGTTCGAAGGCTTTCGCGACGCAACATAACTTGGAAGTACATTGCGTCGTGCACACCGGCAAGAAGCCGTTCAGCTGCGGCGTCTGCGGGAAAGCGTTCGCGCGCCGGGCAGAGCTCAAGGACCACGGCCGCATACACACCGGGGAACGTCCATTCTCATGCGATATATGCGGCGCGTCCTTCACCCAGAGATCGAACCTGCACTCCCACAAGCGAGCCACGCACTTCGACGACAAGCGATACCACTGCACGCACTGCCCCAAGCGGTTTAAGCGACGGAGATTACTGGAATATCACATAAAGTCAGCGCATACCGGTGAAAGACCTCTACAGTGTACTACTTGCCGAGCGACCTTTGTATACCCCGAGCATTACAAGAAACATATGAGGATACACAGTGGAGAACGGCCTTATGACTGCGAGGTGTGCGGCAAATCGTTCAACAGCCGCGACAACCGCAACATGCACCGCTTCGTCCACAGCGACAAGAAACCGTACGAGTGCCTCGCGTGCGGCGCCGGCTACATGCGCAAGCAGCTGCTCTACGCGCACATGAACGCCACGGtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatcatcatcaccaccatcaccgacacgtacgagtgcctcgcgtgcggcgccggctacatgcgcaagcagctgctctacgcgcacatgaacgccacggtaaccgtcaccatcatcatttaCAATTTATGA
Protein Sequence
MNQNCFICHLAIGISARNCVKIFAEYNNLHLQSGNKLYEVVGDIVDTQLSETEDKSNVICKKCHKTCIEYDSLKARLQSIKNELSESYKKSLESYRTNDIEEMKPVLKDPKKIVLPASKLQPLPANYVIEMGKLAGRNIVFPKIENVGSLMPGKFLKMANHLVSVSTGISNTIKPISVSPIKMTTTIASSPSKVTEILSDKVIVSSLMQPTMTQNSIVTKRTKNPVMSFNVNLPKDFLTTSIITKSDDPDNGETVKKEIVINALADENENNDEQAMEIDEDCSLAVVPVTTDENGKLVFEGDKIDLKKNNSSFFDVGLLLEGDSETQTSEREEKFILDKLQILNENLDDDDSQAIVMEEGDTESGQPRIIRVGQGQQVLYDGGHLSLVPTSDDLDNDQHDSNDESQIELQVSGDEETANAIIAAAQEQGGAFIKVQSGEMYRVQSVHSRAPDENQLDIVEAIEDGQFKCLLCERKGLTGQAAVAGAAAEAMSHAAREHGARVYICALCGAVRRRRGQYARHIAFATALAIFLTIRGERKCLPALSLVAAAAMSHAAREHGARVYICALCGAVRRRRGQYARHIEEDLPALSLVAGAAMSHAAREHGARVYICALCGAVRRRRGQYARHIAIFMTIHGENKGLPALSLVAGAAMSHAAREHGARVYICALCGAVRRRRGQYARHIAIFMTIHGENKGLPALSLVAGAAMSHAAREHGARVYICALCGAVRRRRGQYARHIVSWRTTGREQDRVRRLLVVTRSIATALAILITIRGERKCLPGLSLVAGAAMSHAAREHGARVYICALCGAVRRRRGQYARHIVLADDWEGAGPSNETLSSVSHLPRFRSALAIFITIRGENGLPALYLVAGAAMSHAAREHGARVYICALCGAVRRRRGQYARHIEEHAQQGKPVGNTARPASRLHICTVCGKTYNSRTLLAEHAHAHSGERPYACATCGKAYASKYTLQAHLKTHEDRPRPFKCKSCGKAFLTQQNLNQHEKTHSGVKEFVCKVCSKAFATQHNLEVHCVVHTGKKPFSCGVCGKAFARRAELKDHGRIHTGERPFSCDICGASFTQRSNLHSHKRATHFDDKRYHCTHCPKRFKRRRLLEYHIKSAHTGERPLQCTTCRATFVYPEHYKKHMRIHSGERPYDCEVCGKSFNSRDNRNMHRFVHSDKKPYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIIITTITDTYECLACGAGYMRKQLLYAHMNATVTVTIIIYNL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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