Basic Information

Insect: Ferdinandea cuprea
Gene Symbol: grau
Assembly: GCA_963576555.1
Location: OY754961.1:35704400-35734558[-]

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 49 0.13 20 6.7 0.8 2 23 305 327 304 327 0.95

2 49 0.00015 0.023 15.9 0.3 1 23 359 381 359 381 0.99

3 49 1.1e-05 0.0016 19.6 2.1 1 23 389 411 389 411 0.99

4 49 0.0058 0.88 11.0 0.8 1 23 417 440 417 440 0.96

5 49 0.015 2.3 9.7 0.2 3 23 448 468 447 468 0.96

6 49 0.00013 0.019 16.2 0.9 2 23 477 499 476 499 0.95

7 49 0.0044 0.67 11.4 0.2 1 23 506 529 506 529 0.94

8 49 0.023 3.5 9.1 0.2 1 17 535 551 535 552 0.92

9 49 0.073 11 7.5 0.5 6 23 770 787 770 787 0.98

10 49 0.00041 0.062 14.6 0.6 1 23 793 815 793 815 0.97

11 49 0.0081 1.2 10.5 2.0 1 23 821 843 821 843 0.94

12 49 0.00028 0.043 15.1 0.7 1 23 851 874 851 874 0.92

13 49 0.0004 0.061 14.6 0.4 2 23 881 902 880 902 0.96

14 49 0.03 4.6 8.7 0.5 3 23 912 933 910 933 0.91

15 49 0.063 9.6 7.7 0.7 1 23 940 963 940 963 0.94

16 49 0.23 34 6.0 0.1 1 13 969 981 969 985 0.89

17 49 0.34 51 5.4 0.2 2 23 1168 1190 1167 1190 0.94

18 49 0.47 72 5.0 2.3 6 23 1199 1216 1199 1216 0.98

19 49 1.1e-05 0.0016 19.6 1.1 1 23 1222 1245 1222 1245 0.98

20 49 1.9e-05 0.0029 18.8 2.4 1 23 1252 1274 1252 1274 0.98

21 49 0.002 0.31 12.4 0.2 3 23 1281 1302 1279 1302 0.96

22 49 0.003 0.45 11.9 2.4 2 23 1311 1333 1310 1333 0.96

23 49 0.002 0.31 12.4 0.9 1 23 1340 1363 1340 1363 0.94

24 49 0.37 56 5.3 2.3 1 16 1369 1384 1369 1385 0.90

25 49 0.19 28 6.2 1.2 2 23 1559 1581 1558 1581 0.96

26 49 2.1 3.2e+02 2.9 1.4 6 23 1590 1607 1590 1607 0.97

27 49 0.00098 0.15 13.4 0.4 1 23 1613 1635 1613 1635 0.98

28 49 2.1e-05 0.0032 18.7 3.7 1 23 1644 1666 1644 1666 0.99

29 49 0.0026 0.39 12.1 1.3 3 23 1673 1694 1671 1694 0.95

30 49 0.26 40 5.8 3.8 3 23 1704 1724 1702 1725 0.94

31 49 0.00013 0.019 16.2 0.4 1 23 1732 1755 1732 1755 0.94

32 49 0.021 3.1 9.3 0.3 2 23 1959 1981 1958 1981 0.96

33 49 0.11 17 7.0 0.1 6 23 1990 2007 1990 2007 0.99

34 49 0.015 2.3 9.7 1.3 1 23 2013 2035 2013 2035 0.98

35 49 1.9e-05 0.0028 18.8 1.7 1 23 2043 2065 2043 2065 0.99

36 49 0.00018 0.028 15.7 0.3 2 23 2072 2094 2071 2094 0.95

37 49 4.6e-06 0.0007 20.7 0.5 3 23 2102 2122 2101 2122 0.96

38 49 0.0033 0.49 11.8 0.4 2 23 2131 2153 2130 2153 0.95

39 49 0.0015 0.23 12.8 0.1 1 23 2160 2183 2160 2183 0.94

40 49 0.013 2 9.9 0.3 1 16 2189 2204 2189 2205 0.87

41 49 1.1 1.7e+02 3.8 0.3 2 23 2572 2594 2571 2594 0.94

42 49 7.2e-05 0.011 17.0 1.0 1 23 2626 2648 2626 2648 0.98

43 49 0.33 50 5.5 9.1 1 23 2656 2678 2656 2678 0.98

44 49 1.6e-05 0.0025 19.0 0.7 1 23 2686 2709 2686 2709 0.97

45 49 0.0088 1.3 10.4 0.2 3 23 2717 2737 2716 2737 0.96

46 49 0.00022 0.033 15.5 0.4 2 23 2746 2768 2745 2768 0.95

47 49 0.00074 0.11 13.8 0.1 1 23 2775 2798 2775 2798 0.94

48 49 4e-06 0.00061 20.9 0.8 1 23 2804 2826 2804 2826 0.98

49 49 6.5e-05 0.0099 17.1 5.0 1 23 2832 2855 2832 2855 0.98

#	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	49	0.13	20	6.7	0.8	2	23	305	327	304	327	0.95
2	49	0.00015	0.023	15.9	0.3	1	23	359	381	359	381	0.99
3	49	1.1e-05	0.0016	19.6	2.1	1	23	389	411	389	411	0.99
4	49	0.0058	0.88	11.0	0.8	1	23	417	440	417	440	0.96
5	49	0.015	2.3	9.7	0.2	3	23	448	468	447	468	0.96
6	49	0.00013	0.019	16.2	0.9	2	23	477	499	476	499	0.95
7	49	0.0044	0.67	11.4	0.2	1	23	506	529	506	529	0.94
8	49	0.023	3.5	9.1	0.2	1	17	535	551	535	552	0.92
9	49	0.073	11	7.5	0.5	6	23	770	787	770	787	0.98
10	49	0.00041	0.062	14.6	0.6	1	23	793	815	793	815	0.97
11	49	0.0081	1.2	10.5	2.0	1	23	821	843	821	843	0.94
12	49	0.00028	0.043	15.1	0.7	1	23	851	874	851	874	0.92
13	49	0.0004	0.061	14.6	0.4	2	23	881	902	880	902	0.96
14	49	0.03	4.6	8.7	0.5	3	23	912	933	910	933	0.91
15	49	0.063	9.6	7.7	0.7	1	23	940	963	940	963	0.94
16	49	0.23	34	6.0	0.1	1	13	969	981	969	985	0.89
17	49	0.34	51	5.4	0.2	2	23	1168	1190	1167	1190	0.94
18	49	0.47	72	5.0	2.3	6	23	1199	1216	1199	1216	0.98
19	49	1.1e-05	0.0016	19.6	1.1	1	23	1222	1245	1222	1245	0.98
20	49	1.9e-05	0.0029	18.8	2.4	1	23	1252	1274	1252	1274	0.98
21	49	0.002	0.31	12.4	0.2	3	23	1281	1302	1279	1302	0.96
22	49	0.003	0.45	11.9	2.4	2	23	1311	1333	1310	1333	0.96
23	49	0.002	0.31	12.4	0.9	1	23	1340	1363	1340	1363	0.94
24	49	0.37	56	5.3	2.3	1	16	1369	1384	1369	1385	0.90
25	49	0.19	28	6.2	1.2	2	23	1559	1581	1558	1581	0.96
26	49	2.1	3.2e+02	2.9	1.4	6	23	1590	1607	1590	1607	0.97
27	49	0.00098	0.15	13.4	0.4	1	23	1613	1635	1613	1635	0.98
28	49	2.1e-05	0.0032	18.7	3.7	1	23	1644	1666	1644	1666	0.99
29	49	0.0026	0.39	12.1	1.3	3	23	1673	1694	1671	1694	0.95
30	49	0.26	40	5.8	3.8	3	23	1704	1724	1702	1725	0.94
31	49	0.00013	0.019	16.2	0.4	1	23	1732	1755	1732	1755	0.94
32	49	0.021	3.1	9.3	0.3	2	23	1959	1981	1958	1981	0.96
33	49	0.11	17	7.0	0.1	6	23	1990	2007	1990	2007	0.99
34	49	0.015	2.3	9.7	1.3	1	23	2013	2035	2013	2035	0.98
35	49	1.9e-05	0.0028	18.8	1.7	1	23	2043	2065	2043	2065	0.99
36	49	0.00018	0.028	15.7	0.3	2	23	2072	2094	2071	2094	0.95
37	49	4.6e-06	0.0007	20.7	0.5	3	23	2102	2122	2101	2122	0.96
38	49	0.0033	0.49	11.8	0.4	2	23	2131	2153	2130	2153	0.95
39	49	0.0015	0.23	12.8	0.1	1	23	2160	2183	2160	2183	0.94
40	49	0.013	2	9.9	0.3	1	16	2189	2204	2189	2205	0.87
41	49	1.1	1.7e+02	3.8	0.3	2	23	2572	2594	2571	2594	0.94
42	49	7.2e-05	0.011	17.0	1.0	1	23	2626	2648	2626	2648	0.98
43	49	0.33	50	5.5	9.1	1	23	2656	2678	2656	2678	0.98
44	49	1.6e-05	0.0025	19.0	0.7	1	23	2686	2709	2686	2709	0.97
45	49	0.0088	1.3	10.4	0.2	3	23	2717	2737	2716	2737	0.96
46	49	0.00022	0.033	15.5	0.4	2	23	2746	2768	2745	2768	0.95
47	49	0.00074	0.11	13.8	0.1	1	23	2775	2798	2775	2798	0.94
48	49	4e-06	0.00061	20.9	0.8	1	23	2804	2826	2804	2826	0.98
49	49	6.5e-05	0.0099	17.1	5.0	1	23	2832	2855	2832	2855	0.98

Sequence Information

Coding Sequence: ATGTCACATCTTGTAACGGAATTTACTAAAACAAACGGTTACACGAGAGGTGATCGCTCTAACCTGATACCAATCAATGAgTCAGTTTTCTTAAACGCTATTGAGGTGCCAAATCTAACACAATTCCCAAATCACAATCTTGACATGATGCAAGAACCAAACACTGAGGAAATATCGAGTAATACCGAGGAGAAAACATTCAGCCTAAGGCCAATTATTGATGGTATATTTGATCCAAATCCAGAAGGTGCTAACGTTAGAATCATTTGCTGTTCCTGTTGGAATGCCCTAAATTCTTTTCATCAATTCTATAAAAAAGTTGAAACCGCCCATGTAAGTTTACTCAGCACATCAACTAATATTCCCTGTGAAGAaaagttaaaagaagaaaatgaatCTGATGATGATCACTTTGATGCATACACTGACTTTGTATCTGCATCACCAGGAGTAAAACTAGAACTTAAAGAAGATGGTTCCTTTACTCTGCCACAAAATGACCTTTTCACCGATACCGAGGAGAAGCTCAATCCTCTAAGTAGTTCAGCCATCATCAAACAGTCTGATTTAGATTCGGAGTCGGATTCAGACTCGGATTCAGAAATTCCTCTGGCTTCTTTGGCTAAACGAAAAACATCGGAAAGTGCGAAGGATGGTTTTCTCAATAGTGATGGGAATAACAGCGATGAACAAAATTGCATAGCGAAAGAAATGTCTATTGGTGTCAGTGACTTCGAAGGCACCAAACCGAACGTACATTGTAAGAAAGTACTACGGAAAATCagaaaatctaaaaacaaaactaattcCAAAAATGAACAAACCCGTTCAAAGCGAACGACGATTGATCCGGCTAAGAAACGAGAACTTTCGAAAGAGTTTGACGAAGTTatcgaaaaaaacattaagttaTCCTGCAGCATTTGCCATGTACCATTAGCCAATTTCTTTCTCCTTCGAAAGCACTACAACTCGATACACAATGAGCGCGGTTATGCTACATGTTGTGGCAGAAAGTTCCGAAAGCGCGGCATCCTCGTTGATCATATTTATCTCCATCTGAATCCCGAATACTTTAAGTGCGACAAATGCGAGCGTATTTTAGCCGATAGACGGAGTCTGGAAGTGCACATGAATACCCATGACACCAGCAAGCAGCGTATCTATCAATGTGAGGAATGCAACAAGAGCTTTTATCGAAAGTTACTCCTTGATCGGCACATGTACACTCATATCCCCGATCGGAAGTTCACCTGCGGGAACTGTCAAAAGTTattttcatCGGGCTATACGCTGCGGCAACATGTAAACAACGTACACAACAgtgattacaataaaatttgtgATCAGTGTGGCAAATCCATACGAGGTCTGGAGGCATTCCGTCGACATCAATTGGAACACGCTGGAGTTGCTGTGCCCTTGGTGCAGTGTGAGAAATGCGGTGTAAAACTAAAAACCAAATATAGTCTTAAAAGACACATGGATTCGATGCATCCTGAAAGTAAAGTGTTGCATGAATGCAAGGAGTGCGGAAAGATAGCTCCGAGTTTAGCGGCACTACAGAGGCACACTTCGTATATGCACAAATGTGAGAGAAACCATAAATGTCCAATGTGTGAGAAGGCTTTTAAAAAACCCGGCGGTCTTAAGTACTGGAAAATTGCAAAAGTTATACCAATAGCTAAgaaaacgaaagcaaagatTCCTGCGAAATTCTACGAAAAAGTGGAATACGCCCATTCAACACTTTTCAACTTAATCCCATTCGAAGATGATGGATTAAAATTGGAAGCTATTCCAGAGATTTTTGAAGTATGTGGTGACATGCCAGCTGAAAatattaaaaaggaaataaatgaaGACTCCAAAGAGATTCAGCAAGAATTCGACATTGAAAAGCCTATTGATCCATTCGATGCGGTGGGATGTGCTGAGTTGCAGCAGGCGCAAGAAGATATCAAATCTGAATCAGAGTCGGAAATTCCTCTGGCCAAGttagcaaaatataaaatatcggAAAAAGTAAAGCGAAATTCAAAGAACATCAGAAATACTTCAATCAAAATTAAACGAAAGCAAAATGTAACCAAAGAAGATGTGAGTGGCGAAAATACCTATGAAGAATGGCCAACATCTTCATATGATGACGAAATTAATCATAAAATAGGTTCTCAGCACTCTGATGGGCTAATCAAATTCAATATGAAACTATCGTGCTCTTTCTGTGATTCACCAATGGAAAATTTTGCTGTCCTCAAGGAACACTATCGAACGGAACATGATGAAACTGGTTACGTTTCGTGTTGTGATAAGAAATTCTGTAAGCGGGGTTCATTGGTTGAGCACATTTTGCTGCACAAATATCCCGAGTACTTTAAGTGCGATATATGCGACCGCATATTGGCGAGCCGCAAGAACTTAAAGGAACACAAGAAAGGACACGACAAAAAATTCTTATTCGAATGTGACATCTGCTCAAAAAGATTCCATCGACAGCTACTGCTTGATCGACATAGAGTCCTTCACATATCGGAAGCGGAACGTACGTTCAAGTGTGAAGACTGTGATAAGTTTTTTGCCTCGAAATTTACTCTTGGACAACACATCTTTGGCGTCCATAAAGGTGGGTACGCCAAAATGTGTGATAAGTGTGGAAAGGTTATTCGTGACCTAGATGCTTTCCGTCGACATCAACTGATGCATACAGATGACCCAAAACCATTTGTTAATTGTGACAAATGCGGCATTCAACTTTCTACCAGGACCGCTTTAAATCGTCACAACAAGGCTAAGCACTCGGAGAATGAAATCCCGCATGTGTGTAATGTTTGCGGGACTGTAAAGTCCAGTATATACGCGCTGAAACGGCATATAACCTATATGCACAAGTACAAAAGGACGTTTAAGTGTGCATTGTGTGACAAGGGATTCAAGCGAGCCATTGTACTTAAGCCAGGAGCAGAGGATGACAACAAGTGTGTAATATGCTGTTCCTGCTGGATTGCGCTAGACTCGTTTCATAAATTCTACGAAAAGGTGGAAGAAGCTCATGTTAAGTTAACCAGCATTAAACATTCTAATGATGAAGTACTATCAGAAAACGGTGAATTCGTCGCGCACGCCGATTTCTTACCCGAAGACCCTGTTACAGAAATTAAATTGGAAAGCTGTGAGGAATCAAAAGGTGATCTTCCTCAAGTTAATGAACGGCTGGGTGTTATTGAGactgaaaaggaaataaaatctgacttgGAGTCCGAGTCGGATGTTCCCCTAGACAAGTTAAGTGCATTTCGAAAATCAACAAAAAGTGATGAAACCGGCAGCGACAGTGATGCCTCCGATGATAGTTATAATGAGAATGACAATGATTCTGACTACAACGACGAGAAAAAGAACAATACagctacaaaaaataatacctCTAAACAATTGTTTGGCAAACATCGGATTCCGTGCAATAAATTCGATGACTTCATTAAGCAGAATATGAAGCTATCGTGCGACATTTGTCAGATTTCTCTGGTCAATTTCTTCGGTCTCAAGACACATTTCAGAGCGGCGCATAATGAAGTTGGCTACGTTGTCTGTTGTGAAAAGAAGTTCGACAGTCGTCATGCCTTAGTCCACCACATATTTATGCACAAAGATCCAGAGACCTTCAAGTGTACCAAGTGCGGTCGAGTTCTGGCCAATCTTAGAGGGCTAAAACGTCACATGAAAACGACACACGTAAACGAAGAACGCATCCACCAGTGTCCTAAGTGCAAAAAGGGTTTTCGCAGAATAGAATTGCTAGAAAAGCATGTTAAAACACATGTGAGACCTGAAGTTATTTGCGAACAGTGCGGCAAGGTAGTTCGAGGTAGACAATACCTCAAACAACATCAGTTACGCGAGCACTCTGGAATACCAAAACAGAGACAACAATGTCCGAAATGTGGTGTTCATCTTGCGGACTCTTCCACTCTACACACTCATATGAAGTATCAGCATCCTATAGTTAAGGTTGTTCACGAATGTCACATTTGTGGAAAAATATCAGCTTCTGGCTACGGTCTTAAGCGTCACATCGAATATATGCACACACGAGGACGGCCGCACAAGTGTACGCTATGTGAAAAAGCATTCAAGACGCTAAAGTGCTTAAGGCCCAATGAAAAAGATCTCAACGCCAAAGCCATTTGCTGTTCTTGTTGGAGTGCTTTGGATTCATTTCACAGCTTCTTCCTAAAAGTAGAAGAAGCTCATGCTAAATTGGCTAGTGTTAAACTCCCGGCTGGAGATGAAAAATCTGAAATGATTGAATTCGATGCTTACCAAAACTATTTGGACACAGATATTAAGCTGGAGTCCCATGAAGACTCAAATGGGAATGTAGATGAGTCCAACGTAAAAGAAAATTATCTTGACGATAAAATTGATGAACCATATTCCGACTCTGATTCAGAGTCTGGGCTTCCTCTAACAACGTTAGTTAAATGTAGAAAAACGCGATATCCCACTCATAAAATAACTTGCGAATCGGACACAGATTGTGACTACCGGCCAGCAAAGTCGAGAGTGAAGCGCACAGAGACCGGCAAGGAGAGTAAACGTAATCCGAATATGTATAGTCAGAGAGTAAGCCCACGAGATTTTGATGAGGTTATCAAAGAACACTTGAAGCTATCATGCGAAATCTGTCATATCCCTCTGACGAAATTCTTTGTACTTAAGCGACATTACAGATCTGTTCACAATATTGACGGGTACGTAACCTGTTGCGACACCAAATTTCAATCTCGCCACAAGTTGGTCTCACATATTTTTGTGCACAAAAATCCTGAATACTTCAAGTGTCAGCTGTGCAGCAAAGTGTTGACTAGTCGTAAAGGTTTGAATGGCCACATGATAGTGCATTTGGATGACAAAGAATCCGGTGAATTCAAATGTTCAAAGTGTCAGAAGAGTTTTCAACGCAAAGAAAGGTTGGAGCGGCATCTAATGACACACGAAGTAATCGAGCAAATCTGCGAACAATGCGGTATAGTGTGTCGCGACAAGAACACGCTCCGAATTCATCAACAATTGAAGCACAATGCTGAACCAAGACCTCGTGTAAATTGTGAAAAGTGCGGTCTAGATTTTGCGAGTAAAACTAATGTTAAATTTCATATGAAGCATCATCATCCAGCGTCCAAAGTTACACATCAGTGCTCGATATGTGGAAAGATTTCGTCAAACGCGAACGGCCTGAAGCGGCATATAGCTTATATGCACAGCATCGACGAAGACGACTTGAAGTTGGGAAACGAAATTGCGCAAGGACTGCAAGCACCAAGTGTTGAACCCTTTGCTTTGGTGGCGGTGGAATTACTGAAAGAAGatataaaagttgaattaaagGAAGATGCCGATGCGATTTTGCTACACGACGTTCTTCCGTCTGAGAgcgataaaaattcaaaatctcaAAATAATTCCATTGATTTCGAAAGCGTTCTTGAAAATGATACTCCACCCGCTTGCTCCACGCGAAGTCGTAAGTCTGGGGAGAAAGCTTACGCCGAAAGCGACTCTTCTTCCGAAAGTAAGGTGGACATTGAAAATTTTGGGTCACAGAACCCATCACCATCAGCCTGGCGGGATCAGGGGACAGacaccgacgacgacgatgacgatgatgatgacagtGACTATGAGGAGCGCATATCGAAATCAAAGGTGAAGAAGAAAGATCCCGCAAAAGAAACCACAAAGCGCACTCGACAGAAAAAAGGGGAATCAAAAAACACCCCgtgcaaaaagaaaagaacaacgGAGGAGCAATCAAAGAAAATGGAACGCATAAAGGAGTACGACGAAATGATTGCAAAGAACATAAAACTAACGTGTGATATCTGCTCAGAGGTATTTACGAACTTTGCTATTATGAAGCGACACTATCGTTCCGCACACAACGCGTGCGGGTATGCGGCTTGCTGTGGCAAAAAGTTTCGCAAACGTGGTGTTCTTGTCGATCACATTTACACCCATCAAAATCCGGAGTACTTTAAATGTGAGAAATGTGGCAGAGTGCTGGCCAATCGCAAGGGCCTCGATTGCCATATGCTAACGCATGACACCGAGAAGCAACGCATCTATCAGTGCGACCAGTGCACAATGAGTTTCTATACAAAGCCGCTGCTGACCCGCCACTTGCAAACGCACATTTCCGAACGCAATATCAAGTGTCCAGACTGCGAAAAGTTCTTCTCAACTCAAGACATCCTGCGCACGCATATTAATAATGTTCATAACGCAGCGTACACCCGCATCTGTGATCAGTGTGGAAAATCGTTTCGTCGCCCGGACGCATTCCGAAAGCATCAGCTAGAGCATGACGGCATAACACAACCGCTTGTTCCGTGCGAAAAGTGTAGCGTTAAGCTGACCAGCAAATATGGACTCAAGCGGCACATGGAATCAATGCATCCAGAAACCGAAATGAAGCATGTTTGCAGCGAATGCGGCAAGATTGCACCTAGTGCGGCGGCGTTGCAGCGCCATATATCGTATATGCATAAGATGGAACGCAAATACAAGTGTCCCATGTGCGATAAGGCGTTCAAGAAGACGGGTGGACTTAAGCCAAATTCAGACGATGTGAATGCAAATGTTATTTGCACGTCCTGTTGGAGCATGCTGAGCAACTTCCACGTATTCTATTTGCAAGTCGAAGCGGCACATATTTGTCTGCAACAAATCAATACCTGTATAGGGGATCAGCCGATGCCAGAAAATCCTGTTGATAGCATAGCAACAGAAATAAAACTGGAAGCCGGTGATACTGAGCAATCACTAACAACGTTTACTGTATTTGAGGTGCAAGAATGTGCCGATGAAACACAAACCACCGACCAAGATGATAGCAAATACATTCCACCAACAGTCACGCATCCTTTCATAGACATAGTGTACGGCGAGGGCAACTCCTACAGCACTACAATGCCAATTGACAATGAAAGACGGAGCTTTACGTCAGGCtgtgaagatgatgatgatgaaacgGCCTTGGAGCAGGCTCATATTACACTTGTCAAAACAAATACAACAGCGGAGGGACGTCTGAAGCAGGAGAATGAAGAAATTGTGATTCTTGTGGATGCTCAGAATGTTGAAAAGTTTGATCCGTGTGAAAGAACTGATCTTATGAATTCAGAGGTCGTCAAGCAGGAGGTTAAAGAAGACATAGAAGCCCATGATTTGCAATATGTTCCACTTCCTGATGATGACTTGAAAGGCGATGTTAGacacaactcaaaaaaaaagtttttcgggAACTCAAGCAACTCGGAGGACTCTGAATCGGAAGTTCCACTTGCAAATTTAGCCAAGAACCGGGTAAAGCGAAGTGTAAAAGCAAGTTTGGAATGTTCCGACAAAGATGAGATTGAAAGATCCGCCGATTGGCAAGATCACCACTCTAACAACGAAGAGGACGATGAGTATGAAGATGAcaaagaggaggaggaagacGACGATGACGCTGAAGATATTGAGAGTGAATTGGAAGTGAAACAAGAATTGCCCAAGCGAAAAGCCGTAGCATCAACGGGCAAAAAACGCGGTCGTCCGTGCAAAAACCCCCGCAAAGATACAACTCCAAAAGTAACAACAGaggagcaaataaaaaaacgggAACTCTCTCAGGAGTACGATGAAATAATTATGAAGAACATGAAGTTATCGTGTACCATTTGCTTGGTTCCGATACCGAACTTTTTCGCTTTAAAGAAACACTATCGCTCAAAGCATAATGAACGAGGTTACGCTTCATGCTGtggaaaaaaattcttaaaacgcGGAATTCTAGTCGATCATATCCATACACATTTAAATCCTGAACACTTTAAGTGCGATAAATGTGATAAAGTTCTAGCCGACCGACGATGTCTAGAGGTGCACATGAACATCCACGTGACAGAAAAACAACGTATTTATCAGTGTCATCAGTGCTGTAAGAGTTTCTTCAAGAAACCATTGCTAACGCGTCACCTGCACATCCACATCCCCGAGGAGGAGCGCAAGTTCCGCTGCGAGGAGTGTAGCAAGTTCTTCCCATCGAATTACACCCTACGAGCCCACATTAACAACGTGCACCAGAATGTGTATGCGAAAATCTGCGATCAATGTGGCAAGTCGATACGCGGACGCGAGGCATTCCAGAGACATTTGCTAGAGCATGCCGGTGTATCGTTACCTGGCGTACAGTGCGACAAGTGTGGGGCTAAACTAAAGAATAAATATGGTCTTAAGAGGCATATGAATGCTATGCATGCCGAGACGAATGTGCCTCATGTGTGCAACATCTGCGGCAAGGTAGCCCCTAATTCGCCTGCACTTCAGCGGCACTACTCATATGTGCACAAGTGCGAGCGAAAGCACAAGTGCCCCATGTGCGAGAAGGCCTTTAAGAAGGCTGGGGCATTGAAGGAACACATGTCAACTCACACTGGAGAAGTTCTATACACATGTCCACATTGCCCGAAAACATTCAACTCCAATGCCAATATGCATTCACATCGAAAGAAAATGCATCGCAAGGAATGGGAGGAGAACCGAAGGCATCCACATATTGCAGCCGCTTCTAATCCGGAATAg
Protein Sequence: MSHLVTEFTKTNGYTRGDRSNLIPINESVFLNAIEVPNLTQFPNHNLDMMQEPNTEEISSNTEEKTFSLRPIIDGIFDPNPEGANVRIICCSCWNALNSFHQFYKKVETAHVSLLSTSTNIPCEEKLKEENESDDDHFDAYTDFVSASPGVKLELKEDGSFTLPQNDLFTDTEEKLNPLSSSAIIKQSDLDSESDSDSDSEIPLASLAKRKTSESAKDGFLNSDGNNSDEQNCIAKEMSIGVSDFEGTKPNVHCKKVLRKIRKSKNKTNSKNEQTRSKRTTIDPAKKRELSKEFDEVIEKNIKLSCSICHVPLANFFLLRKHYNSIHNERGYATCCGRKFRKRGILVDHIYLHLNPEYFKCDKCERILADRRSLEVHMNTHDTSKQRIYQCEECNKSFYRKLLLDRHMYTHIPDRKFTCGNCQKLFSSGYTLRQHVNNVHNSDYNKICDQCGKSIRGLEAFRRHQLEHAGVAVPLVQCEKCGVKLKTKYSLKRHMDSMHPESKVLHECKECGKIAPSLAALQRHTSYMHKCERNHKCPMCEKAFKKPGGLKYWKIAKVIPIAKKTKAKIPAKFYEKVEYAHSTLFNLIPFEDDGLKLEAIPEIFEVCGDMPAENIKKEINEDSKEIQQEFDIEKPIDPFDAVGCAELQQAQEDIKSESESEIPLAKLAKYKISEKVKRNSKNIRNTSIKIKRKQNVTKEDVSGENTYEEWPTSSYDDEINHKIGSQHSDGLIKFNMKLSCSFCDSPMENFAVLKEHYRTEHDETGYVSCCDKKFCKRGSLVEHILLHKYPEYFKCDICDRILASRKNLKEHKKGHDKKFLFECDICSKRFHRQLLLDRHRVLHISEAERTFKCEDCDKFFASKFTLGQHIFGVHKGGYAKMCDKCGKVIRDLDAFRRHQLMHTDDPKPFVNCDKCGIQLSTRTALNRHNKAKHSENEIPHVCNVCGTVKSSIYALKRHITYMHKYKRTFKCALCDKGFKRAIVLKPGAEDDNKCVICCSCWIALDSFHKFYEKVEEAHVKLTSIKHSNDEVLSENGEFVAHADFLPEDPVTEIKLESCEESKGDLPQVNERLGVIETEKEIKSDLESESDVPLDKLSAFRKSTKSDETGSDSDASDDSYNENDNDSDYNDEKKNNTATKNNTSKQLFGKHRIPCNKFDDFIKQNMKLSCDICQISLVNFFGLKTHFRAAHNEVGYVVCCEKKFDSRHALVHHIFMHKDPETFKCTKCGRVLANLRGLKRHMKTTHVNEERIHQCPKCKKGFRRIELLEKHVKTHVRPEVICEQCGKVVRGRQYLKQHQLREHSGIPKQRQQCPKCGVHLADSSTLHTHMKYQHPIVKVVHECHICGKISASGYGLKRHIEYMHTRGRPHKCTLCEKAFKTLKCLRPNEKDLNAKAICCSCWSALDSFHSFFLKVEEAHAKLASVKLPAGDEKSEMIEFDAYQNYLDTDIKLESHEDSNGNVDESNVKENYLDDKIDEPYSDSDSESGLPLTTLVKCRKTRYPTHKITCESDTDCDYRPAKSRVKRTETGKESKRNPNMYSQRVSPRDFDEVIKEHLKLSCEICHIPLTKFFVLKRHYRSVHNIDGYVTCCDTKFQSRHKLVSHIFVHKNPEYFKCQLCSKVLTSRKGLNGHMIVHLDDKESGEFKCSKCQKSFQRKERLERHLMTHEVIEQICEQCGIVCRDKNTLRIHQQLKHNAEPRPRVNCEKCGLDFASKTNVKFHMKHHHPASKVTHQCSICGKISSNANGLKRHIAYMHSIDEDDLKLGNEIAQGLQAPSVEPFALVAVELLKEDIKVELKEDADAILLHDVLPSESDKNSKSQNNSIDFESVLENDTPPACSTRSRKSGEKAYAESDSSSESKVDIENFGSQNPSPSAWRDQGTDTDDDDDDDDDSDYEERISKSKVKKKDPAKETTKRTRQKKGESKNTPCKKKRTTEEQSKKMERIKEYDEMIAKNIKLTCDICSEVFTNFAIMKRHYRSAHNACGYAACCGKKFRKRGVLVDHIYTHQNPEYFKCEKCGRVLANRKGLDCHMLTHDTEKQRIYQCDQCTMSFYTKPLLTRHLQTHISERNIKCPDCEKFFSTQDILRTHINNVHNAAYTRICDQCGKSFRRPDAFRKHQLEHDGITQPLVPCEKCSVKLTSKYGLKRHMESMHPETEMKHVCSECGKIAPSAAALQRHISYMHKMERKYKCPMCDKAFKKTGGLKPNSDDVNANVICTSCWSMLSNFHVFYLQVEAAHICLQQINTCIGDQPMPENPVDSIATEIKLEAGDTEQSLTTFTVFEVQECADETQTTDQDDSKYIPPTVTHPFIDIVYGEGNSYSTTMPIDNERRSFTSGCEDDDDETALEQAHITLVKTNTTAEGRLKQENEEIVILVDAQNVEKFDPCERTDLMNSEVVKQEVKEDIEAHDLQYVPLPDDDLKGDVRHNSKKKFFGNSSNSEDSESEVPLANLAKNRVKRSVKASLECSDKDEIERSADWQDHHSNNEEDDEYEDDKEEEEDDDDAEDIESELEVKQELPKRKAVASTGKKRGRPCKNPRKDTTPKVTTEEQIKKRELSQEYDEIIMKNMKLSCTICLVPIPNFFALKKHYRSKHNERGYASCCGKKFLKRGILVDHIHTHLNPEHFKCDKCDKVLADRRCLEVHMNIHVTEKQRIYQCHQCCKSFFKKPLLTRHLHIHIPEEERKFRCEECSKFFPSNYTLRAHINNVHQNVYAKICDQCGKSIRGREAFQRHLLEHAGVSLPGVQCDKCGAKLKNKYGLKRHMNAMHAETNVPHVCNICGKVAPNSPALQRHYSYVHKCERKHKCPMCEKAFKKAGALKEHMSTHTGEVLYTCPHCPKTFNSNANMHSHRKKMHRKEWEENRRHPHIAAASNPE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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