Basic Information

Insect: Chrysolina haemoptera
Gene Symbol: -
Assembly: GCA_958298965.1
Location: OY282595.1:772374-779817[-]

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 63 0.023 3.6 9.9 2.5 1 23 296 318 296 318 0.98

2 63 0.00046 0.071 15.3 2.0 1 23 324 347 324 347 0.96

3 63 0.0011 0.17 14.1 3.1 1 23 353 375 353 375 0.98

4 63 1.1e-07 1.6e-05 26.7 1.6 1 23 381 403 381 403 0.99

5 63 0.00054 0.083 15.1 3.3 1 23 409 431 409 431 0.98

6 63 4.6e-05 0.0071 18.5 1.0 1 23 437 459 437 459 0.98

7 63 6.7e-06 0.001 21.1 1.9 1 23 465 487 465 487 0.99

8 63 0.0016 0.25 13.6 0.2 2 23 494 515 493 515 0.97

9 63 0.002 0.31 13.3 2.2 1 23 521 543 521 543 0.98

10 63 0.0082 1.3 11.4 0.3 1 23 549 571 549 571 0.94

11 63 6.9e-05 0.011 17.9 3.8 1 23 576 598 576 598 0.97

12 63 0.0037 0.57 12.5 4.4 1 23 604 626 604 627 0.95

13 63 0.0011 0.17 14.1 0.7 1 23 633 655 633 655 0.98

14 63 2.3e-05 0.0035 19.4 1.2 1 23 661 683 661 683 0.98

15 63 3.1e-06 0.00047 22.1 0.3 2 23 690 711 689 711 0.97

16 63 0.097 15 8.0 4.9 1 23 717 739 717 739 0.98

17 63 0.009 1.4 11.2 0.7 2 23 743 764 742 764 0.96

18 63 0.08 12 8.3 0.6 1 23 770 792 770 792 0.99

19 63 0.0052 0.8 12.0 1.5 1 23 798 820 798 820 0.93

20 63 0.00068 0.1 14.8 1.3 1 23 825 847 825 847 0.96

21 63 0.035 5.4 9.4 2.8 1 23 853 875 853 876 0.95

22 63 0.00017 0.026 16.7 0.8 1 23 882 904 882 904 0.98

23 63 1.7e-05 0.0026 19.8 1.1 1 23 910 932 910 932 0.98

24 63 0.00015 0.022 16.9 2.7 1 23 938 960 938 960 0.98

25 63 0.068 10 8.5 4.7 1 23 966 988 966 988 0.98

26 63 0.0019 0.29 13.4 0.2 2 23 992 1013 991 1013 0.96

27 63 0.0063 0.96 11.7 1.1 1 23 1041 1063 1041 1063 0.97

28 63 0.00014 0.021 16.9 4.3 1 23 1068 1090 1068 1090 0.97

29 63 0.026 3.9 9.8 4.1 1 23 1096 1118 1096 1119 0.95

30 63 0.12 19 7.7 1.6 1 23 1125 1147 1125 1147 0.96

31 63 0.00019 0.028 16.5 4.8 1 23 1153 1175 1153 1175 0.98

32 63 4.8e-05 0.0073 18.4 1.7 1 23 1181 1203 1181 1203 0.98

33 63 0.063 9.6 8.6 4.6 1 23 1209 1231 1209 1231 0.99

34 63 0.0042 0.64 12.3 0.2 2 23 1235 1256 1234 1256 0.96

35 63 0.0027 0.41 12.9 0.8 1 23 1284 1306 1284 1306 0.97

36 63 0.0008 0.12 14.5 3.2 1 23 1311 1333 1311 1333 0.97

37 63 0.016 2.5 10.4 1.6 2 23 1338 1359 1337 1359 0.97

38 63 8.9e-05 0.014 17.6 0.4 1 23 1363 1385 1363 1385 0.98

39 63 0.00026 0.04 16.1 1.4 1 23 1391 1413 1391 1413 0.98

40 63 6.5e-06 0.001 21.1 3.1 1 23 1419 1441 1419 1441 0.98

41 63 0.0066 1 11.7 1.9 1 23 1447 1469 1447 1469 0.98

42 63 0.19 29 7.1 0.1 2 23 1473 1494 1473 1494 0.97

43 63 0.00088 0.13 14.4 3.6 1 23 1500 1522 1500 1522 0.98

44 63 0.00065 0.099 14.8 0.2 1 23 1528 1550 1528 1550 0.98

45 63 5.8e-05 0.0089 18.1 1.3 1 23 1555 1577 1555 1577 0.97

46 63 0.012 1.9 10.8 0.3 2 23 1582 1603 1581 1603 0.96

47 63 1.9 2.8e+02 4.0 0.6 1 20 1609 1628 1609 1631 0.92

48 63 0.0012 0.19 14.0 2.8 1 23 1637 1659 1637 1659 0.98

49 63 2.3e-06 0.00035 22.6 2.4 1 23 1664 1686 1664 1686 0.97

50 63 0.00018 0.027 16.6 0.5 1 23 1692 1714 1692 1714 0.99

51 63 0.001 0.16 14.2 0.4 2 23 1718 1739 1717 1739 0.98

52 63 0.00027 0.041 16.1 1.3 1 23 1745 1767 1745 1767 0.99

53 63 0.0047 0.73 12.1 6.2 1 21 1773 1793 1773 1795 0.91

54 63 0.0024 0.36 13.1 2.1 1 23 1800 1822 1800 1822 0.96

55 63 0.0016 0.25 13.6 0.3 1 23 1826 1848 1826 1848 0.98

56 63 0.00019 0.029 16.5 1.9 1 23 1854 1876 1854 1876 0.98

57 63 3.9e-05 0.006 18.7 1.8 1 23 1883 1905 1883 1905 0.99

58 63 0.002 0.31 13.3 5.5 1 23 1911 1933 1911 1933 0.97

59 63 3.4e-05 0.0053 18.9 2.5 1 23 1939 1961 1939 1961 0.99

60 63 0.0094 1.4 11.2 0.3 3 23 1966 1986 1964 1986 0.96

61 63 0.015 2.3 10.6 4.9 1 23 1992 2014 1992 2014 0.98

62 63 0.00077 0.12 14.6 0.6 1 23 2020 2042 2020 2042 0.96

63 63 8.9e-05 0.014 17.6 4.8 1 23 2056 2078 2056 2079 0.95

#	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	63	0.023	3.6	9.9	2.5	1	23	296	318	296	318	0.98
2	63	0.00046	0.071	15.3	2.0	1	23	324	347	324	347	0.96
3	63	0.0011	0.17	14.1	3.1	1	23	353	375	353	375	0.98
4	63	1.1e-07	1.6e-05	26.7	1.6	1	23	381	403	381	403	0.99
5	63	0.00054	0.083	15.1	3.3	1	23	409	431	409	431	0.98
6	63	4.6e-05	0.0071	18.5	1.0	1	23	437	459	437	459	0.98
7	63	6.7e-06	0.001	21.1	1.9	1	23	465	487	465	487	0.99
8	63	0.0016	0.25	13.6	0.2	2	23	494	515	493	515	0.97
9	63	0.002	0.31	13.3	2.2	1	23	521	543	521	543	0.98
10	63	0.0082	1.3	11.4	0.3	1	23	549	571	549	571	0.94
11	63	6.9e-05	0.011	17.9	3.8	1	23	576	598	576	598	0.97
12	63	0.0037	0.57	12.5	4.4	1	23	604	626	604	627	0.95
13	63	0.0011	0.17	14.1	0.7	1	23	633	655	633	655	0.98
14	63	2.3e-05	0.0035	19.4	1.2	1	23	661	683	661	683	0.98
15	63	3.1e-06	0.00047	22.1	0.3	2	23	690	711	689	711	0.97
16	63	0.097	15	8.0	4.9	1	23	717	739	717	739	0.98
17	63	0.009	1.4	11.2	0.7	2	23	743	764	742	764	0.96
18	63	0.08	12	8.3	0.6	1	23	770	792	770	792	0.99
19	63	0.0052	0.8	12.0	1.5	1	23	798	820	798	820	0.93
20	63	0.00068	0.1	14.8	1.3	1	23	825	847	825	847	0.96
21	63	0.035	5.4	9.4	2.8	1	23	853	875	853	876	0.95
22	63	0.00017	0.026	16.7	0.8	1	23	882	904	882	904	0.98
23	63	1.7e-05	0.0026	19.8	1.1	1	23	910	932	910	932	0.98
24	63	0.00015	0.022	16.9	2.7	1	23	938	960	938	960	0.98
25	63	0.068	10	8.5	4.7	1	23	966	988	966	988	0.98
26	63	0.0019	0.29	13.4	0.2	2	23	992	1013	991	1013	0.96
27	63	0.0063	0.96	11.7	1.1	1	23	1041	1063	1041	1063	0.97
28	63	0.00014	0.021	16.9	4.3	1	23	1068	1090	1068	1090	0.97
29	63	0.026	3.9	9.8	4.1	1	23	1096	1118	1096	1119	0.95
30	63	0.12	19	7.7	1.6	1	23	1125	1147	1125	1147	0.96
31	63	0.00019	0.028	16.5	4.8	1	23	1153	1175	1153	1175	0.98
32	63	4.8e-05	0.0073	18.4	1.7	1	23	1181	1203	1181	1203	0.98
33	63	0.063	9.6	8.6	4.6	1	23	1209	1231	1209	1231	0.99
34	63	0.0042	0.64	12.3	0.2	2	23	1235	1256	1234	1256	0.96
35	63	0.0027	0.41	12.9	0.8	1	23	1284	1306	1284	1306	0.97
36	63	0.0008	0.12	14.5	3.2	1	23	1311	1333	1311	1333	0.97
37	63	0.016	2.5	10.4	1.6	2	23	1338	1359	1337	1359	0.97
38	63	8.9e-05	0.014	17.6	0.4	1	23	1363	1385	1363	1385	0.98
39	63	0.00026	0.04	16.1	1.4	1	23	1391	1413	1391	1413	0.98
40	63	6.5e-06	0.001	21.1	3.1	1	23	1419	1441	1419	1441	0.98
41	63	0.0066	1	11.7	1.9	1	23	1447	1469	1447	1469	0.98
42	63	0.19	29	7.1	0.1	2	23	1473	1494	1473	1494	0.97
43	63	0.00088	0.13	14.4	3.6	1	23	1500	1522	1500	1522	0.98
44	63	0.00065	0.099	14.8	0.2	1	23	1528	1550	1528	1550	0.98
45	63	5.8e-05	0.0089	18.1	1.3	1	23	1555	1577	1555	1577	0.97
46	63	0.012	1.9	10.8	0.3	2	23	1582	1603	1581	1603	0.96
47	63	1.9	2.8e+02	4.0	0.6	1	20	1609	1628	1609	1631	0.92
48	63	0.0012	0.19	14.0	2.8	1	23	1637	1659	1637	1659	0.98
49	63	2.3e-06	0.00035	22.6	2.4	1	23	1664	1686	1664	1686	0.97
50	63	0.00018	0.027	16.6	0.5	1	23	1692	1714	1692	1714	0.99
51	63	0.001	0.16	14.2	0.4	2	23	1718	1739	1717	1739	0.98
52	63	0.00027	0.041	16.1	1.3	1	23	1745	1767	1745	1767	0.99
53	63	0.0047	0.73	12.1	6.2	1	21	1773	1793	1773	1795	0.91
54	63	0.0024	0.36	13.1	2.1	1	23	1800	1822	1800	1822	0.96
55	63	0.0016	0.25	13.6	0.3	1	23	1826	1848	1826	1848	0.98
56	63	0.00019	0.029	16.5	1.9	1	23	1854	1876	1854	1876	0.98
57	63	3.9e-05	0.006	18.7	1.8	1	23	1883	1905	1883	1905	0.99
58	63	0.002	0.31	13.3	5.5	1	23	1911	1933	1911	1933	0.97
59	63	3.4e-05	0.0053	18.9	2.5	1	23	1939	1961	1939	1961	0.99
60	63	0.0094	1.4	11.2	0.3	3	23	1966	1986	1964	1986	0.96
61	63	0.015	2.3	10.6	4.9	1	23	1992	2014	1992	2014	0.98
62	63	0.00077	0.12	14.6	0.6	1	23	2020	2042	2020	2042	0.96
63	63	8.9e-05	0.014	17.6	4.8	1	23	2056	2078	2056	2079	0.95

Sequence Information

Coding Sequence: ATGGATCTCGATGAACGCATTGTAATTAAAattgaagacgaaaatgactGTGATACGCCTACGGATCCGTTAGAAATAACAGTGAAGGAAAAGCCAAGTGAAACCGAATTATCCTTTGAATCTGAACTAGATAAAAACAAGAGCATTAATGATGAGGCAGGCGTTAAAAACTATCAGAATGATGGGCCTAGCAATTCAGAACAAAATCAAAGGGTGGAGTCCATACTTTTTTCCCAAAATGTGACACGAACAGAAGAAGCTCCCGGAAATGGCACCATAAACCTTTACGATACTCCAGGTATCCCGAAAGCACTGACGTCTGATGTGGGCGATTCCCAGTGTAAAATAATACAAACGGAAACTGTACCAACTTTAATTGACGAAGAAGTGATAACAAAACTCGAAGATCACACATATTGttcaacaaaaaccattgaTTGTGTAGGGGAGAATATTAAAAGTGAGAATGACATTGAAATAGTTTATGAAGATATTAAAACTGAATCTGCTAGTCCAACTTCAGattttgGAAAGAATCCATTATCTTACGTACTAAAAGATGGAACATTGGCTATTGTGGACGAAGATCCCATTACGTTAAATTCCCGAATACCACAGTTGCTGcctaacaaaaatattagacGCAAACAACTTAATTCAGATTCGatcaataaagaaaaaatcaatgtaggaaatgatacttttcaaaaagaggGTGTTAACGCCACAGAACAAAACGAGGATGGCAACACCACACAACAAAACGGGGATGGCAACACCACAGAACAAAAGGAGGATGCCAGCACCATAGAACAAAAGGAGGACACTTATCAGAGTAGATTTTGTGCTTTGGGGTACAGGGATTTGGAGAAAAAGTCAAGGTCGTATCAGTGCAAGATTTGCATGAAGTTTTTTGGCAACAATTCTTCGTTGGCTTGTCATTTGAGAGTTCATACAGGAGAGAGACCGTTTCAGTGTAAATTCTGCTCGAAATCATTTCAGCAGAAAGGTAGTTTGTGGACCCATGAAAAAAACGTGCATGTGCGTCTGAAATCATTTCAATGCGTTTATTGTTCAAAGGccttttgtgaaaaaaaaactctgctaAATCACGAGAGAATCCACACGGGTGAGAAGCCGTTTCAGTGCAAAAGTTGTTCAAAGTCATTCACTGATTCATCGAATTTGTGGGCACATATGAAAACCCATTCAGCACTTAAACCATTTCAGTGCGATCTCTGCCCGAGATCTTTTAGACTCAGTTGTAATTTGTCCACTCATAAAAGAATTCACAAAGGAGACAGACGATATGTTTGCTTAATCTGTTCAAAGGCTTTCTTTCGCAAGGAGGACCTGAAAACTCACGAAAGAAGCCATACAGGTGAAAAACCCTATCAATGCAACGaatgttccaaatttttttCGCAGAGGTCTGGTTTGAGTGTTCATTTGAAAAGACATATGAAGAAAACGATACTCACATGCAAGTTTTGTCCAGAGACGTTTACCGCAGAAGGATCTTTACTGCGGCACGAGAGAGTccatacaggagaaaaaccctTCAAATGCAATATCTGCTCTGAATCCTTCCGTACTCGTAATGCTGCTGTACACCATGAAAAAACGCATTCGCAAGAAAGACCATTCCAATGCGTCGTTTGTTCTAAATCTTTCAGGCTATTGGCTCAATTGGCCACTCATAAAGTCCTTCACgaagaaaaacaatttcattgcaCACTGTGCCCAAGGTCTTTTGCCTTCCAAAGTAATCTGACAAAGCATGAGAAAAGGCATGCAAATGGAACTTTATTCCCTTGCAAGTACTGTTCCAAATCTTTCCATGATAAACGTTCTTGGGCATCACATTGGAAAGTTCATCATAATGACAAAAGATCATTTCAGTGTGGTCTGTGtccaaaatcatttttcgataGATCGATTTTGAAAGCCCATAAAAAAATTCACGCAGGAATTAAACCGTTCAAGTGCAGTGTTTGTCCAAGGGCTTTCTATAACAAGTCTCAGTTGACTCTTCATGGAAAAAGACATCTAAAAATCCGAAACCTTCGCTGCTCAGTTTGTTCCAAATCATTTTCTGATGCCACTGGACTAAAGGTTCATATGAGAATTCACACAGGTGAGAAACCCTACCAATGCAAAGTTTGTTCAAGAGACTTTCGGTCATTGAGCACTTGCACAACCCATGAAAAAACTCATGTTAAGACAAAATGTACGTTTTGTCCAATGAAGTTCTCTGGAGAAAAGTCTCTCGTAAGGCACGAGAGAGgtcatacaggagaaaaaccctTTCAGTGCAAAGTTTGCTTGAACTACTTCATTACTGATGGTGCTTTGAGAACTCATGAAAAAACTCACTCGCAAGAAAAACCCTTCCAATGCAAAGTTTGTTCCAAATCTTTCAGGCTAGTGGCTCACTTGGCCACTCATAAAGTCCTTCACgaagaaaaacaatttcattgcaCACTATGTCCAAGGTCTTTTGCTTTCCAAGGTGCTCTGACAAAGCATGAGGAAAGGCATGCAAATGGAACTTTATTCCCTTGCCAGTTCTGTTCTGAATCTTTCCATGATAAACTTTCTTTGGCATCACATTGGAAAGTCCATCATAATGACAAAAGACCATTTCAGTGCGGTCTGTGtccaaaatcatttttcgaaAGATCGAGTTTGACATCCCATGAAAAAATCCATGCAGGAATTAAACCGTTCAAGTGCAGTGTTTGTCCAAGGGCTTTCTATAACAAGTCTCAGTTGACTGAACATGGGAAAAGACACCTTAAAATTCGAAACCATCGCTGCTCAGTTTGTTCCAAATCGTTTTTCAATAACACTGAAGTGAAGGTTCATATGAGAATCCACACAGGTGAGAAACCCTACCAGTGCAAAGTTTGTTCAAAAAACTTTCGGTCATTGGGCACTTGCACAACCCATGAAAAAACTCATTTTAAGACAAAATGTACGTTTTGTCCTAAGGAGTTCTCTGTAGAAGAGGCTCTCGTAAGGCATGAAAGAGgtcatacaggagaaaaaccttTTCAGAGCAACATTACTGATGGTGCTTTAAGAACTCGTGAAACATCTCATTTTACAGAAACACCCTTCCAGTGCGATATCTGTTCTAGGTTTTTCGGTTCATTGGCTGAATTGTCGACTCATAAGAAATTTCATGACGGAAAACAGTTTCATTGCAAACTGTGTCAGAAGTCTTTTGCCTTCCAAAGTAATCTGACTAAGCATGAGGAAAGGCATGCAAATAGAACATTATTCCCTTGCAAGTTCTGTTCTGAATCTTTCCATGATAAACGTTCTTTGGCATCACATTGGAAAGATCATCATAATGACAAAAGATCATTTCATTGTGGTCTGTGtccaaaatcatttttcgaaAGATCGATTTTGACATCCCATGAAAAAATCCATGCAGGAATTAAACCGTTCAAGTGCAGTGTTTGTCCAATGGCTTTTTATAACAAGTCTCATTTGACTCATCATGGAAAAAGACATCTAAAAATCCGAAACCATCGCTGCTTAGTTTGTTCCAAAACATTTTTCGATGCCACTGAACTGAAGATTCATATGAGAATTCACACAGGTGAAAAACCCTACCAATGCAAAGTTTGTTCAAGAGACTTTCGGTCATTGAGCAGCTGTACAAGCCATGAAAAAACTCACGTAAAGACAAAATGTAGGTTTTGTCCGAAGGAGTTCTCTGGAGAAGAGGCTCTCATAAGGCACGAAAGAggtcatactggagaaaaaccttATCAGAGAAACTTTACTGATTCTGATCTGAGCACTCATGAAACATCTCATTCTACAGAAAAACCCTTCCAGTGCAATATCTGTTCTAGGTTTTTCGGTTCATTGGCTGAATTGTCGGCACATAAGAAATTTCATGAAGGGAAAACATTTCATTGTAAACTATGTCCTAAATCTTATGCTTTTCAGACAAATCTGACAAAGCATGAGGAAAGGCATGCCAAGGGTATTCCATGTAAATTTTGTTCTGAATCCTGTAGTGATAAGCAATCTATGATGCTACACTTGAGGGTCCATACTGGGCCTTTTCAGTGCAaggtttgttcaaaatcatttgtTAGTGCAGGAACTTTGAAAGGCCACGAAAAAGTTCATACAGGTGATAAATCATTTAAGTGCAGTCTTTGTTCAAGGGCATTCTATAACAAGGCTCAGTTGACTGAACATGGAAAAAGACACCTAAAAATCCGAAGCCATCGCTGCTCAATTTGTTCCAAATCGTTTTTCAATAGCACTGATCTGAAGGTTCATATGAGAATCCACACGGGTGAGAAACCCTACAAATGcaaagtttgtttgaaagtttttcgACAGAGGTGCGGTTGGGTAGCCCACGAAAAATCCCATATCAAGAGGAAGTGTAGGTTTTGTCCAGAGGAGTTTCCCGGAGAGGCGACTCTCTTAAAGCACGAAAGAGgtcatacaggagaaaaaccttTTCAATGCAAAGTTTGCTCGCATTGCTTTGTTACCAATGGTGCTTTAAGAATTCATGAAAAATCGCATTTGGAGGTAAAACCCTACCAATGCGATATCTGTTCGAAATCGTTTGGTTTACTGGCTAACTTGTCCGTACATAAGTTAATGCATGAAGGGAAAAAATTCCAGTGCAAAATATGTCCcaaatcatattattttcagaaaaatctgaCAAATCACGAGGAAATACATGCCAAGGGAATCCCATGTAAATTTTGTTCCGAGTCGTTTGATAACAAACGTGATATTATGCTACATTTAAAGGTTCATGCAAGAGAAAAACCTTATCAGTGCATTGTGTGTTCAGAATCATTTATTAATGTGCCGACTTTGAAAGCCCATGAAAACTGTCATACGGGTGATAAATCATTCAAGTGCAGTCGTTGTCCAAGAGCATTCTTTAACAGGTCTACTCTAACGTATCATGAACAAAAACATAGAGTCCGAAAGCATccttgcaaaatttgttcaaagtCTTTCTTCAGTAGCTCTCAGTTGTTCGCTCATATGAGAATCCATACAGGTGAAAAACCATTCCAGtgcaaaatttgtttaaaacGTTTTGTGCGAAAGGGCGGTTACGTAGCCCATGTACAAACTCACGTAAAGAAGCAGTGTAAGTATTGTCCGGAGGAGTTTTCTGGAGAGAGAGCGCTTTTGAGACACGAAAGACGACATACGGGAGAAAAACCGTTTCAATGCAAGGTTTGCTCGAGATACTTTTCAACTAACGGCACCTTGggagttcatcaaaaatcgCATTCAGAAGAAAAACCTTTTAAATGTAATGTCTGTTCAAAATGTTTCTGTACACAAGCCAGCTTGTTCACTCATGCAGTATTTCATGAggagaaaaaatttaattgcaAACTCTGTCCAAAATCCTATATGTTCCAGAAAAGTCTAACAAGGCATGAGGAAAGGCATGTGAAGGGATATCCTTGCAAGTTCTGTTCGGAACCGTTTGACAATAACCGTTCTATGGAGTTGCACTTGAGAATCCACACTGGGGATAAGCCATTCCAGTGCAGTGTGTGTTCAAAATCATTCGTCAGTACATCCACTCTGAGAATGCATGAGAAATACCATACAGAAGATTCCAAACAATTCAAGTGCAGTCTTTGTCCAAGAGCTTTCTATAACAGTTCTAGTTTGACGTATCACGAACGAAAACACAGAGGAATCCGAACGCatcattgcaaaatttgtccGAAATCTTTTTTCGATAGCTTCTTTCTTAAGGTTCATACGCGAATTCATACAGGTGAAAAACCCTACCAATGTCAAATTTGTTCGAAACGTTTTCGGCAAATGAGCAATTATAGGGGCCACTTGAACACTCACGAGAAAAAGCCTTGTATGTTTTGTCCGAAGAAGTTTGCTGCAGAAGAGAGTCTGATAAGGCACGAGAGACGTCATACAGGAGTGAAACCTTATCAGTGCAAAAAATGTtctaaattatttcatacttCTGGATCTTTGAAACTCCACGAAAAATACCATTCAGACCTGAAACCCTTCAAGTGCGATGTCTGTTCAAAATCCTTCAGGCTTCTGGCTAACTTGTCGACTCATAAAGTGATTCACGAGGAGAAAAAGTTCCTATGTGGATTTTGTCCAAGGTCATTTCATTGTGACCTTTGTCCGAAGACTTACAAGCAAAGTTCTAACTTGAGTAATCATAAGAAGCGTCACCATACAGGAAAAAATGTCGGTGTAAAGTTTTCTTCAAAGAAAAATGTGAAGAAGCAAAAGGATAAAAATGACATCGAATCTAAAATCCAACTTTTCACGTTGCAATTTGAAGAGACCGGTGAAAACTAA
Protein Sequence: MDLDERIVIKIEDENDCDTPTDPLEITVKEKPSETELSFESELDKNKSINDEAGVKNYQNDGPSNSEQNQRVESILFSQNVTRTEEAPGNGTINLYDTPGIPKALTSDVGDSQCKIIQTETVPTLIDEEVITKLEDHTYCSTKTIDCVGENIKSENDIEIVYEDIKTESASPTSDFGKNPLSYVLKDGTLAIVDEDPITLNSRIPQLLPNKNIRRKQLNSDSINKEKINVGNDTFQKEGVNATEQNEDGNTTQQNGDGNTTEQKEDASTIEQKEDTYQSRFCALGYRDLEKKSRSYQCKICMKFFGNNSSLACHLRVHTGERPFQCKFCSKSFQQKGSLWTHEKNVHVRLKSFQCVYCSKAFCEKKTLLNHERIHTGEKPFQCKSCSKSFTDSSNLWAHMKTHSALKPFQCDLCPRSFRLSCNLSTHKRIHKGDRRYVCLICSKAFFRKEDLKTHERSHTGEKPYQCNECSKFFSQRSGLSVHLKRHMKKTILTCKFCPETFTAEGSLLRHERVHTGEKPFKCNICSESFRTRNAAVHHEKTHSQERPFQCVVCSKSFRLLAQLATHKVLHEEKQFHCTLCPRSFAFQSNLTKHEKRHANGTLFPCKYCSKSFHDKRSWASHWKVHHNDKRSFQCGLCPKSFFDRSILKAHKKIHAGIKPFKCSVCPRAFYNKSQLTLHGKRHLKIRNLRCSVCSKSFSDATGLKVHMRIHTGEKPYQCKVCSRDFRSLSTCTTHEKTHVKTKCTFCPMKFSGEKSLVRHERGHTGEKPFQCKVCLNYFITDGALRTHEKTHSQEKPFQCKVCSKSFRLVAHLATHKVLHEEKQFHCTLCPRSFAFQGALTKHEERHANGTLFPCQFCSESFHDKLSLASHWKVHHNDKRPFQCGLCPKSFFERSSLTSHEKIHAGIKPFKCSVCPRAFYNKSQLTEHGKRHLKIRNHRCSVCSKSFFNNTEVKVHMRIHTGEKPYQCKVCSKNFRSLGTCTTHEKTHFKTKCTFCPKEFSVEEALVRHERGHTGEKPFQSNITDGALRTRETSHFTETPFQCDICSRFFGSLAELSTHKKFHDGKQFHCKLCQKSFAFQSNLTKHEERHANRTLFPCKFCSESFHDKRSLASHWKDHHNDKRSFHCGLCPKSFFERSILTSHEKIHAGIKPFKCSVCPMAFYNKSHLTHHGKRHLKIRNHRCLVCSKTFFDATELKIHMRIHTGEKPYQCKVCSRDFRSLSSCTSHEKTHVKTKCRFCPKEFSGEEALIRHERGHTGEKPYQRNFTDSDLSTHETSHSTEKPFQCNICSRFFGSLAELSAHKKFHEGKTFHCKLCPKSYAFQTNLTKHEERHAKGIPCKFCSESCSDKQSMMLHLRVHTGPFQCKVCSKSFVSAGTLKGHEKVHTGDKSFKCSLCSRAFYNKAQLTEHGKRHLKIRSHRCSICSKSFFNSTDLKVHMRIHTGEKPYKCKVCLKVFRQRCGWVAHEKSHIKRKCRFCPEEFPGEATLLKHERGHTGEKPFQCKVCSHCFVTNGALRIHEKSHLEVKPYQCDICSKSFGLLANLSVHKLMHEGKKFQCKICPKSYYFQKNLTNHEEIHAKGIPCKFCSESFDNKRDIMLHLKVHAREKPYQCIVCSESFINVPTLKAHENCHTGDKSFKCSRCPRAFFNRSTLTYHEQKHRVRKHPCKICSKSFFSSSQLFAHMRIHTGEKPFQCKICLKRFVRKGGYVAHVQTHVKKQCKYCPEEFSGERALLRHERRHTGEKPFQCKVCSRYFSTNGTLGVHQKSHSEEKPFKCNVCSKCFCTQASLFTHAVFHEEKKFNCKLCPKSYMFQKSLTRHEERHVKGYPCKFCSEPFDNNRSMELHLRIHTGDKPFQCSVCSKSFVSTSTLRMHEKYHTEDSKQFKCSLCPRAFYNSSSLTYHERKHRGIRTHHCKICPKSFFDSFFLKVHTRIHTGEKPYQCQICSKRFRQMSNYRGHLNTHEKKPCMFCPKKFAAEESLIRHERRHTGVKPYQCKKCSKLFHTSGSLKLHEKYHSDLKPFKCDVCSKSFRLLANLSTHKVIHEEKKFLCGFCPRSFHCDLCPKTYKQSSNLSNHKKRHHTGKNVGVKFSSKKNVKKQKDKNDIESKIQLFTLQFEETGEN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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