Mmel077777.1


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Melolontha melolontha
Gene Symbol
-
Assembly
GCA_935421255.1
Location
CAKXYX010000652.1:890173-901491[+]

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
1 128 2 2.3e+02 6.0 5.9 1 23 2 24 2 24 0.99
2 128 0.0045 0.53 14.3 1.3 1 23 30 53 30 53 0.96
3 128 0.48 56 7.9 1.9 1 23 120 143 120 143 0.98
4 128 0.054 6.2 10.9 2.7 1 23 150 173 150 173 0.98
5 128 0.79 92 7.2 4.6 1 23 179 202 179 202 0.98
6 128 0.58 67 7.7 2.9 1 23 208 231 208 231 0.98
7 128 4.4 5.2e+02 4.9 4.6 1 23 237 260 237 260 0.97
8 128 0.1 12 10.0 0.6 1 23 266 289 266 289 0.95
9 128 1.4 1.6e+02 6.5 2.7 1 23 295 318 295 318 0.98
10 128 0.23 27 8.9 3.6 1 23 324 347 324 347 0.98
11 128 0.0028 0.33 14.9 1.6 1 23 353 376 353 376 0.98
12 128 0.0067 0.78 13.7 1.6 1 23 382 405 382 405 0.98
13 128 0.0067 0.78 13.7 1.6 1 23 411 434 411 434 0.98
14 128 0.0028 0.33 14.9 1.6 1 23 440 463 440 463 0.98
15 128 0.03 3.5 11.7 1.2 2 23 470 492 469 492 0.97
16 128 0.0028 0.33 14.9 1.6 1 23 498 521 498 521 0.98
17 128 0.03 3.5 11.7 1.2 2 23 528 550 527 550 0.97
18 128 0.15 18 9.5 0.6 1 23 556 579 556 579 0.97
19 128 0.013 1.5 12.9 2.0 1 23 585 608 585 608 0.98
20 128 0.038 4.4 11.4 1.3 1 23 614 635 614 635 0.99
21 128 0.066 7.7 10.6 1.8 1 23 641 663 641 663 0.97
22 128 0.0028 0.33 14.9 1.6 1 23 669 692 669 692 0.98
23 128 0.063 7.4 10.7 2.8 1 23 698 721 698 721 0.98
24 128 0.0028 0.33 14.9 1.6 1 23 727 750 727 750 0.98
25 128 0.0065 0.75 13.8 0.9 1 23 756 779 756 779 0.98
26 128 0.0028 0.33 14.9 1.6 1 23 785 808 785 808 0.98
27 128 0.0065 0.75 13.8 0.9 1 23 814 837 814 837 0.98
28 128 0.0028 0.33 14.9 1.6 1 23 843 866 843 866 0.98
29 128 0.0065 0.75 13.8 0.9 1 23 872 895 872 895 0.98
30 128 0.063 7.4 10.7 2.8 1 23 901 924 901 924 0.98
31 128 0.0028 0.33 14.9 1.6 1 23 930 953 930 953 0.98
32 128 0.0065 0.75 13.8 0.9 1 23 959 982 959 982 0.98
33 128 0.0028 0.33 14.9 1.6 1 23 988 1011 988 1011 0.98
34 128 0.0067 0.78 13.7 1.6 1 23 1017 1040 1017 1040 0.98
35 128 0.013 1.5 12.9 2.0 1 23 1046 1069 1046 1069 0.98
36 128 0.21 24 9.1 2.8 1 23 1075 1098 1075 1098 0.98
37 128 0.03 3.5 11.7 1.2 2 23 1105 1127 1104 1127 0.97
38 128 0.12 14 9.8 3.8 1 23 1133 1156 1133 1156 0.98
39 128 0.0067 0.78 13.7 1.6 1 23 1162 1185 1162 1185 0.98
40 128 0.081 9.5 10.3 4.0 1 23 1191 1214 1191 1214 0.98
41 128 0.21 24 9.1 2.8 1 23 1220 1243 1220 1243 0.98
42 128 0.03 3.5 11.7 1.2 2 23 1250 1272 1249 1272 0.97
43 128 0.0028 0.33 14.9 1.6 1 23 1278 1301 1278 1301 0.98
44 128 0.0067 0.78 13.7 1.6 1 23 1307 1330 1307 1330 0.98
45 128 0.12 14 9.8 3.8 1 23 1336 1359 1336 1359 0.98
46 128 0.022 2.6 12.1 1.2 2 23 1366 1388 1365 1388 0.97
47 128 0.0028 0.33 14.9 1.6 1 23 1394 1417 1394 1417 0.98
48 128 0.0067 0.78 13.7 1.6 1 23 1423 1446 1423 1446 0.98
49 128 0.12 14 9.8 3.8 1 23 1452 1475 1452 1475 0.98
50 128 0.03 3.5 11.7 1.2 2 23 1482 1504 1481 1504 0.97
51 128 0.0028 0.33 14.9 1.6 1 23 1510 1533 1510 1533 0.98
52 128 0.0067 0.78 13.7 1.6 1 23 1539 1562 1539 1562 0.98
53 128 0.081 9.5 10.3 4.0 1 23 1568 1591 1568 1591 0.98
54 128 0.21 24 9.1 2.8 1 23 1597 1620 1597 1620 0.98
55 128 0.03 3.5 11.7 1.2 2 23 1627 1649 1626 1649 0.97
56 128 0.081 9.5 10.3 4.0 1 23 1655 1678 1655 1678 0.98
57 128 0.12 14 9.8 3.8 1 23 1684 1707 1684 1707 0.98
58 128 0.03 3.5 11.7 1.2 2 23 1714 1736 1713 1736 0.97
59 128 0.0028 0.33 14.9 1.6 1 23 1742 1765 1742 1765 0.98
60 128 0.0067 0.78 13.7 1.6 1 23 1771 1794 1771 1794 0.98
61 128 0.12 14 9.8 3.8 1 23 1800 1823 1800 1823 0.98
62 128 0.047 5.5 11.1 1.4 2 23 1830 1852 1829 1852 0.96
63 128 0.21 24 9.1 2.8 1 23 1858 1881 1858 1881 0.98
64 128 0.03 3.5 11.7 1.2 2 23 1888 1910 1887 1910 0.97
65 128 0.081 9.5 10.3 4.0 1 23 1916 1939 1916 1939 0.98
66 128 0.21 24 9.1 2.8 1 23 1945 1968 1945 1968 0.98
67 128 0.03 3.5 11.7 1.2 2 23 1975 1997 1974 1997 0.97
68 128 0.12 14 9.8 3.8 1 23 2003 2026 2003 2026 0.98
69 128 0.03 3.5 11.7 1.2 2 23 2033 2055 2032 2055 0.97
70 128 0.081 9.5 10.3 4.0 1 23 2061 2084 2061 2084 0.98
71 128 0.21 24 9.1 2.8 1 23 2090 2113 2090 2113 0.98
72 128 0.03 3.5 11.7 1.2 2 23 2120 2142 2119 2142 0.97
73 128 0.12 14 9.8 3.8 1 23 2148 2171 2148 2171 0.98
74 128 0.047 5.5 11.1 1.4 2 23 2178 2200 2177 2200 0.96
75 128 0.21 24 9.1 2.8 1 23 2206 2229 2206 2229 0.98
76 128 0.03 3.5 11.7 1.2 2 23 2236 2258 2235 2258 0.97
77 128 0.12 14 9.8 3.8 1 23 2264 2287 2264 2287 0.98
78 128 0.047 5.5 11.1 1.4 2 23 2294 2316 2293 2316 0.96
79 128 0.21 24 9.1 2.8 1 23 2322 2345 2322 2345 0.98
80 128 0.03 3.5 11.7 1.2 2 23 2352 2374 2351 2374 0.97
81 128 0.081 9.5 10.3 4.0 1 23 2380 2403 2380 2403 0.98
82 128 0.21 24 9.1 2.8 1 23 2409 2432 2409 2432 0.98
83 128 0.03 3.5 11.7 1.2 2 23 2439 2461 2438 2461 0.97
84 128 0.12 14 9.8 3.8 1 23 2467 2490 2467 2490 0.98
85 128 0.039 4.5 11.3 1.1 2 23 2497 2519 2496 2519 0.96
86 128 0.14 16 9.6 3.0 1 23 2525 2548 2525 2548 0.98
87 128 0.21 24 9.1 2.8 1 23 2554 2577 2554 2577 0.98
88 128 0.03 3.5 11.7 1.2 2 23 2584 2606 2583 2606 0.97
89 128 0.12 14 9.8 3.8 1 23 2612 2635 2612 2635 0.98
90 128 0.03 3.5 11.7 1.2 2 23 2642 2664 2641 2664 0.97
91 128 0.047 5.5 11.1 1.4 2 23 2671 2693 2670 2693 0.96
92 128 0.12 14 9.8 3.8 1 23 2699 2722 2699 2722 0.98
93 128 0.0097 1.1 13.2 1.7 1 23 2728 2751 2728 2751 0.98
94 128 0.022 2.5 12.1 0.9 1 23 2757 2780 2757 2780 0.98
95 128 0.0028 0.33 14.9 1.6 1 23 2786 2809 2786 2809 0.98
96 128 0.03 3.5 11.7 1.2 2 23 2816 2838 2815 2838 0.97
97 128 0.0028 0.33 14.9 1.6 1 23 2844 2867 2844 2867 0.98
98 128 0.03 3.5 11.7 1.2 2 23 2874 2896 2873 2896 0.97
99 128 0.013 1.5 12.9 2.0 1 23 2902 2925 2902 2925 0.98
100 128 0.022 2.5 12.1 0.9 1 23 2931 2954 2931 2954 0.98
101 128 0.013 1.5 12.9 2.0 1 23 2960 2983 2960 2983 0.98
102 128 0.038 4.4 11.4 1.3 1 23 2989 3010 2989 3010 0.99
103 128 0.27 31 8.7 0.7 1 23 3016 3039 3016 3039 0.97
104 128 0.12 14 9.8 3.8 1 23 3045 3068 3045 3068 0.98
105 128 0.047 5.5 11.1 1.4 2 23 3075 3097 3074 3097 0.96
106 128 0.21 24 9.1 2.8 1 23 3103 3126 3103 3126 0.98
107 128 0.03 3.5 11.7 1.2 2 23 3133 3155 3132 3155 0.97
108 128 0.12 14 9.8 3.8 1 23 3161 3184 3161 3184 0.98
109 128 0.047 5.5 11.1 1.4 2 23 3191 3213 3190 3213 0.96
110 128 0.21 24 9.1 2.8 1 23 3219 3242 3219 3242 0.98
111 128 0.03 3.5 11.7 1.2 2 23 3249 3271 3248 3271 0.97
112 128 0.081 9.5 10.3 4.0 1 23 3277 3300 3277 3300 0.98
113 128 0.21 24 9.1 2.8 1 23 3306 3329 3306 3329 0.98
114 128 0.03 3.5 11.7 1.2 2 23 3336 3358 3335 3358 0.97
115 128 0.12 14 9.8 3.8 1 23 3364 3387 3364 3387 0.98
116 128 0.039 4.5 11.3 1.1 2 23 3394 3416 3393 3416 0.96
117 128 0.0067 0.78 13.7 1.6 1 23 3422 3445 3422 3445 0.98
118 128 0.081 9.5 10.3 4.0 1 23 3451 3474 3451 3474 0.98
119 128 0.21 24 9.1 2.8 1 23 3480 3503 3480 3503 0.98
120 128 0.03 3.5 11.7 1.2 2 23 3510 3532 3509 3532 0.97
121 128 0.081 9.5 10.3 4.0 1 23 3538 3561 3538 3561 0.98
122 128 0.21 24 9.1 2.8 1 23 3567 3590 3567 3590 0.98
123 128 0.03 3.5 11.7 1.2 2 23 3597 3619 3596 3619 0.97
124 128 0.36 42 8.3 2.0 1 22 3625 3646 3625 3646 0.96
125 128 0.047 5.5 11.1 1.4 2 23 3655 3677 3654 3677 0.96
126 128 0.038 4.4 11.4 1.3 1 23 3683 3704 3683 3704 0.99
127 128 0.15 18 9.5 0.6 1 23 3710 3733 3710 3733 0.97
128 128 0.12 14 9.8 3.8 1 23 3739 3762 3739 3762 0.98

Sequence Information

Coding Sequence
ATGTACAAATGCACGCAATGCAAGTTCAGAACAGTGTACAGCGCCGACTTCAGACACCACACTAACAAACATTACGAGATGAAAATGTACAAATGTGGAATTTGTGACAGAAGATACAAGACGAGGGGATTTCTGAAGATGCACGTAGAAAAAAATCATGCCGAGAATGAAGGCAGAGAGTTCGAAAAATACTCTAAATGTGACTATTTCAAAGCTAATATTAAAAATATAAAAGGAAAATCTCTACATTCTCATGATGGTCAAAAACATTGTCAATCCTCGAAACACAAATTTCAAAATAGAGACAAATGTCACTTAAAGTCACTTATAAAAGTAAAACATCTGAACAGAGGCAAATATAAATGCGCAAATTGCGAGTTTAAGACATATTACAGAGCATATTTAGAAATGCATATGAAAATGAAACATCTCACGATGGAAGCTGATTATAAATGCATGAAGTGCGAATTCAAGACAAACTACAAGTCAGCCTTGGAAAGACACGTAAAAACAAAACATCTTAAACAAAAATATTATAAATGTGTAGAGTGTGAACACCAGACAAACTACAAGCCGCATTTACAAGCCCACACAAAAACAAAACATCTGAAACAAAATGATTATAAATGTGCAGAGTGTGAATTCCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACTAAACATCTGAAACAATATGATCATAAATGTGCAGAGTGTGAATTCCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACTAAACATCTGAAACAAAATGATTATAAATGTGCAGAGTGTGAATACCAGACAAACTTGAAGTCAAACTTAAAAGTGCACGTAAAAGCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGCCAAACTACAAGTCATGCTTAGAAGTGCACATAAAAACTAAACATCTGAAACAAAATGATTATAAATGTACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGATAAACTTGAAATCAAACTTAAAAGTGCACGTAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCACAGAATGTGAATACCAGACAAACAAATCAAACTTAGAAGTGCACGTAAAAAAACATCTGAAACAAAATGATTATAAATGCACAGAATGTGAATACCAGACAAACAAATCAAACTTAAAAGTGCACGTAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATTATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATTATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATTATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATTATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAACCATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTGGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAACCATCTGAAACAAAATGATTATAAATGCGCAGTGTGTGAATACCAGACCAACCTGAAGTCAAACTTAAAAGTGCACATAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCAAGCTTAGAAGTGCACATAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGTGTGTGAATACCAGACAAACTTGAAGTCAAACTTAAAAGTGCACATAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCACAGAATGTGAATACCAGACAAACAAATCAAACTTAGAAGTGCACGTAAAAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGATAAACTACAAATCAAGCTTAGAACTGCACGTAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAACCATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAACATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACAAAAAGTCAAACTTAGTAGTGCACGTAAAAACAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACAAAAAATCTGAAACAAAAGGATTTAAAATGCACAGAGTGTGAATACCAGACAAACTACAAATCAAGCTTAGAACTGCACATAAAAAGAAAACATCTGAAACAAAATGATTATAAATGCACAGAATGTGAATACCAGACAAACAAATCAAACTTAGAAGTGCACGTAAAAAAACATCTGAAACAAAATGATTATAAATGCGCAGAGTGTGAATACCAGATAAACTTGAAATCAAACTTAAAAGTGCACGTAAAATCAAAACATCTGAAACAAAATGATTATAAATGCACAGAGTGTGAATACCAGACAAACTACAAGTCATGCTTAGAAGTGCACGTAAAAACTAAACATCTGAAACAAAATGATTATAAATGCGCAGTGTGA
Protein Sequence
MYKCTQCKFRTVYSADFRHHTNKHYEMKMYKCGICDRRYKTRGFLKMHVEKNHAENEGREFEKYSKCDYFKANIKNIKGKSLHSHDGQKHCQSSKHKFQNRDKCHLKSLIKVKHLNRGKYKCANCEFKTYYRAYLEMHMKMKHLTMEADYKCMKCEFKTNYKSALERHVKTKHLKQKYYKCVECEHQTNYKPHLQAHTKTKHLKQNDYKCAECEFQTNYKSCLEVHVKTKHLKQYDHKCAECEFQTNYKSCLEVHVKTKHLKQNDYKCAECEYQTNLKSNLKVHVKAKHLKQNDYKCTECEYQPNYKSCLEVHIKTKHLKQNDYKCTECEYQTNYKSCLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCAECEYQINLKSNLKVHVKSKHLKQNDYKCTECEYQTNYKSSLELHIKRKHLKQNDYKCTECEYQTNKSNLEVHVKKHLKQNDYKCTECEYQTNKSNLKVHVKSKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSCLEVHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSCLEVHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCAECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNYYKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNYYKCTECEYQTNYKSCLEVHVKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNYYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNYYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRNHLKQNDYKCAECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQNDYKCTECEYQTNYKSSLELHIKRNHLKQNDYKCAVCEYQTNLKSNLKVHIKSKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLEVHIKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAVCEYQTNLKSNLKVHIKSKHLKQNDYKCTECEYQTNYKSSLELHIKRKHLKQNDYKCTECEYQTNKSNLEVHVKKHLKQNDYKCAECEYQINYKSSLELHVKSKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNYKSSLELHIKRNHLKQNDYKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHIKRKHLKQNDYKCAECEYQTNYKSCLEVHVKTKHLKQKDLKCTECEYQTNKKSNLVVHVKTKHLKQNDYKCTECEYQTNYKSCLEVHVKTKNLKQKDLKCTECEYQTNYKSSLELHIKRKHLKQNDYKCTECEYQTNKSNLEVHVKKHLKQNDYKCAECEYQINLKSNLKVHVKSKHLKQNDYKCTECEYQTNYKSCLEVHVKTKHLKQNDYKCAV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity
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90% Identity
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80% Identity
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