Basic Information

Insect: Acraspis erinacei
Gene Symbol: -
Assembly: GCA_035041075.1
Location: JAWWLR010000034.1:52919584-53024067[-]

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 30 2 8.1e+02 3.2 3.5 1 17 409 425 409 429 0.90

2 30 0.024 9.5 9.3 3.7 1 23 438 461 438 461 0.91

3 30 0.0062 2.5 11.1 2.6 1 23 473 496 473 496 0.96

4 30 0.00087 0.35 13.8 0.2 1 21 503 523 503 524 0.94

5 30 0.13 50 7.0 0.8 1 21 534 554 534 555 0.92

6 30 0.27 1.1e+02 6.0 3.7 1 21 660 680 660 681 0.94

7 30 6.2 2.4e+03 1.7 1.0 1 12 689 700 689 702 0.91

8 30 2.3 9.2e+02 3.0 2.3 1 21 850 870 850 871 0.92

9 30 0.057 23 8.1 5.2 1 20 879 898 879 900 0.94

10 30 0.0027 1.1 12.3 1.7 1 21 1009 1029 1009 1030 0.96

11 30 0.00056 0.22 14.4 0.6 1 21 1147 1167 1147 1168 0.96

12 30 0.043 17 8.5 2.5 1 21 1284 1304 1284 1305 0.95

13 30 1.7e-05 0.0069 19.2 0.1 1 21 1313 1333 1313 1334 0.95

14 30 0.6 2.4e+02 4.9 6.7 1 21 1510 1530 1510 1531 0.94

15 30 0.27 1.1e+02 6.0 2.9 1 21 1757 1777 1757 1778 0.93

16 30 3.4e-05 0.014 18.2 4.3 1 23 1786 1809 1786 1810 0.97

17 30 0.57 2.3e+02 5.0 1.7 1 21 1972 1992 1972 1993 0.95

18 30 0.091 36 7.5 6.5 1 23 2001 2024 2001 2025 0.95

19 30 0.024 9.6 9.3 3.6 1 23 2036 2059 2036 2059 0.90

20 30 8.1 3.2e+03 1.3 0.3 2 13 2067 2078 2066 2082 0.80

21 30 0.0035 1.4 11.9 4.2 1 21 2461 2481 2461 2482 0.95

22 30 0.00032 0.13 15.2 1.8 1 23 2490 2513 2490 2513 0.97

23 30 8.9 3.5e+03 1.2 1.7 4 14 2525 2534 2525 2542 0.70

24 30 0.042 17 8.5 1.5 1 23 2547 2570 2547 2570 0.96

25 30 0.00036 0.14 15.0 2.2 1 23 2577 2599 2577 2599 0.97

26 30 1 4e+02 4.2 1.1 1 14 2612 2625 2612 2629 0.88

27 30 0.19 75 6.5 7.4 1 21 2731 2751 2731 2752 0.96

28 30 0.011 4.5 10.3 2.3 1 23 2760 2783 2760 2784 0.93

29 30 0.057 23 8.1 1.2 1 23 2795 2818 2795 2818 0.96

30 30 0.0075 3 10.9 1.7 1 23 2825 2848 2825 2848 0.96

#	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	30	2	8.1e+02	3.2	3.5	1	17	409	425	409	429	0.90
2	30	0.024	9.5	9.3	3.7	1	23	438	461	438	461	0.91
3	30	0.0062	2.5	11.1	2.6	1	23	473	496	473	496	0.96
4	30	0.00087	0.35	13.8	0.2	1	21	503	523	503	524	0.94
5	30	0.13	50	7.0	0.8	1	21	534	554	534	555	0.92
6	30	0.27	1.1e+02	6.0	3.7	1	21	660	680	660	681	0.94
7	30	6.2	2.4e+03	1.7	1.0	1	12	689	700	689	702	0.91
8	30	2.3	9.2e+02	3.0	2.3	1	21	850	870	850	871	0.92
9	30	0.057	23	8.1	5.2	1	20	879	898	879	900	0.94
10	30	0.0027	1.1	12.3	1.7	1	21	1009	1029	1009	1030	0.96
11	30	0.00056	0.22	14.4	0.6	1	21	1147	1167	1147	1168	0.96
12	30	0.043	17	8.5	2.5	1	21	1284	1304	1284	1305	0.95
13	30	1.7e-05	0.0069	19.2	0.1	1	21	1313	1333	1313	1334	0.95
14	30	0.6	2.4e+02	4.9	6.7	1	21	1510	1530	1510	1531	0.94
15	30	0.27	1.1e+02	6.0	2.9	1	21	1757	1777	1757	1778	0.93
16	30	3.4e-05	0.014	18.2	4.3	1	23	1786	1809	1786	1810	0.97
17	30	0.57	2.3e+02	5.0	1.7	1	21	1972	1992	1972	1993	0.95
18	30	0.091	36	7.5	6.5	1	23	2001	2024	2001	2025	0.95
19	30	0.024	9.6	9.3	3.6	1	23	2036	2059	2036	2059	0.90
20	30	8.1	3.2e+03	1.3	0.3	2	13	2067	2078	2066	2082	0.80
21	30	0.0035	1.4	11.9	4.2	1	21	2461	2481	2461	2482	0.95
22	30	0.00032	0.13	15.2	1.8	1	23	2490	2513	2490	2513	0.97
23	30	8.9	3.5e+03	1.2	1.7	4	14	2525	2534	2525	2542	0.70
24	30	0.042	17	8.5	1.5	1	23	2547	2570	2547	2570	0.96
25	30	0.00036	0.14	15.0	2.2	1	23	2577	2599	2577	2599	0.97
26	30	1	4e+02	4.2	1.1	1	14	2612	2625	2612	2629	0.88
27	30	0.19	75	6.5	7.4	1	21	2731	2751	2731	2752	0.96
28	30	0.011	4.5	10.3	2.3	1	23	2760	2783	2760	2784	0.93
29	30	0.057	23	8.1	1.2	1	23	2795	2818	2795	2818	0.96
30	30	0.0075	3	10.9	1.7	1	23	2825	2848	2825	2848	0.96

Sequence Information

Coding Sequence: ATGGAAATTAAGGAAGAATTTATCGAAATTGAATATGTTGAgaatgaaacttttgaaatcaagGAAGAAATTATCGAAGGTCTGCAGGTTAAGCGTGAATCCAAGAAATCAACAGGAAGAAAGGATGGTGGACCACATTCTCGTACGACTACTCgcattttttctggaaatgatTCTAGTTCCAAGACATCAATCAAATACGAAATAGATGAAAATGTAGAAATTAAGGAAGAAATCATTCAAGATCTATATACCACGCGGAAATCAAGGAAATCAGCGGGAAGACAGGAATGTGGACCATATCCGCGTACAACTACTTCCATTTCTTCTGGCAATATGTCTGGTGCCAAGACTTTCATTGAATACGAAATTGATGAAACTTTGGAGATCAAGGAAGAATTCATCCAAgAAAGCCAGAGCAAACGTCACGATCTACTGTTTAAAAATAAGGTAAACGATTTTACTTGCGAAATTGAATATGGCAATgacgaaaaattagaaattaaggAAGAAATTATCGAAATTCAACCTAGTGTCGAGGAAACTTTGGAAACCAAGGAAGAAATTATCGAAGGTTTACCTGCCAAGCGTGAATCCAAAAGATTATCAGGGAGACAGGATGGTGCCACATATCTTCGTACAGCTACATACATTTCTTCTGGCAATGAGTATGATGCCAAGACTTGCATTGAGTACGACATTGATGAAACTTTGGAGATCAAGGAAGAAATCGTCCAAGATCTGCATTACAAGAGTGAATCGAAGAAATCAACAGGAAGCCAGGATGCTGGGCTATATTTTTGTACAAGTACTCATATTTCTCCTTGCAATAACTCTGGTATCAAATCTATGATTCAATACGACATTGATAAAACTTTGGATATCAAGGAAGAAATCATCCAAGATCAACGTAAGTCCAAGAGTAAAATGAAGAGATTAACAGAAAGACATGATGGTGTGTCATATTCTTGTACAACTACTTACCTTTCTTCTGGCAAAAAGTCTGATACGACAACTTTAATTAAATACGAAATTGATGAAACTTTGGATATCAAGGAAGAAATCATTCAAGatcgaaAGACGATTACAGTCCAGAAACGGAATGAAGCAAATGAGTCAAACTTGTGTATCGTGAACATGAGGGAACATCATATTATGACTGCAAAGAGCAAACTTCTGGCCCTAAAAGAGCTGGATATTCCGGCATCAAAACGGGAAATGAAGTACACATGCAAAAAATGTGCTCGAacctataaatataaaaagtctttgagttttcataaaaaattcgaatgcgaCGTCATGCCGCAGTTCAGTTGTGAATTCTGCGGTCAATTATTCAAAAGGAAAACTCACATGAATGAACATATAGGTCATTTGCATCATATGACAAGGTCAATGAGATTGGCATTAATGCATCAATGCGACCAATGTCCGCGAAGGTACACGTATGTAAGAGATTTATCTCGACATAAACGTTTAGAACACGCAGAAGACAAACCACAGTTTATTTGCGATTTCTGCGGGTATGCAACAAATCGGAAATATAATTTGGTAAAACACATTGAATCTTGCTACTTAAAGTTGTCTATGTCAAGGCATAACTGCGACCGATGTTCTCGAAGTTACGCATTGTTAAGTGCTTTAAATAGACACAAAAATCAATATACCAAAATTCAGTTGAAGAAATCATCAGGAAGATCTGTTAATGTGACATCTTCTTGCACAACTACCCTCATGTCTTCCGACAATAATTATGGCtctaagaatttaattgaatacGAAAATGATGAAGCTTTGGACATCAAAGAAGAATTTATCCaagatcGAGAGCCAATTACAGTCCCGAAAGAGAATAATACAAATGAGTCAAAATTTTGTACCGTATATATAAGAGCAGATGATATTTTGGCGGCTAAGTCAAAACCGCAGACCTTAAAGAAGCAGAAAATTCAGCCATCAGAACAGGAAACGAAGCACACATGCGAAAAGTGTGCCCGCAGCTATAAATGGAAACGACATTTAAATCGCCATCTAAAATACGAATGCGACGTCAGGCCTCAGTTCAGATGTAATTTCTGCGAAAAACTATTTAAACGGGTAGatataCAGATCGAAAGTGAGCCAACGAAATCAACAGAAAGTCAGGACTATGGGGCATTTTCTTGTACGGATATTTCTTCTGGCAATAAGTCTAGTGCCAAGACtttcattaaatatgaaattcatgAAACTCTGGAAATCAAGGAAGAAATCATTCAAGGTCTACAGGCCAAGAGTGAATCGAAGAAATCAACAGAAGGAAAGGACAGTGGGCCACATCCTCGTATAACTACTCAGATTTCTTCTGACAATAAGTCTACTACCAAGACTTTAATTGAATACGACGCTGATGAAACATTGGATGTCAAGGAAGAAATCATTCAAAttgaagagaTTGCAGGTGAAAAATATATCAGAGAAACTTATAATTCTGCTGATAACAGCAAACTTCCAAGCCATGAGAAGCACAATATTCAGGAATCAGAACAGGGACCGGAAAAGAAATACAAGTGTAAAAAATGTGCCCGTAGCTATAAATGGAAAAGGAATTGGTATCTTCATCAGAAATTTGAATGCTGCGTTAGGCCACGGTTTAGATGTAAATTCTGCGGCAAACGATTTCCATTGAAAAGTACCATGTATCGCCACAAATGTTTTCGAAGTTACACTTTACTAAAAGATTTAACTCGGCCTAAACGTTTAAAACACACAGCAGACATACAGCAGCATACAACTACTCACAGTTCTCCGGGCAATAGCTCTGGTGCCAAGACTTTAATTAAATACGACCTTGATGACACTTTAGAAATCAAGGAAGAAGTTATCGAAgATCCAGAGACAATTACAGTCAATAAAGGAAATAAATCAAATGAGTCGACATTTTGTACCGTGTATATAAAAGAAGATGATATTTTGGAGGTAGATCCAACACCGCAGACTCTAAAAAGGCAGGCAATTCAAGATTCAGAAAACGAAGAGAAGTACACGTGCGATAAGTGTACCCGCAACTATAAAACGAAAAAAACTTTGATTGAACATCTAAAATACAGTTGCGACGTCAAGTCCAGGATCATATATCAACGTAAGTCCAAGAGTAAATCAAATATATCAACAGAAAGACAGGATGGTGGGTCATATTCTTGTACAACTACTTACCTTTCTTCTGACAATAAGTCTGGTGCCAAGACTTTAATTGAATATGAAAATGACGAAACTTTGGAAATCAAGGAAGAGACCATCCAAGATCCAACGACAATCATAATCCAAAAAGAGAATCAAGAAAACGAGTCAAAATTTTGTACCGTTTATATAAGAGACGATAATGTTTTGGAGGTTAAGCGCGAACTGAAGAGCCAGAAGAAGCATAAAATTCAGGAATCACAAGCGAAAAAGAAATATACATGCAACAAGTGTGCGCGAAGCTATGCCCGGAAAGGAACTTTGACTGCTCATCAAAAATTCGAATGCGGCGTCAGTCCTCAGTTTAGATgtCTACAGACCAACAGTAAATCAAAGAAATCATCAGGAAGACATGGTGGCGGCCCATATCCTCGTAAAACTACTTACATTTCTTCTGGCTATAAGTCTGGCGCCAAGACTTTCCTTGAATACGACATTGATCAAACTTTGGATATCAAAGAAGAATTTATCCAAGatacagGAACGTTTACAGTCCAGAAGGCGAATAAATCAAGTGAGTCGAAATTTTGTGCCATATATATAGAAGAAGATGATATTTTTGATGTGATGCCCAAACCAGAGACTCTAAAGAAACAGGAAATTCAGGAATCTGAAGAGAAAAAGAAGCACACATGCGAAAAGTGTGCTCGAACCTATAAATACAGAAAGACTTTGAATGAGCACCTAAAATACAGGTGTGACGTCAAGCCCGAGTTCATATGTAAACTTTGCCCTAAAGTTTTTAAACGGAAATCAGACATGAATGCCCATATACAGATTAAAGTCATCAATTGCTCTTTGAAACTTTCATGTTGTAACGTTCTAGATGAACATAATTCCACAAATGAAACGAAGAGTTCAACCGAAAGGCATGATGGTGTGTCACATTCTGGTACAACTGGTCAAATGTCTTCTGGCAATAAGTCTGGTGCCAAGACTTCAATTGAATATGACAATGACGAAACTttggaaatcaaggaagaaaTCATCCAAGttcatcaGAATTTCAAAACTGCATCAAAGAAATCAACTCGAAAACAGACTGGTGGCCCACATCATTGTACAACCACTCACTTTTTTCCTGGCAATAAATCTACTATCAAGACTCCAATTGAATACGAGATGgatgaaactttggaaatcaaGGAAGAATTCATGCAAGattcagaGACAAACACAGTCCAGAAACGGAATGAAAAGTTTGAGACAACATTTTATACCGTAGATATAAAAAGAGATGAGATTTTGGATCCGAAGCGCACTCTAAAGAAGCAGGAAGTTGAGGAATCAAAGCAGGAAATGAAGCACACATGCGAAAAGTGTGCTCGAACTTATAAAAAGAAATCTTATATGACTCATCATCACAAATACGAATGTGGCGTCATGCCACAGTTCAGTTatTGTCAGATCAAAAATGAGTCGAAGAAATTAACTGGAAGACGGGATGGTGGGCCATTTGTTCGTACAACCTCCGATGTTTCTTCTGACAATAAGTTTGGTGCCATGACTTCAATTGAGTACGACATTGATGAAAGTTTGGACATCAAGGAAGAAATCATCCAAGATTGTGAGATTAAACGTGAGTCAAAGAAATCAACTGGAAGAGCGGATGATGGGCCATATTCTAATACAACTACTCACATTTCTACGGACAATAAGTTTGTTGCCAAGACTTTAATTGAATATCAAAATGACGTGACTTTCAAAATCAAGGAAGAAATCATCCAAGATATACAGACCAAGAATGAGTCGAAGAAATCAACAGGATTACAGGATACAGGGCCACATTCTCGTAcaactaatcaaattttttctaacatcaaGTCTCCTATCAAGACTTTAATTGAATACGAAATTGATGAAACTTTGGACATCAAGGAAGAAATCATCCCAGttccagAGACAATTGCAGTCCATGAAGGGAATAAATCCAATGAGTATACAGTTTACACTATACATATGAAAGAAGATGATATTTTAGGTGTAGAGCCCAAACCGGAGAACCAAGAAAAGCAACAAATTCAGAAACCAGAAAATCAAAAGAAGCACGCATGCAAAACATGTGCtcgaagatataaaaataaacagaGTTTGACTTATCATACAAAATTCGAATGCGGCGTTATGCCACAATTCAGTTGTAAATTGTGCGGCAAACAATATAAACGAAAATATAACATGACTGAGCATATACGTCGCGAGCATCACAAGACAAGGCATAACTGCGACGAATGTGCGCTAAGTTACAAATGGCCAGAATCTTTAGCTGAACATAAAAgTTTAAAGACCAAGAGTCAGTCAAAGAAATCAACAGGAAGACACGATGCTGGACCATATTCTCGTAAAACTACTAATTACATTTCTTCTTACAATAACTCGGGTGCCAAGACTTTAATTGAATATGACAATGACGAAACTTTAGAAATCAAACAAGAATTCATCCCAGGTCTAGAGGCTAAAAGAACTACTCGTAGAACTACTCACATTTCTTCTGACAATAAGTCATGTGCCAAGACGTTAATTAAATACGACCTTGATGACACTTTGGAAATCAAGGAAGAATCCATTCAAGatccAGGGACAATTGATGTCTCTAAAGGGAATAAATCAAATGAGGTAACATTTTGTACCGAATATATAAAAGAAGATAATATTTTGCAAGCAATTCCGGAATCAAAAGAGGAAAAGAAGCACACATGCGAAAAGTGTGCTCGCACCTATAAATGGAAAAAGACTTTAAATGAGCACCTAAGATACAGGTGCGACGTGAAGCCTCAGTTTTCATGCAAATTTTGCTCTAAACTATTTAAACGGAAAACTGACATGAATGCCCATGTCCATCGCATGCATCACAAGACAAACTCAAAAAAGCCTGTATTAGTGCATAATTGCGACAAATGTTCGCGACGTTACACTTTACTCAGCAATTTAAATCGGCATAAACTTTTCGACCACTCAGAATTCAAACCGCAATTGATTTGCGACTATTGTGGCTACAAGACAAATCAGCAGAATTACAAGAGTAAATCGAAGACATCAATAGAAAGACTAGTTAATGCGCCATATTCTTGTACAACTACTCATATTTTTTCTGACGATAAGTATGCTGTCAAGACTTTAATTGAATACGACGTTGACGAGACTTTGGAAATCAAGGAAGAGATCATTGAAGACCAGCAGAATAGCAAGAGTAAATCGAAGACATCAATAGAAAGATTAGTCGTTCCGCCACATTCTTGTACAACTACTCATATTTCTTCTGACAATAAGTTTGCTGTCAAGACTTTAATGGAATACGACGTCGACGAAACTTTGGAAATCAAGGAAGAGGTCattgaaaGTCAGCAGAATTTCAAGAGTGAATCGAATACATCAACAGAAATACAAGTTTGTGAGATATATTCTTGTACAACTACTCACATTCCTTCTGGAAATAAGTCTGCTGCCAAGACTTTAATTGAATACGACATTGATGAGACTTTGGAAGTCAAGGAAGAGATAATTGAAGATCAAAAGAAAATTACAGGCCAGAAACGAAATCAAGCAAATGAGTTAAAATTGTGTACCACTAATACGAGAGAAGATGATATTTTGGCTCTAAAGTGCAAGCGACTGGCCCTAAAAGAGCTGGAAATTCCTAAATCAAAACAGGAGATAAAGTACTCATGCAAAAATTATCAGCAGAATTCCAATATTGAATCGAAGGAAACAACAAAAAGTCTTGTTGGTAGGCCATATTCTTGTACGACTACTCATATTTCTTTTGGCAGTAAGTCTGCTGCCAAGACTTTAATTGAATGCGATGTTGACGAGACATTGGAAGTCAAGGAAGAGATCATTGAAGATCAGCAGGATTGCAAGAGTGAATCGAAGACATCAATAGAAAGACTAGTTCTTGAGCCATATTCATTTACAACTACTCATATTTCTTCTGGCAATAAGTCTGCTGCCAAGACTTTAATTGAATACGACGTTGATGAGACTTTGGAAGTCAAGGAAGAGATCATTGAAGACGAAGAGACAATTACAGTCCAGAAACGAGATAAAACAAGCGAGTCAAAATTTTGTACCGTATATATAAGAGAAGATGATATTTTGAAGATTAAGCCGAAACCGCAGAACTTGAAGAAACCGAAAATTCAGGGATCAGAACAGAAGCACACATGCGATAAGTGTGGTCGAACCTATAAAAATAAGTGGCATATGAATTATCATCAAAAATACTTATGCGGCGTTATGCCACAGTTCAGTTGTAAATTCTGCGACAAGCAATTTAAGCGGAAATCGGTCATGAATGCCCATGTAAATCGCGTGCATCGCAGCACAAGCTCAAAGACGTTGGTATTGAAGCATAAATGCGACAAATGTTTTCGAAGACACATGGCCTCCCGCCACTCCCAGACATCGGAATCCAGACATGAATGCGACAAGTGTGCGCGAAGTTACAAGTGGCCAAAAGATTTGAATCGACACAAACGTTTAATACATGCAACAGTTAAACCACAATTTACTTGCGATTTTTGCGAACAAAAATTCGATACAAAAGATCATTTGGTAGTGCACATGACTTTGCACTACTCTAGCCAAATAGACGACTCACCGAAGGCTGCTTACAAATGCGACCAATGTTCTCGAAGTTACAGTTACAGACGTGATCAGCAGAATTCCAAGAGTGAATCGAAGACATCAATAGAAAGGCTATTCGTTGACCCAGAATCTTGTACAACTACTCATATTTCTTCTAGCAATAAGTCTGCTGCCAAGACTTTAATGGAATACGACGTTGATGAGACTTTGGAAATCAAGGAAGAGATCATTCAAGataaaggGTCAAGTACAGTTCAGAATCGGAATGAAACAAACGAGTCAACATTTTGTACCGTATATATAAAAGAAGATAATACTTCGAAGATAGAGCCGAAACCACAGAAACTGAAGAAGCAGGAAATTCAGGAGTCAGAACAGAAGTACACATGCGAAAAGTGTTCTCGAAcctataaaaataaatgtcataTGAATTATCATCAAAAATTCGAATGTGGCGTCATGCCACAGTTCAGTTGTAATTTCTGCGACCAGCAATTTAAACGCAAATCTGTCATGAATGCCCATGTAGTTCGCTTGCATCACAGCATAAACTCAAAGACATTGATATTAAAGCATGAATGCGACAAATGTTCTCGAAGTTACAATTGGCCAAGAGATTTAGTTCGTCACAAACGTTTAGTCCACGCAGTAGACAAGCCTCAATTTACTTGCGATTTTTGTGGACAGAACTTTAATGCAAAATATCATTTGGTAGGACACATTACTTCCCGCCACTCGCAGACAGCGAAATCCAGACATGAATGCGACAAATGCGCGCGAAGGAGCGACTACCACCCGAAGTCTCCGAAGCTTAGTAGAGAAACTGGTGTGTGGGACTCGAACATGTGGCGAATGAGTCGCTTTCCCCTCAGTGGACAGGCCTGCTTGAAACACCATTAA
Protein Sequence: MEIKEEFIEIEYVENETFEIKEEIIEGLQVKRESKKSTGRKDGGPHSRTTTRIFSGNDSSSKTSIKYEIDENVEIKEEIIQDLYTTRKSRKSAGRQECGPYPRTTTSISSGNMSGAKTFIEYEIDETLEIKEEFIQESQSKRHDLLFKNKVNDFTCEIEYGNDEKLEIKEEIIEIQPSVEETLETKEEIIEGLPAKRESKRLSGRQDGATYLRTATYISSGNEYDAKTCIEYDIDETLEIKEEIVQDLHYKSESKKSTGSQDAGLYFCTSTHISPCNNSGIKSMIQYDIDKTLDIKEEIIQDQRKSKSKMKRLTERHDGVSYSCTTTYLSSGKKSDTTTLIKYEIDETLDIKEEIIQDRKTITVQKRNEANESNLCIVNMREHHIMTAKSKLLALKELDIPASKREMKYTCKKCARTYKYKKSLSFHKKFECDVMPQFSCEFCGQLFKRKTHMNEHIGHLHHMTRSMRLALMHQCDQCPRRYTYVRDLSRHKRLEHAEDKPQFICDFCGYATNRKYNLVKHIESCYLKLSMSRHNCDRCSRSYALLSALNRHKNQYTKIQLKKSSGRSVNVTSSCTTTLMSSDNNYGSKNLIEYENDEALDIKEEFIQDREPITVPKENNTNESKFCTVYIRADDILAAKSKPQTLKKQKIQPSEQETKHTCEKCARSYKWKRHLNRHLKYECDVRPQFRCNFCEKLFKRVDIQIESEPTKSTESQDYGAFSCTDISSGNKSSAKTFIKYEIHETLEIKEEIIQGLQAKSESKKSTEGKDSGPHPRITTQISSDNKSTTKTLIEYDADETLDVKEEIIQIEEIAGEKYIRETYNSADNSKLPSHEKHNIQESEQGPEKKYKCKKCARSYKWKRNWYLHQKFECCVRPRFRCKFCGKRFPLKSTMYRHKCFRSYTLLKDLTRPKRLKHTADIQQHTTTHSSPGNSSGAKTLIKYDLDDTLEIKEEVIEDPETITVNKGNKSNESTFCTVYIKEDDILEVDPTPQTLKRQAIQDSENEEKYTCDKCTRNYKTKKTLIEHLKYSCDVKSRIIYQRKSKSKSNISTERQDGGSYSCTTTYLSSDNKSGAKTLIEYENDETLEIKEETIQDPTTIIIQKENQENESKFCTVYIRDDNVLEVKRELKSQKKHKIQESQAKKKYTCNKCARSYARKGTLTAHQKFECGVSPQFRCLQTNSKSKKSSGRHGGGPYPRKTTYISSGYKSGAKTFLEYDIDQTLDIKEEFIQDTGTFTVQKANKSSESKFCAIYIEEDDIFDVMPKPETLKKQEIQESEEKKKHTCEKCARTYKYRKTLNEHLKYRCDVKPEFICKLCPKVFKRKSDMNAHIQIKVINCSLKLSCCNVLDEHNSTNETKSSTERHDGVSHSGTTGQMSSGNKSGAKTSIEYDNDETLEIKEEIIQVHQNFKTASKKSTRKQTGGPHHCTTTHFFPGNKSTIKTPIEYEMDETLEIKEEFMQDSETNTVQKRNEKFETTFYTVDIKRDEILDPKRTLKKQEVEESKQEMKHTCEKCARTYKKKSYMTHHHKYECGVMPQFSYCQIKNESKKLTGRRDGGPFVRTTSDVSSDNKFGAMTSIEYDIDESLDIKEEIIQDCEIKRESKKSTGRADDGPYSNTTTHISTDNKFVAKTLIEYQNDVTFKIKEEIIQDIQTKNESKKSTGLQDTGPHSRTTNQIFSNIKSPIKTLIEYEIDETLDIKEEIIPVPETIAVHEGNKSNEYTVYTIHMKEDDILGVEPKPENQEKQQIQKPENQKKHACKTCARRYKNKQSLTYHTKFECGVMPQFSCKLCGKQYKRKYNMTEHIRREHHKTRHNCDECALSYKWPESLAEHKSLKTKSQSKKSTGRHDAGPYSRKTTNYISSYNNSGAKTLIEYDNDETLEIKQEFIPGLEAKRTTRRTTHISSDNKSCAKTLIKYDLDDTLEIKEESIQDPGTIDVSKGNKSNEVTFCTEYIKEDNILQAIPESKEEKKHTCEKCARTYKWKKTLNEHLRYRCDVKPQFSCKFCSKLFKRKTDMNAHVHRMHHKTNSKKPVLVHNCDKCSRRYTLLSNLNRHKLFDHSEFKPQLICDYCGYKTNQQNYKSKSKTSIERLVNAPYSCTTTHIFSDDKYAVKTLIEYDVDETLEIKEEIIEDQQNSKSKSKTSIERLVVPPHSCTTTHISSDNKFAVKTLMEYDVDETLEIKEEVIESQQNFKSESNTSTEIQVCEIYSCTTTHIPSGNKSAAKTLIEYDIDETLEVKEEIIEDQKKITGQKRNQANELKLCTTNTREDDILALKCKRLALKELEIPKSKQEIKYSCKNYQQNSNIESKETTKSLVGRPYSCTTTHISFGSKSAAKTLIECDVDETLEVKEEIIEDQQDCKSESKTSIERLVLEPYSFTTTHISSGNKSAAKTLIEYDVDETLEVKEEIIEDEETITVQKRDKTSESKFCTVYIREDDILKIKPKPQNLKKPKIQGSEQKHTCDKCGRTYKNKWHMNYHQKYLCGVMPQFSCKFCDKQFKRKSVMNAHVNRVHRSTSSKTLVLKHKCDKCFRRHMASRHSQTSESRHECDKCARSYKWPKDLNRHKRLIHATVKPQFTCDFCEQKFDTKDHLVVHMTLHYSSQIDDSPKAAYKCDQCSRSYSYRRDQQNSKSESKTSIERLFVDPESCTTTHISSSNKSAAKTLMEYDVDETLEIKEEIIQDKGSSTVQNRNETNESTFCTVYIKEDNTSKIEPKPQKLKKQEIQESEQKYTCEKCSRTYKNKCHMNYHQKFECGVMPQFSCNFCDQQFKRKSVMNAHVVRLHHSINSKTLILKHECDKCSRSYNWPRDLVRHKRLVHAVDKPQFTCDFCGQNFNAKYHLVGHITSRHSQTAKSRHECDKCARRSDYHPKSPKLSRETGVWDSNMWRMSRFPLSGQACLKHH

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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