Basic Information

Insect: Clunio marinus
Gene Symbol: SPAC25B8.19c
Assembly: GCA_900005825.1
Location: CVRI01000024.1:216691-230350[+]

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 42 0.096 7.2 7.5 0.4 1 23 170 197 170 197 0.96

2 42 0.13 9.4 7.2 3.2 1 23 212 235 212 235 0.97

3 42 8.8e-05 0.0065 17.1 2.4 1 23 248 270 248 270 0.98

4 42 0.16 12 6.8 1.5 2 23 276 297 275 297 0.92

5 42 1.1 79 4.2 0.2 3 23 314 334 312 334 0.94

6 42 0.095 7 7.6 3.1 1 22 373 394 373 394 0.95

7 42 1.1 80 4.2 0.1 1 23 399 422 399 422 0.93

8 42 0.044 3.3 8.6 0.3 3 23 430 451 428 451 0.94

9 42 0.18 13 6.7 0.7 1 13 457 469 457 470 0.93

10 42 7.9e-05 0.0059 17.2 2.5 2 23 509 530 509 530 0.97

11 42 9.1e-07 6.8e-05 23.3 1.1 1 23 536 560 536 560 0.98

12 42 0.068 5.1 8.0 0.6 2 23 567 590 566 590 0.88

13 42 1.1 83 4.2 0.3 1 23 793 820 793 820 0.86

14 42 0.16 12 6.8 2.0 1 23 835 858 835 858 0.96

15 42 5.3 4e+02 2.0 0.5 1 23 889 916 889 916 0.91

16 42 0.16 12 6.9 5.1 1 23 931 954 931 955 0.96

17 42 0.49 37 5.3 2.7 1 23 997 1024 997 1024 0.96

18 42 0.75 55 4.7 5.7 1 23 1039 1061 1039 1062 0.96

19 42 0.022 1.6 9.5 3.8 1 23 1159 1182 1159 1182 0.96

20 42 0.59 44 5.0 1.1 1 23 1221 1248 1221 1248 0.96

21 42 0.021 1.6 9.6 4.6 1 23 1263 1286 1263 1286 0.97

22 42 0.0029 0.22 12.3 1.1 1 23 1298 1320 1298 1320 0.98

23 42 0.52 39 5.2 1.1 1 19 1325 1343 1325 1347 0.86

24 42 0.097 7.2 7.5 3.5 1 23 1422 1444 1422 1444 0.97

25 42 0.011 0.78 10.6 0.1 1 23 1448 1471 1448 1471 0.98

26 42 0.42 31 5.5 2.1 1 23 1506 1528 1506 1528 0.89

27 42 0.051 3.8 8.4 1.5 1 23 1534 1556 1534 1556 0.98

28 42 0.064 4.8 8.1 2.3 2 23 1569 1590 1569 1590 0.97

29 42 0.92 68 4.5 0.6 1 13 1596 1610 1596 1613 0.90

30 42 3.5 2.6e+02 2.6 0.7 1 23 2086 2113 2086 2113 0.89

31 42 0.33 24 5.9 1.6 3 23 2215 2235 2214 2235 0.97

32 42 0.58 43 5.1 3.4 1 23 2241 2263 2241 2263 0.97

33 42 0.033 2.5 9.0 0.1 1 23 2267 2290 2267 2290 0.97

34 42 0.0015 0.11 13.2 0.4 3 23 2297 2317 2296 2317 0.98

35 42 0.0073 0.54 11.1 2.9 1 23 2323 2345 2323 2345 0.97

36 42 0.023 1.7 9.5 3.7 1 23 2351 2373 2351 2373 0.95

37 42 0.075 5.6 7.9 6.2 1 23 2385 2407 2385 2407 0.96

38 42 0.0017 0.13 13.0 0.9 3 23 2479 2499 2477 2499 0.97

39 42 0.043 3.2 8.6 1.6 1 23 2505 2527 2505 2527 0.97

40 42 0.0007 0.052 14.3 5.7 1 23 2533 2555 2533 2555 0.97

41 42 0.023 1.7 9.5 4.3 1 23 2567 2589 2567 2589 0.96

42 42 1 78 4.3 0.7 1 14 2595 2610 2595 2611 0.89

#	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	42	0.096	7.2	7.5	0.4	1	23	170	197	170	197	0.96
2	42	0.13	9.4	7.2	3.2	1	23	212	235	212	235	0.97
3	42	8.8e-05	0.0065	17.1	2.4	1	23	248	270	248	270	0.98
4	42	0.16	12	6.8	1.5	2	23	276	297	275	297	0.92
5	42	1.1	79	4.2	0.2	3	23	314	334	312	334	0.94
6	42	0.095	7	7.6	3.1	1	22	373	394	373	394	0.95
7	42	1.1	80	4.2	0.1	1	23	399	422	399	422	0.93
8	42	0.044	3.3	8.6	0.3	3	23	430	451	428	451	0.94
9	42	0.18	13	6.7	0.7	1	13	457	469	457	470	0.93
10	42	7.9e-05	0.0059	17.2	2.5	2	23	509	530	509	530	0.97
11	42	9.1e-07	6.8e-05	23.3	1.1	1	23	536	560	536	560	0.98
12	42	0.068	5.1	8.0	0.6	2	23	567	590	566	590	0.88
13	42	1.1	83	4.2	0.3	1	23	793	820	793	820	0.86
14	42	0.16	12	6.8	2.0	1	23	835	858	835	858	0.96
15	42	5.3	4e+02	2.0	0.5	1	23	889	916	889	916	0.91
16	42	0.16	12	6.9	5.1	1	23	931	954	931	955	0.96
17	42	0.49	37	5.3	2.7	1	23	997	1024	997	1024	0.96
18	42	0.75	55	4.7	5.7	1	23	1039	1061	1039	1062	0.96
19	42	0.022	1.6	9.5	3.8	1	23	1159	1182	1159	1182	0.96
20	42	0.59	44	5.0	1.1	1	23	1221	1248	1221	1248	0.96
21	42	0.021	1.6	9.6	4.6	1	23	1263	1286	1263	1286	0.97
22	42	0.0029	0.22	12.3	1.1	1	23	1298	1320	1298	1320	0.98
23	42	0.52	39	5.2	1.1	1	19	1325	1343	1325	1347	0.86
24	42	0.097	7.2	7.5	3.5	1	23	1422	1444	1422	1444	0.97
25	42	0.011	0.78	10.6	0.1	1	23	1448	1471	1448	1471	0.98
26	42	0.42	31	5.5	2.1	1	23	1506	1528	1506	1528	0.89
27	42	0.051	3.8	8.4	1.5	1	23	1534	1556	1534	1556	0.98
28	42	0.064	4.8	8.1	2.3	2	23	1569	1590	1569	1590	0.97
29	42	0.92	68	4.5	0.6	1	13	1596	1610	1596	1613	0.90
30	42	3.5	2.6e+02	2.6	0.7	1	23	2086	2113	2086	2113	0.89
31	42	0.33	24	5.9	1.6	3	23	2215	2235	2214	2235	0.97
32	42	0.58	43	5.1	3.4	1	23	2241	2263	2241	2263	0.97
33	42	0.033	2.5	9.0	0.1	1	23	2267	2290	2267	2290	0.97
34	42	0.0015	0.11	13.2	0.4	3	23	2297	2317	2296	2317	0.98
35	42	0.0073	0.54	11.1	2.9	1	23	2323	2345	2323	2345	0.97
36	42	0.023	1.7	9.5	3.7	1	23	2351	2373	2351	2373	0.95
37	42	0.075	5.6	7.9	6.2	1	23	2385	2407	2385	2407	0.96
38	42	0.0017	0.13	13.0	0.9	3	23	2479	2499	2477	2499	0.97
39	42	0.043	3.2	8.6	1.6	1	23	2505	2527	2505	2527	0.97
40	42	0.0007	0.052	14.3	5.7	1	23	2533	2555	2533	2555	0.97
41	42	0.023	1.7	9.5	4.3	1	23	2567	2589	2567	2589	0.96
42	42	1	78	4.3	0.7	1	14	2595	2610	2595	2611	0.89

Sequence Information

Coding Sequence: ATGAATAACAAATGCAGACTCTGCCTTGAAAGTAACACAAACTCTTTTCCAATATTTGAGAACAAAAACGGATTTGCAATAACTCATTATATTGATACTATTATTCCTGAATTGCAAATTGAagttcaaaatgattttttatctCGAAAAATTTGCAATATTTGTCTAGAAATCATTGTGACAGCATatgaattaagaaataaaagtattgacaatgataaaaaaatgcgAAATCAATTTTTCGCTAATAAATCAGTGGAATTTATTATAAAGGATGAACCTTATCATCATGAACCAGACATTTCTATAAAGGAAGAAGATGGAAGTTTCACTGAATATTTTGATACCACATATTTTCTagagaaaacaagaaatgacGTAAGTAAATATTCTGGTACAACATCGTCGCATAGaaagtcaaaagaaaataCACCAGACGAGAGTGAAGATGATAATgatggagaagaagaagaaagtgatGAAAGTTCATACCGAACTTCCAACTTCTTTAAGTGTAAAATCTGCGAATCAGAAGGTGGATCAAGATTGTTTACAAAAGAAAGTATGCTCAAGAAACATCTTCAAGCACATAAGACCGGATCTGTAAAGACTTATAAGATTAACTCAAAAGGTTACACATGTGATGTTTGTGAAAGCTTCTTTTCGTCGAGACAAGGCCTTCATTATCACAAAAAACGAGTTCATCTAGGCGTTAAAATAGAAACCATGGCTTCCTATCAGTTTCAATGTGACAAATGTCCAGCAAAATTTAGGAGACAAATCAGTTACACCAAACACATGTCAAAACATGACGAACAGATTTTAATCTGCAAGGACTGTGGGATACAATTTGAATCAATAAATCATCTGCATCTTCATAGTTTTATTCATTGCGATTATGTACAAGAGTATCATGATCCGGAACCACAATTATTCGGATGTTCTTTATGTGCTTTTCAATCAATGAATAACGAAGAGCTACAACAACACATGTTAAtacatcaaaatgaatttaacgGTGATGGAATCCTTCATGTTTGCTTAAAATGCAGTTTTCAGCTTcctgattttaaatttatggtTAATCATGCAAATCAACATAACACAAAACTAACTCATCAATGCTTAAAGtgctttaagaaattttcttatggTGAGAAACTTCTCCGTCATTTAAAACGATATCAAGACTGCTTCGTCTGTGACATCTGTGGTCATTTAGCTACGTTTAAAGCTCGCATGGAAGAACATATTCGGGCTGTACACAAACGAGAGTTTGATCATTTATGTCCAATTTGTGgtgtaaaagaaagaagtagTGGCTTACTTAGAGCTCATATCAGACTTAAACATGAAGTTGTAAACAAATACAAATGTTCCTTCTGTCCAAAAGCTTTTCGTACACCTTTATGTACAATATCGATTTCATCAAAGTGTTCATCAAAAAGAACCTGTCATCGTAATCTTATGCTTCATCAAAAAAGCCATGACCCtgttaaaattgaagaaatgagaCAACGAAACACTTGCGAACATTGTGGAAAACGATTCCTAACAAAATATGCTCTTCAACGTCACATGGTGACACATACTGGAGctaGACCTTATGTGTGCACTTTCAGTGGCTGTGATAGATCTTTTACTCAAAGCAATGATTTAAACAAGCATATTCGTACTCATGTAGGGGAGAATTCCTATCTATGCGAATATCCCGGATGTTCTGaagcatttaaattcaaagctgATTTGAGACATCACGAAAGTGATCATTATCGAAaacctaataaaatttgtaaaacatCTGAAATATTCGATAAAACCATGGATAAGTTTTGTCGACTTTGCTTGGAAGAggataaagaattttttttcatttttggaTATAAAAATGAGATCTTAATAAGGAATTATATTGGAGCTATTATTCATGAATTATCAATAATAAGAAATGATGGTCTTTCTGATGAAATATGTAACAATTGTCTTGAtcttataataaaaatgtatgaTCTTCGAATCAAGAGCATACATAACGACGCACAAATGCGAAATCAATTATATGGATCTCCTCATTTACAATTAGGTGAGTTTATTAGTACAGGTGACCTACCGGATCAAACAAccattaaaatcaaagaagaaataatcGAAAATGAGATAGAAGATGAACTTCGCAATTATGACAACTTTGGAATTAAAGAATGTTCAGTATTACTGAAAAGATTGGATTCGTCTGAAAAAATTAGTGACCTTTTggcagaaaataaaattaaagaagatgaGGAAGATTTAAATGAACTTGCTTGCAGTGATGTTAATGATGATGCAAGTGTATCCAATGattcctttaaaaatttacGTGTTGGTGATCAAATGTTCAATTGTGAATTGTGTCCTTTAAATGGTGGATCAAGATTGTTTTCTACAAAAGTAAAACTTAAGAAACATTTAGATGATCATAAATCaggaaaaatgtttgcatATAAAGTAAATCCCCAAGGTTATCCTTGTAATGTTTGCAGCAGCACCTTTTCAACAAGACAAGGTCGTTTCGctcataagaaaaaatatcatccTGATCATAATGAGGTGAAATCATCACCTACCAAAAAGTCGAAAAAAATACAATCTACAATGATTCAggatgaaaaacaaacagaatttttcaaatgtgaACTTTGTGAGTCTCAAGGAGGTTCGAGATTATTTATTACGGAAAATAAATACAATAAACATCTTCGAGATCATGAAACAGGATatgttaaaatttatcatGTCAATCCTCAAGGCTATTCATGTGatatttgtaaacaaacttttccaaaTAGGCAAAGTCGTCACGTGCACAAGAAAAAAGCTCACCATGGCAGCATTCAATGTTCAAATGTGAACATTGCTATTCTGGAGAAAggcatgaaaaatgaaagcgAAAATGATGCTTCTCTTGGAActtttgaaatggaaaacgaACATTCTGAACCAAATCtctttaaatgtaaaatttgtgAGTCACAAGAAGGttcaagattatttaaaaCGAAAAGCATGTATGAAAAGCACCATCAGGAACATAAAGCTGGATTAGTGAACGTAAATTATGTCAAGCCTGAAGGTTATCCTTGTAATTTTTGTAAAAGTGTCTTCAAGAGTAGACAAAGTCGTTTCGCGCATAAAAAAAAGCATCATGTTGGTGAAATTCCACAACTCCAAACAGCCAAATCTGTTGAAACGacagaaaacttaaaaaataaatcaaatggaaaaccaaataatgaaatttctgacACCAGTgatgatgagaagaaattatttgatgacttaaatgatgaagatcttccaagaaatttctttaaatgcGAAATTTGTGAAACTCAAGGAGGTTCAAGATtatttgtgaaagaaaaaaagtatttgaaaCATTTGCAAGATCACGAAACAGgagatgtgaaaatttatcaagttAATCCAAAAGGCTACTGTTGTTATATTTGTAATATTGTTTTTCCAAACCGTCAAGCACTTCATTATCATCGGAAGCGTATACATGGAACTGAAGTAAATATTACATCTAAGGAATTTGATTTGACTGAAAATCAGAAAGACTTCAATGAACTTTCACCAAGTGAAGTCACAATAAAGACTCCAATATCAAcgaaattctttaaatgcaAAATATGTAAGTCAAACGGAGGCTCGAgattatttacaaaagaaactATGTTTCGACGACATATTCAAGCGCACAAAATGGGgaatgtaaaaattttaaaagttaattctAATGGATACAGTTGTAGTGAATGCACCAGTGTTTTCTCATCACGACAAGGACTTCATCATCATAGGAAACGTGGACATGATAAAGCTAAAGATAGCTTGTGGAATTGGAAGTTCAAATGTGGAATATGTTCGTCTAAATTCGCTACAAAAGAAATGTACGCAAAACATATGACGAATCATGAAGATCAAATCTTTATTTGTAAAGATTGTGGAATTCAAtataaaacaatgaaagaattGAAGTTTCATAGTTTTCTTCATTGTGATTATGTGGAAGAATATCAAAATCCTGAGGTGCACACTTATGGATGTTCATTTTGTTCATTCTTTTCGTTGAACGATGAAGAACTacaacaacattttcttattcatcaaTCAGATTTCaacgataataaaattcacatttgCGTAAAGTGCAGTGCacaatttaaagattttacttTCTTTGTAAATCATTCCAATCAACATAACTTGAGATTGACTCACAAATGTctcaaatgtttgaaaaagtttccttaTGGTGATAAACTTCTTCGGCATcttaaacaacataaaaattcctACATATGTGATATATGTGGACACGTAGCGACAATAAAAGGCCGATTGGAAGAACATATTCGTACAGTTCACATTCGTGAATTTACTTACTTATGTCCTATTTGCGGTGTTAAAGAGAGAACTGATTGGATATTGCGAACTCATATCAGACTCAAGCATGAAACAGATAAGAAATACAAATGTTCTTTCTGTCCTAAAGCTTTTCAGTCTCCtctaaaatataaattccatCAGACTGTTCATGCGAAAGAACCAACATTCCAGTGTTTGAAATGTCCAAACAAGTACAAAGGTTATCGCAATCTTATGCTTCATCTAAAGCTTCACGATCCAGTCAAAGtggaagaaatgaaacgaaaaaatacTTGTTCATATTGCTTCAAAGGCTTTTTGACAAAGGGCAAGCTTCATGTTCATATGGTGACGCACACAGGAGAaaGACCTTTTGCTTGTGATTTTGTAGGATGTGATAAATCATTTACTCAACagaaaatttataatcaTTCCACCGATGATAAGAAGGATAATGTATGGGTAAAGGACGGTGATAACCTTGAGTTTACTATTGATGTGATGCCAGAgaTACGACCATTCACTGACAACAGAAATTCAAGTGATTTGTATGAGGCATCACTTCGGAAAAATTCTAAGGACGACAAAGATTTTCCGGAATATGAAGTTCTTGATTGTGGCAAGCCTGTCAACTTTACATATTATGATGATCTTGTGGGCATTATTCATCGAAAGAAGCACAAAAATCTACCAGAACCTGATGTTCTGTTTACTTTCACTACAAAATCTAAAAGCGGGAAAATGCGTAAaagttttgatgttgatgCTTTGGAAATGAAGCTGAGAAAAGACAAACGAGATAAACCTAGAAGTGTCCAATTATACAATAAGATTGGAAACTTCTGGCGCATTAAAGGAAATGCTCTGATTTCGATTGAATGTTTTCGCAAAGCTTTATCGATTAATCCAACAAACAGTGAAGTAATTTTGAATTTGGCAAGAGTTCTTTTTCACCAAGGATATTTGGAAGATGCAATTTTCTTAACACGCAAATCCCTTGAAGTTCATTCTGCAGATCGATCAGCATGGCGACAATACTTTACGCttggagaaatatttaaaaaatatggaaatattCAAGAGTCAGTTTTACATTTTCGTCATGCTCTTGAACTCTCGCCTCAACACGATAAAATTCTTCAGGCTCTCGAAGAGATTGAAAAGATTCCAATTTCATCACTTCATTTCTATACAATTCTGATAATCTCACTTCTAGTCTTGGGTGTTCTTATTGTCATGAGATACTTGAATCAAGAAGAGGGAGGGGGAGAAAGTGAACCAAAGCGTGATAAGATTCGCTGCTTTAAGTTTCGTGGCGCTATGAataaaaagacAAATATGGCGAATAATATGAGTGAAAAGTGTAGGATGTGTTTGAAGAACTTGTCAGAGGCGGTATCAATATCAATATTTGATAAGAGAAAAGGAATGTCAATACATAGTTGGATAAACTTCCTTGTTCCAGAATTATCTatagatgaaaatgatgatttgcCAAAAACAATTTGTTACATTTGTcttcaaattgttttaaatgctTGTGAACTTCGATCAACTAGTATAAAAAATGATAACCTTCTTAGAAGTCAAGTTATTTCAGAACTACaagttaaagaagaaattctggaagacatgaaaaataaaagtcaattaGCTGATTTGTTTATTAAACAAGAACCCGAAACAGAACTTTTTGAAATAGAAGTTGgtgaaaattctcatttgtGGTTTTTGGAACCCCAATCAACATTTGACGAGcttgaaaattatgttaataaGGAACATAAActaagaaataaaactaaatttagGAAAAATCCCAAGCCGGTTCTTGGGTCGAATTTTCATtgtgaaatttgtgaaaataatgGAGAATTTAGAATCTTGAAAACTAAATCTATATTGGAAAAACATATGAGAGCTCATATGAAAGGAACTGTTCGATTCGGACTAAAAAAAGCGCCATATCGTAACATTTGTTCTTATTCATCAAATAGCAGATACGACAAAAAACTGAGACTATGTAAAGTTTGTggtttcaaagaaaataatttgacaCTATTAAATCTACATACTTACATTCATTGTGAATATGTTGAAGAATATCAAGAACCTGAGCAAAGGTTTGCATGTATAGCTTGCACATTTGAATCTGTCAACGATAGTGACTTGAAAGTTCATGTATTATCACATCAGAATGATTTCGATTTAAACAGAAAAGTAGTTTTATGCAATAAATGTAGTTTAACTTTTGATAATTATGTTGATATTGAGAAACATTTGAGTCATCATAACGAGAAAATCACTCATCGATGTCTCAAATGTGGTAATAAATTTGCGTATGGTCTGAAACTTTTCCGTCATTTGAAGAACCATGAAAGAAGCTTTGTTTGTGATTTGTGTGGATATACTGCCattgtaaaaattaaattagagaATCACATAACGACCACTcacatgaaacaattttctttatgtgCCATTTGTGGTAAAACACTTAAAAATCGTGATATTTTACGAATCCACATGAAGACAcatgaaaatgtgaagaaatttaaatgtttactttGCCCTAAAGAGTTTCGAAGAGAGAGAAACTATCACTATCATCAAGGTGTTCATTCAAATGAAGCgaCATATCAATGTCCAATGTGtccaaaaaaattcaaaacatatAGGAGAGTGAGTTATCATAAACGTTTTCATGATCCGGAAAAGGCAAAATTGTTAAGAGAACAGCATTGCTGCACTATTTGTAGGAAGACATATTTAACAAGTCAATCTTTAAAACGGCATATGATTAATCATACAGGAATaaaaaccgaAACCAAACTTTCCGAGAAAGAATTTAGTGAAAGTTCCCATCTATGGTTTCAGGAAAACTCAGATATATTTCACAAAACTCTTCCTAACAATAAACctaaaagcttcaaaaatgaaatcaaatattctGGATATAATAAACGAAAATTGGAGAATCATATGAATGTGGTGGTGGTGCACATTAAAGAACTTTGTTTGTGCCCTATTTGTGGGAAAACTCTCAAAACTCGTGACGTTCTGCCACGCCATATAAAAACACATGATAATGTACggaatttcaaatgtttgttttgtCCGATAGAATTTCAGAAtgcaagaaattttcataatcatcAAGGTGTTCATACAAAGGAAGCGAATCATCAATGTCCAATGTGTccgaaaaagtttaaaacgtACGCTAAACTGATTCATCATAAACGTTTTCACAATCCTGATGTAgtgaaaatgttaagaaagaaacattgcTGTGACACTTgtgcaaaaacatttttatcaagtAATGCTTTGAAACGACACATGATTACTCATAGAGGAAttCGTCCATTTAATTGCAATTTTGAAGGGTGTGATCGATCGTTTACTCAAAGCGGTGACTAA
Protein Sequence: MNNKCRLCLESNTNSFPIFENKNGFAITHYIDTIIPELQIEVQNDFLSRKICNICLEIIVTAYELRNKSIDNDKKMRNQFFANKSVEFIIKDEPYHHEPDISIKEEDGSFTEYFDTTYFLEKTRNDVSKYSGTTSSHRKSKENTPDESEDDNDGEEEESDESSYRTSNFFKCKICESEGGSRLFTKESMLKKHLQAHKTGSVKTYKINSKGYTCDVCESFFSSRQGLHYHKKRVHLGVKIETMASYQFQCDKCPAKFRRQISYTKHMSKHDEQILICKDCGIQFESINHLHLHSFIHCDYVQEYHDPEPQLFGCSLCAFQSMNNEELQQHMLIHQNEFNGDGILHVCLKCSFQLPDFKFMVNHANQHNTKLTHQCLKCFKKFSYGEKLLRHLKRYQDCFVCDICGHLATFKARMEEHIRAVHKREFDHLCPICGVKERSSGLLRAHIRLKHEVVNKYKCSFCPKAFRTPLCTISISSKCSSKRTCHRNLMLHQKSHDPVKIEEMRQRNTCEHCGKRFLTKYALQRHMVTHTGARPYVCTFSGCDRSFTQSNDLNKHIRTHVGENSYLCEYPGCSEAFKFKADLRHHESDHYRKPNKICKTSEIFDKTMDKFCRLCLEEDKEFFFIFGYKNEILIRNYIGAIIHELSIIRNDGLSDEICNNCLDLIIKMYDLRIKSIHNDAQMRNQLYGSPHLQLGEFISTGDLPDQTTIKIKEEIIENEIEDELRNYDNFGIKECSVLLKRLDSSEKISDLLAENKIKEDEEDLNELACSDVNDDASVSNDSFKNLRVGDQMFNCELCPLNGGSRLFSTKVKLKKHLDDHKSGKMFAYKVNPQGYPCNVCSSTFSTRQGRFAHKKKYHPDHNEVKSSPTKKSKKIQSTMIQDEKQTEFFKCELCESQGGSRLFITENKYNKHLRDHETGYVKIYHVNPQGYSCDICKQTFPNRQSRHVHKKKAHHGSIQCSNVNIAILEKGMKNESENDASLGTFEMENEHSEPNLFKCKICESQEGSRLFKTKSMYEKHHQEHKAGLVNVNYVKPEGYPCNFCKSVFKSRQSRFAHKKKHHVGEIPQLQTAKSVETTENLKNKSNGKPNNEISDTSDDEKKLFDDLNDEDLPRNFFKCEICETQGGSRLFVKEKKYLKHLQDHETGDVKIYQVNPKGYCCYICNIVFPNRQALHYHRKRIHGTEVNITSKEFDLTENQKDFNELSPSEVTIKTPISTKFFKCKICKSNGGSRLFTKETMFRRHIQAHKMGNVKILKVNSNGYSCSECTSVFSSRQGLHHHRKRGHDKAKDSLWNWKFKCGICSSKFATKEMYAKHMTNHEDQIFICKDCGIQYKTMKELKFHSFLHCDYVEEYQNPEVHTYGCSFCSFFSLNDEELQQHFLIHQSDFNDNKIHICVKCSAQFKDFTFFVNHSNQHNLRLTHKCLKCLKKFPYGDKLLRHLKQHKNSYICDICGHVATIKGRLEEHIRTVHIREFTYLCPICGVKERTDWILRTHIRLKHETDKKYKCSFCPKAFQSPLKYKFHQTVHAKEPTFQCLKCPNKYKGYRNLMLHLKLHDPVKVEEMKRKNTCSYCFKGFLTKGKLHVHMVTHTGERPFACDFVGCDKSFTQQKIYNHSTDDKKDNVWVKDGDNLEFTIDVMPEIRPFTDNRNSSDLYEASLRKNSKDDKDFPEYEVLDCGKPVNFTYYDDLVGIIHRKKHKNLPEPDVLFTFTTKSKSGKMRKSFDVDALEMKLRKDKRDKPRSVQLYNKIGNFWRIKGNALISIECFRKALSINPTNSEVILNLARVLFHQGYLEDAIFLTRKSLEVHSADRSAWRQYFTLGEIFKKYGNIQESVLHFRHALELSPQHDKILQALEEIEKIPISSLHFYTILIISLLVLGVLIVMRYLNQEEGGGESEPKRDKIRCFKFRGAMNKKTNMANNMSEKCRMCLKNLSEAVSISIFDKRKGMSIHSWINFLVPELSIDENDDLPKTICYICLQIVLNACELRSTSIKNDNLLRSQVISELQVKEEILEDMKNKSQLADLFIKQEPETELFEIEVGENSHLWFLEPQSTFDELENYVNKEHKLRNKTKFRKNPKPVLGSNFHCEICENNGEFRILKTKSILEKHMRAHMKGTVRFGLKKAPYRNICSYSSNSRYDKKLRLCKVCGFKENNLTLLNLHTYIHCEYVEEYQEPEQRFACIACTFESVNDSDLKVHVLSHQNDFDLNRKVVLCNKCSLTFDNYVDIEKHLSHHNEKITHRCLKCGNKFAYGLKLFRHLKNHERSFVCDLCGYTAIVKIKLENHITTTHMKQFSLCAICGKTLKNRDILRIHMKTHENVKKFKCLLCPKEFRRERNYHYHQGVHSNEATYQCPMCPKKFKTYRRVSYHKRFHDPEKAKLLREQHCCTICRKTYLTSQSLKRHMINHTGIKTETKLSEKEFSESSHLWFQENSDIFHKTLPNNKPKSFKNEIKYSGYNKRKLENHMNVVVVHIKELCLCPICGKTLKTRDVLPRHIKTHDNVRNFKCLFCPIEFQNARNFHNHQGVHTKEANHQCPMCPKKFKTYAKLIHHKRFHNPDVVKMLRKKHCCDTCAKTFLSSNALKRHMITHRGIRPFNCNFEGCDRSFTQSGD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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