Basic Information

Insect: Brachynemurus nebulosus
Gene Symbol: shop
Assembly: GCA_035578155.1
Location: JAPWDM010000002.1:70752112-70829688[+]

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 31 0.0063 0.34 12.8 0.1 2 23 81 102 80 102 0.97

2 31 0.00044 0.024 16.5 5.8 2 23 106 127 105 127 0.96

3 31 0.26 14 7.7 6.0 1 23 133 156 133 156 0.95

4 31 3.1 1.7e+02 4.4 4.5 1 23 297 319 297 320 0.95

5 31 0.0029 0.16 13.9 0.0 2 23 326 347 325 347 0.97

6 31 0.00011 0.0062 18.3 5.2 2 23 351 372 350 372 0.96

7 31 0.26 14 7.7 6.0 1 23 378 401 378 401 0.95

8 31 0.026 1.4 10.9 1.8 2 23 573 594 572 594 0.96

9 31 6.7e-05 0.0036 19.0 1.3 2 23 601 623 600 623 0.96

10 31 0.2 11 8.1 2.5 3 23 732 753 730 753 0.92

11 31 0.011 0.57 12.1 1.6 1 23 759 782 759 782 0.97

12 31 1.8e-05 0.00096 20.8 1.9 2 23 913 935 912 935 0.96

13 31 4.5e-05 0.0024 19.6 3.2 2 23 1045 1066 1044 1066 0.96

14 31 1.2e-05 0.00068 21.3 2.1 2 23 1073 1095 1072 1095 0.96

15 31 8.8e-05 0.0048 18.6 1.4 2 22 1151 1171 1150 1171 0.95

16 31 0.00036 0.019 16.7 3.0 1 23 1304 1327 1304 1327 0.91

17 31 0.00015 0.0084 17.9 1.3 1 23 1333 1356 1333 1356 0.97

18 31 0.00037 0.02 16.7 6.0 2 23 1466 1487 1465 1487 0.96

19 31 0.00011 0.0061 18.3 1.8 2 23 1494 1516 1493 1516 0.94

20 31 2.5e-05 0.0014 20.4 1.9 2 23 1575 1597 1574 1597 0.96

21 31 4.6 2.5e+02 3.8 0.9 1 23 1671 1693 1671 1694 0.94

22 31 0.006 0.33 12.9 0.3 2 23 1700 1722 1699 1722 0.95

23 31 0.00032 0.017 16.9 3.7 3 23 1727 1747 1725 1747 0.96

24 31 5.5e-06 0.0003 22.5 4.1 2 23 1754 1775 1753 1775 0.97

25 31 0.56 31 6.7 0.7 1 23 1807 1830 1807 1830 0.97

26 31 0.0043 0.24 13.3 2.0 2 23 1996 2017 1995 2017 0.97

27 31 5.5e-05 0.003 19.3 4.0 2 23 2024 2046 2023 2046 0.96

28 31 0.39 21 7.2 0.6 2 17 2106 2121 2105 2122 0.90

29 31 0.00039 0.021 16.6 2.1 2 23 2334 2356 2333 2356 0.95

30 31 0.0015 0.081 14.8 0.7 2 23 2405 2427 2405 2427 0.96

31 31 0.0059 0.32 12.9 0.2 3 23 2432 2452 2430 2452 0.91

#	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	31	0.0063	0.34	12.8	0.1	2	23	81	102	80	102	0.97
2	31	0.00044	0.024	16.5	5.8	2	23	106	127	105	127	0.96
3	31	0.26	14	7.7	6.0	1	23	133	156	133	156	0.95
4	31	3.1	1.7e+02	4.4	4.5	1	23	297	319	297	320	0.95
5	31	0.0029	0.16	13.9	0.0	2	23	326	347	325	347	0.97
6	31	0.00011	0.0062	18.3	5.2	2	23	351	372	350	372	0.96
7	31	0.26	14	7.7	6.0	1	23	378	401	378	401	0.95
8	31	0.026	1.4	10.9	1.8	2	23	573	594	572	594	0.96
9	31	6.7e-05	0.0036	19.0	1.3	2	23	601	623	600	623	0.96
10	31	0.2	11	8.1	2.5	3	23	732	753	730	753	0.92
11	31	0.011	0.57	12.1	1.6	1	23	759	782	759	782	0.97
12	31	1.8e-05	0.00096	20.8	1.9	2	23	913	935	912	935	0.96
13	31	4.5e-05	0.0024	19.6	3.2	2	23	1045	1066	1044	1066	0.96
14	31	1.2e-05	0.00068	21.3	2.1	2	23	1073	1095	1072	1095	0.96
15	31	8.8e-05	0.0048	18.6	1.4	2	22	1151	1171	1150	1171	0.95
16	31	0.00036	0.019	16.7	3.0	1	23	1304	1327	1304	1327	0.91
17	31	0.00015	0.0084	17.9	1.3	1	23	1333	1356	1333	1356	0.97
18	31	0.00037	0.02	16.7	6.0	2	23	1466	1487	1465	1487	0.96
19	31	0.00011	0.0061	18.3	1.8	2	23	1494	1516	1493	1516	0.94
20	31	2.5e-05	0.0014	20.4	1.9	2	23	1575	1597	1574	1597	0.96
21	31	4.6	2.5e+02	3.8	0.9	1	23	1671	1693	1671	1694	0.94
22	31	0.006	0.33	12.9	0.3	2	23	1700	1722	1699	1722	0.95
23	31	0.00032	0.017	16.9	3.7	3	23	1727	1747	1725	1747	0.96
24	31	5.5e-06	0.0003	22.5	4.1	2	23	1754	1775	1753	1775	0.97
25	31	0.56	31	6.7	0.7	1	23	1807	1830	1807	1830	0.97
26	31	0.0043	0.24	13.3	2.0	2	23	1996	2017	1995	2017	0.97
27	31	5.5e-05	0.003	19.3	4.0	2	23	2024	2046	2023	2046	0.96
28	31	0.39	21	7.2	0.6	2	17	2106	2121	2105	2122	0.90
29	31	0.00039	0.021	16.6	2.1	2	23	2334	2356	2333	2356	0.95
30	31	0.0015	0.081	14.8	0.7	2	23	2405	2427	2405	2427	0.96
31	31	0.0059	0.32	12.9	0.2	3	23	2432	2452	2430	2452	0.91

Sequence Information

Coding Sequence: atgatttttgaagaaaacgacattttaaaTAACTCAGATGAAAACAATACAAATGATACACAAACCGAATGGAAAATTGACACACGTAACGAATGGAAAATTGACACACTTCTAAGATCTAAATTGGAAATGAATGATTGCTCGAAAAGtcCATATCGCTGTGAAACATGTTATgaagaatttttacacttagaTAAGCTGGTAGAGCACACGCAGGCGCACCACGAAGTGAAACCAGTAACTTGTACAGTGTGTAATACAGTGTTCACACTACCGCTAGAGCTCAGTATACACATGCAAAGTCACGAGCAAGTGACTTGCCACGATTGCGGCAAAGCGTTTACGCATATGCATCAATTAAAGAGGCATAGTCAAGTACATTCGGACGATCGACCTCATATTTGTACGAAATGTTATAAAACTTTTAAGGATACGTGGTGTCTAAAAATGCACGAGAAACGGGTACATTTGAATCAAGTGAATCGACAAAAATGTGATATTTGTCAGAGAGAAGTGTTTGATTTAAagataaaaaacAATGAACTTCCGAAAAATATATGTCCCTCCTGTCTAGATAAGTTAAACGCTGCGTACATATTCAATCGACTATGTGAACATTCCGATTATATTTTACGTCAAATAATTGAATGTGGTGATAAATCCTGGTTCCGGGCAAAAAACAGTGacgaaaatcaattaaaaaatgaatcgTATGATTTACATGAATCAaaagaaatgatttttgaagaaaacgacattttaaaTAACTCAGATGAAAACAATACAAGTGATACACAAACCGAATGGAAAATTGACACATGCAATGAATCGAAAATGTACCCACTTCTACGAGCTAGATTGGAAATGAATGGTAGCTCGAAAAGTCGGTATCGCTGTGAAACATGTCATGAAGAATTTTTACACTCAGATAAGCTGGTAGAGCATACGCAGGCGCACCACGAAGTGAAACCAGTAACTTGTCCAGTGTGTAACACAGTGTTCACACTTCCGCTAGAGCTCAGTATACACATGCAAAGTCACGAACAAATGACTTGCCACGATTGCGGCAAAACGTTTACGCATATGTACCAATTAAAGAGGCATAGTCAAGTACACTCGGATGATCGACCCCATATTTGTACGAAATGTTATAAGACTTTTAAGGATACGTGGTGTCTAAAAATGCACGAGAAACGGGTACATTTGAATCAAGTGAATCGACAAAAATGTGATATTTGTCAGAGAGAAGTGTTTGATTtaaagATagaaaataacgaatttccggaGAATATATGCCCATCGTGTCTAGATAAATTAAACACGGCCTACACATTCCATCAACAATGTGAACACTCGGATAACATTTTGCATCAAATCGTTGAATATGATGATAAATTTCAATTACTAGCGAAACACGATGACGAAAATCAGATGTTCATAGAAAATGATGCGAATGATTTACACGAATCAaaagaaatgatttttgaagacaataaacttttagatggcatagataaaaataatacaaattatacACAAAACGAATGGGAAAGTGACCCATTTCAAGAGCCTGAACTGGAAATGAGTAATTGCCAAAAAAGTCCGTATCGACATGAAACAAATAATGAAGAATTTTCGCACTTAGATAAATCGGTAGAGCACACAGCGCCGAATCACGAAGTAAAACCAGCGCATACGCAAAATCACGATCAATTAATTTGCCACGATTGCGGTAGAACGTTTTTGAACGGGCGAGGGTTAAAGAAACATAGGCAAATGCATTTGAATGCTCGATCGTTAActtgtaaaatatgttttaagaCTTTTACAAGGATTGGTAATCTAAGAACGCATGAGAGAACGGTACATAAGATACAAAAtgcaaaacaaacaaaaaacagtgaagaaaatcaaatagaaaatgaaatggTTAATTTACACGAATCAAAAGGAATGATTTTCGAAGAGAATAACGTTTTAGATGATTCacatgaaaattataaaagtgaCATACAAAATGAACGGAAAAGTGACACAATTCAAGAGTCTACATTGGAAAAGAATGATTGCCAAAAAAgtcCGGTTCGATGTGAAACATCAAATGGacaatttttacacttaaataagCTGGTAGAGCACACGAAGACCAATCACAAAGTAAAATCAGTCGGTATGCAAAATCGCAAACAGAATTGCCGCTATTGCGACAAAACGTTTATGGGCATGCGCGAGTTAACGAAACATCACAGTCAAGTACATTCGAATGATGGATGTTATATTTGTACAGAATGTTCCAGGACCTTTAGTGGAATACATAGTATAAAAAAGCACATTAAATCTGTACATGAAACTATATTGCGTACGAAGAAATTAGTGAAGCTAATTCGACAAAAATGTGATATCTGTCAGaaagaagtaaaatatttaaagatAGAAAATAACAAATTTCCGGAGAATATATGCCCATCGTGTCTAGATAAATTAAACACCGCGTACACATTCCATCAACAATGTGAACGCTCCGataatattttacatcaaaTAATTGAATATGATGATAAATCCCGATTTCTAGCGATTTCTAACGTGCAAGAAAATCAAATGTTCATAGAAAATGATACGAATGATTTTCACGAATCAaaagaaatgatttttgaaGAGAAAAACATTTTAGTTGATTCAGATGGAAAATTTTCGCACTTAGATAAATTGGTACATTCGAATCGTCGATCTTTAACTTGTCAAATATGTTTCAAGACTTATTCTAGAAGTGATAATCTAAGAACGCACCAGAGAAGGATACATAAAATGcaatttacaaaacatacaaaaaacagTGAAGAAAATCAAATAGAAAATGACACAGATGATTTTCACGAATCGAAAGAAATAGTtttcgaagaaattaaaattttagataacttAAATGGCTTAAGAAATATAAATGATACGAAACCCGAAACCCGTGACTCACTTCAAGAGCCTAAACTAGAAAATATGAATGATTGCCAAAAAAGtCCGTATCAATATGAAACAAATAATGAAGAATTTTCGTACTTAGATAAGTTGGTAGAGCACACCGAGACAAATCACAAAGTAGTGCCAGCCCATTTACAAAATCATGATCAATTAATTTGCCACGATTGTGGTAAAACGTTTGTGCACATGCGCGGTTTAAAGAAACATATTCAAACACATTCGATTGTTCGATCTTTAACTTGTACAATATGTTTTAAGACTTATTCTAGGAGTGATAATCTAAAAACACATCAGAGAAGGGTACATAAAATGGAAATTGTAGAACATACAAAAAACAGTGAAGACaatcaaatagaaaatgaaacgaATGATTTTCACGAATCAAAAGACATGATTTTTGAAGAGAATAACGACTCAGATGAAAAATTTTCGCCTTTAGATAAATTGGTACATTCGAATAGTGGATCTTTAACTTGTACAATATGTTTCAAGACTTATTCTAGGAGTGATAATCTAAGAACGCACCAGAGAAAGataGAAAATAACAAATTTCCGGAGAATATATGCCCATCGTGTCTAGATAAATTAAACACCGCGTATACATTCCATCAACAATGTGAACGCTCGGAAAACATTTTGCATCAAATAGTTGAACGTGATGATAAATCCCGATTTCTAGCGATTTCTAACGTGCAAGAAAatcaaatattcataaaaaatgatGCGAATGATTTATACGAATCAaaagaaatgatttttaaagaaaaaaacatttttgatgaCTTAGatgaaaataatacaaatgataCACAAAACGAATGGGAAAATGGGGAAAATAATACACTTCAAGAACCGAAACTGGAAATGGATAACTGCCAAAAAAGCCCGTTATTAGAGACACCTAGTCAAATACATTCAAATGGCGGCTCTTATACTTGTACAAAATGTTTCAAGATTTTTACCAGGAAATTTAATCTAACAAGGCACGAGACACTGGTACATTCGAATAATCAAACTTATACTTGTGCAAAATGTTTCAAGACTTTTAAGAGGCTTGGTAGTCTAAGAAACCACGAGAGAGTGGTACATTGGAAACAAGTTACAAATCATCCGGAAAACAGTGAAGAAAATCAAATAGAAAATGAGACGAATGATTTATACGAATCAAAAGAAGTGATTTTTGAAGAGAATAACATTTTAGATCACTTAGatgaaaataatacaaatgataCACAAAACGAACGGGAGGGGGATCCACTTCAAAAGCCTGAACTGGAAACGAGTAATTGCGAAAAAAGAACGCTGCGACAAGAAGAAACAAATGATGAAGAATTTTCGCACTTAGATAAATCGGTGGAGTACACAGAGACGAATCACGAAGTCAAATCAGCACATGCGCAAAATCATGATCAATTAACTTGCCACGATTGCGGTAGAACGTTTGTGCACAGGGGCGCGTTAAAAAAACATAGGCATATGCATTTGAATGGTCGATCTTTAAcctgtaaaatatgttttaagaCTTTTACAAGGAGTTTTAATCTAAGAACGCATGAGAGAGGGGTACATAAGATACAAAGTGTAGAACATACAAAAACCAGTGAAGAAAatcaaacagaaaatgaaatagATAATTTACACGAATCGAAACAAATGATTTTTAAAGAGAAGAACATTTTAATTGACTCAGATGAAAAGTTTTTGCGCTTAGATAGATTGATACATTCGAATGGTCGAtctttaacttgtaaaatatgttttaagaCTTACTCTAGAATTGATAATCTAAGAAGGCACCAGAGAAGGGTACATAAAATACACTTTTCAAAACATGCAAAAGACAGTGAAGAAAACCAATTAGAAAACGAAACAGATGATTTATACGATTCAAAAGAAACAGTTTTTgacgaaaataacattttaaatgacTTAGATGGCTTAAAAGGTACGAATGATACGAAACGTGAATGGAAATGTGACACACTTCAAGACCCGAAACTAGAAAATATGAATGATTGTCAAAAAAGttCGTATCGATGTGAAACATGTTTTGAAGAATTTTTGGACTTAGATAAGCTGGTGGAGCACACGCAGGCGCACCACGAAGTAAAACCGGTAACTTGTACCGTGTGTAATACAGTGTTCACACTTCAACTAGAGCTCCGAATACATATGCAACAAAATCACAGTCAAATAATTTGCCACGATTGTGGAAGAACGTTTTCGCACATGAACGGGCTCAAGAGACATAGTCGTATGCATTTGAATGGTCGATCTTTAACTTGTACAAAATGTTTCAAGACTTTTAACAGAAGTTCTAATTTAAGAAGGCACCTAAGATCACATTTGATACAAGCTATGAAACATGCAAAACgcagtaaaaaaaatgacacaTTTCAAGCGTCTGAATCGGAGATGAATAATTGCCGGAAAAGTCCGTATCAATGTGAAATATGTTATGAAGAATTTTTACATTTAGATAAATTGGTAGAGCACACGAAGATGAATCACGAATGCAATATTTGTCAGAAAAAAGTAGTCTATTTgaagatagaaaataacgaatttccgaagAATATATGTCTCTCCTGTTTAGGAAATTTAAATACCGCGTACACATTCCATCAACAATGTGAACGTTCCGATAACATTTTACATCAAATAGTTGAATATGATGATAAATCACAATTTCTAGCGAAACACGATGACGAAAATCAGATGTTCATAGAAAATGATGCGAATGATTTACACGAATCAaaagaaatgatttttgaaGAGAATAACCTTTTAAACGACTCagatgaaaataattcaaatgatACACAAAACGAATGGGAAAGTGACCCACTTCAAGAGTCTGAACTGGAAATGAGTAATTGCCAAAAAAGTACGCCGCGACAAGAGCAAACAAATGATGAAGAATTTTCGCATTTAGATAAATTGGTAGAGCACACAGAGACAAATCACGAAATAAAACCGGCACATGCGCAAATTCATGATCAATTGACTTGCCACGATTGCGGTCGAACGTTTTTGAACATGCCCGGGTTAAAGAAACATAGGCGTATGCATTTGAATGGTCGATCTTTAACTTGTTCAAAATGTTTCAAGACTTTTACACGGAGTTTTAATCTAAGAACGCACCAGAGAAGGGTACACAAGACAGAAATTGCAGAACATACAAAAAACAGTGAAgaagaaaatcaaaaagaaaatgaaatagatAATGTACACGAATCAAAAGAAATAGTTTCTGAAGAGAATAACATTTTAGTTGACTCAGATGAAGAATTTTCGCCCCAAGATAAATTGGTAGATTCGAATGTTGGATCTTTAACTTGTCAAATATGTTTCAAGACTTATTCTAGGAGATCATCTTTTATAAATGGAGCACTTACGGGCGATAAATACCTTCAGTTAATAAACGGCATTGATCCAACAATCGAAGCTGTGGTAAATGGTGAAAACAATATAGTCTGGTTTGAATTCGATGGAGCACTTGGGCATTATTATAGATCAATAGAAAATAACGAATTCCCGAAGAATATATGTCTCTCCTGTTTAGGAAATTTAAACACCGCGTACACATTCCATCAACAATGTGAACACTCCAATAACATTTTGCATCAAATAGTTAAATATAATGATAAATCCCAATTTCTAGCGAAACACGATGACGAAAATCAGATGTTCATAAAAAATGATGCGAATGATTTACACGAATCAaaagaaatgatttttaaagagaaaaacatttttgatgACTTAGATGAAAATGATACAGATGATACCAAAAACGAATGGGAGAGTGATCCACTTCAAGATCCTGAACTGGAAATGAGTAGCTGCCAAAAAAGtacACATCCAGATGAGACAAATGATGAAGAATTTTCGCACTTAGATAAATCGGTGGAGCACACAGAGACGAATCACGAAGTAAAATCAGCACATGTGCAAAATCATGACCAAATAATTGATCACGATTACGGTAAAACGTTTTTGCGCATGCGCAGATCTTTAACTTGTTCAGTATGTTTCAAGACTTTTACAAAGAGTTTTAATCTAAGAGTGCACCAGAAAAATGTACATAAGATGCAACTTCAAGACCCTATACTAGAATATATGAATGATTGGCAAAAAAGgcCGTGTCGATGTGAATCATGTTTTGAAGAATTTTTGGACTTAGACAAGCTGGTGGAGCACACGAAGGCGCACCACGAAGTGGAACCAGCAACTTGTACGGAGTGTAATACAGTGTTCACACTTCAACAAGAGCTGCGAATACATATGCAACAAAATCACGGTCAAATAATTTGCTACGATTGTGGAAGGAGATTTTCGAACATGAGCGGGCTAAAGATACATAGTTATTTGCATTTGAATGGTCGATCTTTAACATACAAAGCATATGCGGCCCAAAAAGAAAATTCGTTTGAAGCCGGAATAGTAATATCAGATTTACCGTATTATTCGATAGACGACGTTGAAAAACATAATAACAAGGATGATGGAATATGGGTGGTTTACAAACATGGCGTCTACGATATCACATCGTTTGTCGATATTCATCCGGGTGGAAAAGAGATATTTTTAGCTGCCGGTGGATCATTGGAACCATTTTGGTCCATATACACGGTACATAATTCAAAGGAGATTTTCGAACTTCTCGAAGAATATCGAATAGgtaaTATCAAAAGTGATGaacaatttgtaaaaaaacatgTATCAGATCCATTTGCTAACGACCCTCGTAGACATCCGGCTTTAAAACCGGTTTCACAAAAACCATTTAACGCTGAATGTCCACCTAATCTCCTTGTAGAGCAATTTGTTACTCCAAAcgAGTTGTTTTTCGTAAGAAATCATCTTCCGGTTCCTGTTATTGATCCGGCTAAATATAAATTAGAGATTGAAATTGAAGGCGTCAAAAAACGGACTATATTAAATTtggaacaattgaaaaaattccCTAAACATACGGTGGTCTCAACAATAATGTGCGCTGGAAATCGGCGCAGTGAAATGATGAAGGTAAAACCGGTAAAAGGTTTAGAATGGGGTCCAGCAGCCGTAGGAAACGCTGTTTGGACCGGTGTAAAATTACGAGATGTGTTACTTTCGCTTGGAAttgacaatattaaaaaatttaaacatgtcCAGtttgaAGGTTACGATTGTGATGTAAGTGGACAACATTACGGGGCGTCAATTCCACTTTGGAAAGCGATCGATGAACGATGCGAGACAATTCTGGCATACGAAATGAACGGTGAACCGTTGCCACGAGATCATGGCTTCCCGGTTCGTGTAGTTGTACCCGGGGTCGTTGGTGCGCGAAACGTGAAATGGTTGTCGAAAATCGTTGTCGCCGAACACGAAAGCAATTCACACTGGCAACAAAATGATTACAAAGGATTTAATCCAAGTGTGGATTGGGATACGGTCGACTTTAAAAAATCGCCAGCAATTCAAGAAATGCCGGTGATTTCGGCAATTTGTTCACCACGTGCCAACGACTCGGTTCAAGTTCACGATGGATACGTCACTGTGAAAGGGTACGCGTGGTCTGGAGGTGGCCAGTCCATTGTCCGGGTTGATATCACAGCGGACCACGGCAAAACTTGGCACACCGCGTCATTGGATCATCAGAGTCCGGAACCTGCGCCGCAACATTTTGCATGGACCTTGTGGTCGGCTCGGATTCCCGTCAAAGCAACtgataaagaaGTTGAAATATGGGCGAAAGCTGTCGATTCCAGTTACAATACGCAACcggaaagttttgaaaatatttggaaTTTGAGAGGTGTTCTGAACAATGCATATCACAGGATTCGACTTAAATTAGAACATAAGTAA
Protein Sequence: MIFEENDILNNSDENNTNDTQTEWKIDTRNEWKIDTLLRSKLEMNDCSKSPYRCETCYEEFLHLDKLVEHTQAHHEVKPVTCTVCNTVFTLPLELSIHMQSHEQVTCHDCGKAFTHMHQLKRHSQVHSDDRPHICTKCYKTFKDTWCLKMHEKRVHLNQVNRQKCDICQREVFDLKIKNNELPKNICPSCLDKLNAAYIFNRLCEHSDYILRQIIECGDKSWFRAKNSDENQLKNESYDLHESKEMIFEENDILNNSDENNTSDTQTEWKIDTCNESKMYPLLRARLEMNGSSKSRYRCETCHEEFLHSDKLVEHTQAHHEVKPVTCPVCNTVFTLPLELSIHMQSHEQMTCHDCGKTFTHMYQLKRHSQVHSDDRPHICTKCYKTFKDTWCLKMHEKRVHLNQVNRQKCDICQREVFDLKIENNEFPENICPSCLDKLNTAYTFHQQCEHSDNILHQIVEYDDKFQLLAKHDDENQMFIENDANDLHESKEMIFEDNKLLDGIDKNNTNYTQNEWESDPFQEPELEMSNCQKSPYRHETNNEEFSHLDKSVEHTAPNHEVKPAHTQNHDQLICHDCGRTFLNGRGLKKHRQMHLNARSLTCKICFKTFTRIGNLRTHERTVHKIQNAKQTKNSEENQIENEMVNLHESKGMIFEENNVLDDSHENYKSDIQNERKSDTIQESTLEKNDCQKSPVRCETSNGQFLHLNKLVEHTKTNHKVKSVGMQNRKQNCRYCDKTFMGMRELTKHHSQVHSNDGCYICTECSRTFSGIHSIKKHIKSVHETILRTKKLVKLIRQKCDICQKEVKYLKIENNKFPENICPSCLDKLNTAYTFHQQCERSDNILHQIIEYDDKSRFLAISNVQENQMFIENDTNDFHESKEMIFEEKNILVDSDGKFSHLDKLVHSNRRSLTCQICFKTYSRSDNLRTHQRRIHKMQFTKHTKNSEENQIENDTDDFHESKEIVFEEIKILDNLNGLRNINDTKPETRDSLQEPKLENMNDCQKSPYQYETNNEEFSYLDKLVEHTETNHKVVPAHLQNHDQLICHDCGKTFVHMRGLKKHIQTHSIVRSLTCTICFKTYSRSDNLKTHQRRVHKMEIVEHTKNSEDNQIENETNDFHESKDMIFEENNDSDEKFSPLDKLVHSNSGSLTCTICFKTYSRSDNLRTHQRKIENNKFPENICPSCLDKLNTAYTFHQQCERSENILHQIVERDDKSRFLAISNVQENQIFIKNDANDLYESKEMIFKEKNIFDDLDENNTNDTQNEWENGENNTLQEPKLEMDNCQKSPLLETPSQIHSNGGSYTCTKCFKIFTRKFNLTRHETLVHSNNQTYTCAKCFKTFKRLGSLRNHERVVHWKQVTNHPENSEENQIENETNDLYESKEVIFEENNILDHLDENNTNDTQNEREGDPLQKPELETSNCEKRTLRQEETNDEEFSHLDKSVEYTETNHEVKSAHAQNHDQLTCHDCGRTFVHRGALKKHRHMHLNGRSLTCKICFKTFTRSFNLRTHERGVHKIQSVEHTKTSEENQTENEIDNLHESKQMIFKEKNILIDSDEKFLRLDRLIHSNGRSLTCKICFKTYSRIDNLRRHQRRVHKIHFSKHAKDSEENQLENETDDLYDSKETVFDENNILNDLDGLKGTNDTKREWKCDTLQDPKLENMNDCQKSSYRCETCFEEFLDLDKLVEHTQAHHEVKPVTCTVCNTVFTLQLELRIHMQQNHSQIICHDCGRTFSHMNGLKRHSRMHLNGRSLTCTKCFKTFNRSSNLRRHLRSHLIQAMKHAKRSKKNDTFQASESEMNNCRKSPYQCEICYEEFLHLDKLVEHTKMNHECNICQKKVVYLKIENNEFPKNICLSCLGNLNTAYTFHQQCERSDNILHQIVEYDDKSQFLAKHDDENQMFIENDANDLHESKEMIFEENNLLNDSDENNSNDTQNEWESDPLQESELEMSNCQKSTPRQEQTNDEEFSHLDKLVEHTETNHEIKPAHAQIHDQLTCHDCGRTFLNMPGLKKHRRMHLNGRSLTCSKCFKTFTRSFNLRTHQRRVHKTEIAEHTKNSEEENQKENEIDNVHESKEIVSEENNILVDSDEEFSPQDKLVDSNVGSLTCQICFKTYSRRSSFINGALTGDKYLQLINGIDPTIEAVVNGENNIVWFEFDGALGHYYRSIENNEFPKNICLSCLGNLNTAYTFHQQCEHSNNILHQIVKYNDKSQFLAKHDDENQMFIKNDANDLHESKEMIFKEKNIFDDLDENDTDDTKNEWESDPLQDPELEMSSCQKSTHPDETNDEEFSHLDKSVEHTETNHEVKSAHVQNHDQIIDHDYGKTFLRMRRSLTCSVCFKTFTKSFNLRVHQKNVHKMQLQDPILEYMNDWQKRPCRCESCFEEFLDLDKLVEHTKAHHEVEPATCTECNTVFTLQQELRIHMQQNHGQIICYDCGRRFSNMSGLKIHSYLHLNGRSLTYKAYAAQKENSFEAGIVISDLPYYSIDDVEKHNNKDDGIWVVYKHGVYDITSFVDIHPGGKEIFLAAGGSLEPFWSIYTVHNSKEIFELLEEYRIGNIKSDEQFVKKHVSDPFANDPRRHPALKPVSQKPFNAECPPNLLVEQFVTPNELFFVRNHLPVPVIDPAKYKLEIEIEGVKKRTILNLEQLKKFPKHTVVSTIMCAGNRRSEMMKVKPVKGLEWGPAAVGNAVWTGVKLRDVLLSLGIDNIKKFKHVQFEGYDCDVSGQHYGASIPLWKAIDERCETILAYEMNGEPLPRDHGFPVRVVVPGVVGARNVKWLSKIVVAEHESNSHWQQNDYKGFNPSVDWDTVDFKKSPAIQEMPVISAICSPRANDSVQVHDGYVTVKGYAWSGGGQSIVRVDITADHGKTWHTASLDHQSPEPAPQHFAWTLWSARIPVKATDKEVEIWAKAVDSSYNTQPESFENIWNLRGVLNNAYHRIRLKLEHK

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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