Basic Information

Insect: Temnothorax longispinosus
Gene Symbol: -
Assembly: GCA_004794745.1
Location: QBLH01000348.1:80598-144631[+]

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 44 0.00043 0.033 14.2 7.2 1 21 159 179 159 183 0.93

2 44 0.96 75 3.6 0.1 1 23 245 268 245 268 0.91

3 44 0.00048 0.037 14.0 1.7 1 23 298 320 298 320 0.98

4 44 5.1e-05 0.004 17.1 1.9 1 23 326 349 326 349 0.96

5 44 7e-05 0.0055 16.6 0.2 2 23 356 377 355 377 0.97

6 44 5.3e-07 4.1e-05 23.3 1.1 1 23 383 405 383 405 0.99

7 44 5.8e-05 0.0045 16.9 1.0 1 23 411 433 411 433 0.98

8 44 7.5e-05 0.0058 16.6 1.6 1 23 439 461 439 461 0.96

9 44 0.0019 0.15 12.1 1.8 2 23 468 490 467 490 0.94

10 44 3.1e-06 0.00024 20.9 0.3 1 23 581 603 581 603 0.98

11 44 1.5e-06 0.00012 21.9 0.6 1 23 609 632 609 632 0.96

12 44 0.081 6.3 7.0 0.6 1 23 638 660 638 660 0.97

13 44 7.1e-05 0.0055 16.6 3.9 1 23 666 688 666 688 0.96

14 44 0.0032 0.25 11.4 1.3 1 23 694 716 694 716 0.94

15 44 5e-05 0.0039 17.1 2.5 1 23 722 744 722 744 0.98

16 44 0.029 2.3 8.4 1.3 1 19 750 768 750 773 0.93

17 44 9.4e-05 0.0073 16.3 2.3 2 23 927 948 926 948 0.97

18 44 0.00011 0.0089 16.0 3.6 1 23 954 977 954 977 0.96

19 44 0.00011 0.0087 16.0 0.7 1 23 983 1005 983 1005 0.98

20 44 1.2e-05 0.00094 19.1 2.7 1 23 1011 1033 1011 1033 0.98

21 44 0.21 16 5.7 0.9 1 23 1039 1061 1039 1061 0.88

22 44 3e-05 0.0024 17.8 0.9 1 23 1067 1089 1067 1089 0.97

23 44 3.1 2.4e+02 2.0 1.9 1 13 1095 1107 1095 1110 0.89

24 44 0.0038 0.3 11.2 4.0 2 23 1150 1172 1149 1172 0.96

25 44 5e-06 0.00039 20.3 4.4 1 23 1199 1221 1199 1221 0.98

26 44 0.00011 0.0084 16.1 1.1 2 23 1226 1248 1225 1248 0.92

27 44 0.27 21 5.4 1.1 1 23 1273 1295 1273 1295 0.97

28 44 0.76 60 3.9 1.9 3 23 1301 1321 1300 1321 0.98

29 44 0.009 0.7 10.0 1.2 1 23 1324 1347 1324 1347 0.96

30 44 0.055 4.3 7.6 5.8 1 23 1376 1398 1376 1399 0.96

31 44 0.00015 0.012 15.6 0.6 1 23 3009 3031 3009 3031 0.95

32 44 0.0053 0.41 10.8 1.7 3 23 3039 3059 3037 3059 0.97

33 44 0.0003 0.023 14.7 0.0 1 23 3192 3214 3192 3214 0.98

34 44 1.7 1.3e+02 2.9 0.1 1 23 3220 3243 3220 3243 0.96

35 44 0.0045 0.35 11.0 1.9 1 23 3273 3295 3273 3295 0.98

36 44 0.038 3 8.0 0.0 1 23 3310 3332 3310 3332 0.93

37 44 1.3 1e+02 3.2 0.3 2 23 3340 3362 3340 3362 0.95

38 44 0.01 0.82 9.8 2.8 2 19 3370 3387 3370 3391 0.95

39 44 0.041 3.2 7.9 0.1 3 23 3413 3433 3412 3433 0.97

40 44 2.4e-05 0.0019 18.1 0.4 1 23 3442 3464 3442 3464 0.98

41 44 0.01 0.81 9.8 0.2 3 23 3472 3492 3470 3492 0.97

42 44 0.0092 0.72 10.0 0.2 3 23 3500 3520 3498 3521 0.94

43 44 0.0026 0.2 11.7 0.0 1 23 3535 3557 3535 3557 0.93

44 44 0.0072 0.57 10.3 0.0 1 20 4003 4022 4003 4025 0.94

#	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	44	0.00043	0.033	14.2	7.2	1	21	159	179	159	183	0.93
2	44	0.96	75	3.6	0.1	1	23	245	268	245	268	0.91
3	44	0.00048	0.037	14.0	1.7	1	23	298	320	298	320	0.98
4	44	5.1e-05	0.004	17.1	1.9	1	23	326	349	326	349	0.96
5	44	7e-05	0.0055	16.6	0.2	2	23	356	377	355	377	0.97
6	44	5.3e-07	4.1e-05	23.3	1.1	1	23	383	405	383	405	0.99
7	44	5.8e-05	0.0045	16.9	1.0	1	23	411	433	411	433	0.98
8	44	7.5e-05	0.0058	16.6	1.6	1	23	439	461	439	461	0.96
9	44	0.0019	0.15	12.1	1.8	2	23	468	490	467	490	0.94
10	44	3.1e-06	0.00024	20.9	0.3	1	23	581	603	581	603	0.98
11	44	1.5e-06	0.00012	21.9	0.6	1	23	609	632	609	632	0.96
12	44	0.081	6.3	7.0	0.6	1	23	638	660	638	660	0.97
13	44	7.1e-05	0.0055	16.6	3.9	1	23	666	688	666	688	0.96
14	44	0.0032	0.25	11.4	1.3	1	23	694	716	694	716	0.94
15	44	5e-05	0.0039	17.1	2.5	1	23	722	744	722	744	0.98
16	44	0.029	2.3	8.4	1.3	1	19	750	768	750	773	0.93
17	44	9.4e-05	0.0073	16.3	2.3	2	23	927	948	926	948	0.97
18	44	0.00011	0.0089	16.0	3.6	1	23	954	977	954	977	0.96
19	44	0.00011	0.0087	16.0	0.7	1	23	983	1005	983	1005	0.98
20	44	1.2e-05	0.00094	19.1	2.7	1	23	1011	1033	1011	1033	0.98
21	44	0.21	16	5.7	0.9	1	23	1039	1061	1039	1061	0.88
22	44	3e-05	0.0024	17.8	0.9	1	23	1067	1089	1067	1089	0.97
23	44	3.1	2.4e+02	2.0	1.9	1	13	1095	1107	1095	1110	0.89
24	44	0.0038	0.3	11.2	4.0	2	23	1150	1172	1149	1172	0.96
25	44	5e-06	0.00039	20.3	4.4	1	23	1199	1221	1199	1221	0.98
26	44	0.00011	0.0084	16.1	1.1	2	23	1226	1248	1225	1248	0.92
27	44	0.27	21	5.4	1.1	1	23	1273	1295	1273	1295	0.97
28	44	0.76	60	3.9	1.9	3	23	1301	1321	1300	1321	0.98
29	44	0.009	0.7	10.0	1.2	1	23	1324	1347	1324	1347	0.96
30	44	0.055	4.3	7.6	5.8	1	23	1376	1398	1376	1399	0.96
31	44	0.00015	0.012	15.6	0.6	1	23	3009	3031	3009	3031	0.95
32	44	0.0053	0.41	10.8	1.7	3	23	3039	3059	3037	3059	0.97
33	44	0.0003	0.023	14.7	0.0	1	23	3192	3214	3192	3214	0.98
34	44	1.7	1.3e+02	2.9	0.1	1	23	3220	3243	3220	3243	0.96
35	44	0.0045	0.35	11.0	1.9	1	23	3273	3295	3273	3295	0.98
36	44	0.038	3	8.0	0.0	1	23	3310	3332	3310	3332	0.93
37	44	1.3	1e+02	3.2	0.3	2	23	3340	3362	3340	3362	0.95
38	44	0.01	0.82	9.8	2.8	2	19	3370	3387	3370	3391	0.95
39	44	0.041	3.2	7.9	0.1	3	23	3413	3433	3412	3433	0.97
40	44	2.4e-05	0.0019	18.1	0.4	1	23	3442	3464	3442	3464	0.98
41	44	0.01	0.81	9.8	0.2	3	23	3472	3492	3470	3492	0.97
42	44	0.0092	0.72	10.0	0.2	3	23	3500	3520	3498	3521	0.94
43	44	0.0026	0.2	11.7	0.0	1	23	3535	3557	3535	3557	0.93
44	44	0.0072	0.57	10.3	0.0	1	20	4003	4022	4003	4025	0.94

Sequence Information

Coding Sequence: ATGCAGGATACGCAACTGCGAAATAAGCAGCAGTATTACAACCCTACTTCTTTGGATAATTTAGAAGTTACTACGCCGATGCTTACGACAGCCAGCACGACCATTGAATCTAATATTACAAACCCACTGCCAAATCAACAGGACAATGACAAAAACGAAGCGTGTGattcagaaaaaattaataaatccaaCAGGTGCGAGCTGACAGAGGAGAGATCTTTCGCGACATACCGCTCCTCGTATAGTGCTGCACTGTGGACGAATAACGCCACGATAAAGTACGAAAGCATTCCAACGAGAAGCACGACGCTGATTGCAGAAAacgttaaagaaattttaaaaaaagagacacGTGATTCGTCGAATAACTGCAACGCAGTAAAATGCGACGAAAAAATAGACTCGAACGTCTcaagatataaagaaaaaaataaattgacagTTCTACAGTCAACGAGTAACTCTGTAAAGAACTATACTTGCGATAACTGCCGACGTGTTTTCAAAAGAAAGCACCATCTAATACGCCATATGACAGGCTGTAAACATCACGATTCAGCCAACGAAGAATATTTGTCAAGAACACGTACTAAGgtaacagaaaagaaaaagaagatagatGACAgtatgagaaaagaaaagaaccgGTTGATGGAAAATATTAAGAGCGCAAGCGACAACGAAGAACCTTACCTTTCATCAGTAAAATTATTGGGAAAACGATCCAGAATTTATCCATGCGGCTATTGTGAACACATTGCGGAGAAGAGGAAACTGTTAAAAGCCCATCTGGTGGAGGCACATCCCGAGGTCGCGAAGAGGAATCGGAAGTCCTTCGTAGCCACGGAGACAGTGATGCGTGCCCGAATGGAACATGACGGTAAAGTGTACTACCATTGCAACGAGTGCGGCAAAAACTTAAATTCGCCGTACACCTTCTACTGGCACCTGCGCATCCACACGGGCGAACGGCTGTTTACCTGCCACCTCTGTGGCAAGCGATTCCGCGTGAATCAAGGTTTGGCACGGCACCTGAAGGAGACCCACGCCGGCATCAAGAACGTGCCATGCGATCTGTGCGGCCGTATGTTCTCAACGCGGCGCAACGTTGAGGACCACAGGCGCATCCACACGGGCGAGCGGCCGTACGTCTGCAACGTCTGCGGAAAAACGTTCAAGCAAAAGGCCTCCCTCTTCGTGCATAATCGTACGCACACGGACGTGTTCCCGTTCAAGTGCAGCTACTGCGGCCAGACCTTCCGCACGCGGCCGCCGCTGATGTTGCACATCACCAAGCACACCGGCGAGAAGCCGCACGCGTGCGACGTGTGCGGCCGTCGCTTTCGTATCAAATACGAGCTGAAGCGACACCGACTGATCCATTCCGACGAGAAACCCTGGCGCTGCACCGAATGCAGCCTCTCGTTCCGCCAGAAGCGCTACTTAGTTAATCATAAGAAACTCAACCACGAGCCGCCACGCAATTCGGCCGTCCCCCAAAAAACTCGATCAACGGTATCCAGCGAGAAATGTCTTGCATCAACGCATCTTGGCGATTTTGAAGAGAAGTTAGAAAGAGACCATTCGGCAGATTCTCATCCCAACTTTGAGCAAACGCAGAAGTCTCAAGAAAAATCTATGATGAACTCTCAAGGATGTACGGAACGATCGAAAAGATTATCGGAACAACGTGCCGAATTAACTTGCTCGAGGACGATGGTGGAGAAGAAATGCACCCCTTACAAGTGTGAGGAGTGCGGGAAGGTCCTTTCCACGTCGTACAATCTGCTAATTCATCGCAACATTCATGCCGGCGTGCGACCCTACATCTGTTCCATTTGCGACAAGAGCTTTCGATCGACGTCTGGTTTGAACAGGCATGTGCGGTACGTCCACGACGGTGTTAAAAATTTCGCCTGCGACGTTTGCGGGCGTCATCTCGCCTCGAGAGCGTCGAGGGACGAGCACAGACGCACTCACTCCGGCGAGAGGCCCCACGTGTGCGAGACCTGCGGTAAGTCCTTCAAGCAGAAGGCGTCCCTGCACGTGCACCGACTCTACCATTCTCAGGTCCTGCCGCATCGTTGTGTTCTATGCGACCGCGGTTTCAGGAGGAAGCAGGAATTGGATAAACACGCATCCTGGCACTCCGATCGAAAGCCATACGCCTGCGATATTTGCGACGAGCGTTTCCGCAGCAAAGGTTGCGTCACCCGTCATCGGCGCACTCATACCAATCAGCGCTTGCACATTTGCGCGATTTGCGGCGCCAGATTCGCTCAGGAGCGATATCTGAAGAGACACTGTGGCAGTTTACACACAGCTGTATGCACattgaAGAATCAGATCGTCATCCCCGATCGGCTAATCGCCCACAGTTATTCTCGGCAAGCATATAAAATGGtagaatatagaaataaaaataatccaatTCAAACTAAAACGTCCAATATAATCGATGGAAATTCGGAGAGTACTTTTTCTTCCGCAGATAATAtcgataacaataaattaaccGAACATTTGTCTCCTACAAGTACATCTCATCAAATATCCTCTTCAAATGAATTGCCAAATGACACGAAGAAGAAAAGTACAGAAGACAAAGGTACTACTCTTGCTAGTCAGACGCGAGCAAGAAGTTACACGAAAAAGACAAAAGCTACATTATATACACAGCAAGAACACGCAGCGGAAGTGAACGAGTCTAATGAATATTTGGAGAAGAGCGTCAAACAGTCCAAAACCAAAAAGGCTGCCTCCACCAGCCCGGCGATGGTCTGCAAATTTTGTAACAAGAAATTTCGCTCGCGGAAAAGCTATTGGGcccacgtacgcacgcactcGGACGAGAAATCGTACACGTGCCACATATGCGGAAAACAATTCGTTCAGAGCGGTAGTCTATATTATCACCTGAAACACGTGCACGATGGCGTGAAGAATCACACCTGCGATATATGCGGCCGCAGCTTCGCCATGAAGACCGCCATGGAGGATCATCGACGTATCCATACCGGTGAACGCCCATACGTGTGTCACACTTGTGGCAAGACGTTCAAAACCAAGGCATCTCTCTACATACACAGCAAGATCCATACGGATGAATTTCCATACCAATGTACCTATTGCGCCAAAAGGTTTCGCTGGAGACAGCAAATGCTGGGTCACCTGACAGTACATACGGGTGAGAAAAATCATATGTGCGACATATGTGGCAAGGGTTTCGGCGTGAAGAACGACCTGACCAGGCACAAACGTGTTCATTCCGAGGAAAAGCCGTACAAGTGTAATCAATGCGGCGTCAATTTCGGCCAGAAACGCTGCATCCATTCTATCGAGAAACtacaatacaaattaaaaccATACGGCTGTGATCTACGAGTCTCCAACCCGATTCAATTGGACGATCATGTTTTCGCGAATCATGCAGAAGTCACAGCTCTCAAATGCTGTCATTGCTCGAGGATCTTCGCCGACGAGAAATCGCTTAAGAATCATATTCAAGTGAAGCACAAGTTACAATATTGTCGCTGTTCATTTTGCAGTACACCTTACGAAAATTTTAGACGTTTGAAGACGCTCAGTAAACAATATATGTGTCCATACTGTCACAAATGTTTCTACAGATGGAAAGATTTAAGTGTTCATATGAGCATACACGAGAAGCTAATGAGATGCAAAATATGTGGGAAGAAGTTCAGTACAAAATGGTTGATGCGGCAGCATTTGATCGATAAACATTCAGAAAAGGAATGCGATTGGTCACCAAAGGTGTGTTTGAACGAGCACATGCAAGACCATATCGGAATGACTTACACGTGTGATTGCTGTAAAGTAATCTACGATACTTGGTCAAGTTTCCGAGAGCATTGGTTAGTTCATAGGCACATGGTATTCTGTCCTTATTGCTATAAAGTGCATACTAATTATTGGAGATTGAGACTACATTGGAGAATGCACgAACCATTTGAGTGCGACGTATGCTACGACACGTTCAAGACATTATCAGATTTGAGGGATCATCACATCTCGTTGCATCGCGAGTTACCATTCGATTTACCGTTTCGTCCAataaaaatgcgTTTGGACGAGCACATGCAAAGATACCATGCTGAGGCAACTTACACGTGCAATCATTGTAATTTAATCTGCGAGACTTGGCGAACATTCCAGGAACACATTTATGTACATCACAACGACATGTCCAGCGAATACGTGACAAAGCGGTTGtgtttctcgtttcttttctcGGTCGGTTTTCTGTGTCTCCTCTGCGGCTTTCTGTTGGGCCGCTTCGCCGTTGAGAGATCGTTGGAGGCTCAAGCACAAAAAACGCGCGGCGAATTAGCCGGAAATGGTCTTTGGAACACGGAGTATCTTCAGCAACTGGCACTCCGGGAATTGGAAAGAGCGCCGTTCGACTACGATCGCACGACaaATCGGCAAACGTTGGATGAAGATATGCGACACATTAGTGGGCTCTTTTCCAACTTGTCATTTGTTCACAAAGTGTCTAAACATGCATCATGCATTCGCGCAAGTGTCCACGGTTCGCGGGAACCAGATAGATATGTTATCTTATCCGTTAATGAAGACAGTATCGCTGTAGCTCTGGAATTGGCACAAGTCCTGGACAAAATTTCTTCAGAGTACAATTGGCGACCACGACGAAGTTTGGTCTTCTGCGTATCCCTTGTGTCTTCGGACGTTTGCTCACAGGCTCTGTCTACGTTCATGTGGCGAAAGGTTTTGGCTTACGTCACAGTGCATGGTCGTTTCACGCGAGCTAACAGTCACGTGGCTTTGTCCGGATCGGACATCATGCGGTCCGTCGCTGTTGAAGCCATCAAGACAATCCCCGGCGATAGTAACTGGACATACCTCGAGCACGAAATGTTCGGTCCCCGCCTTCCTCTAGATATTCCGCAAGTGATATTTTCGTTCaataataataatcttgcaTATAGtcatcaaaatcaaaattccCGACTACACGACGTAACTCTGGCGCAGATGGTTAGCCAAACTATGTGGCGACTGTCCGAAAGTACAGTTATTCAATGGGAGccaagatattttaatgaaaccgTTAACAGGATATTGGAGTCGATCGACACCAGCAGGTTTCGGGACGCGAAGGAGAAGTTGAAGAGAACGTTGAAAGTATTGCTCGCAGGCGCGAAAGAGCTCAATGCAGAAATCGACGCGACAGATAATAACCAGATGCTACGCATGAGGATATGGAACGATCTGCTTCTAGACCTGGACAAGGCGCTTTTATGTCCTGACAAAACTGATTCGCATTCCAGAACCGATCTAGCGACGTTTCGCGAATCTATCAGCGAGCCTACCATATTAGCCTACCTCGAACAAATGGCAAAATGTTACGAGGACGCTATAAAAAAGTCATCGGTGCGGCTGCACGTGCGTGAAAACCGGACACTCATGAGCAATTATGTCACGATTGCCTTGCGATTGTGGGTCACGAGACAACGTGCAAGAAGCAGCATGGCCAATAGTGACAAGCCGGAAGGTCGCGTTCTGGTGCTTTACACAGGTGGCACGATAGGAATGATGAGGAATGAGCAAGGAGCGCTGATACCGATAACTAATGCGTTTGTTAAAAATCTTCGGAAATATCCACAATTGCACGATCGCGAGTACGCCGAAAAAAGATTCGGCGCGATGGGACCACTAGTATTGCCCGTGACCGCAACCGACAATCGTCGGGTCGTTTACAGCGTATTCGAATACTCGGAACTCTGCGATTCCAGTAATATGACTATGGACGAGTGGATTCGCATTGCTAACGATATTAAGGAATCTTACGAGCGTTTCGACGGATTCGTGGTCCTTCACGGCACCGACACCCTCAGTTACACCGCGTCCGCCCTATCCTTCATGCTCGAGGCTCTGGGCAAGATCGTCATTCTGACCGGTTCGCAGGTGCCGATTTTCGACACGAGGAGTGACGGTCTGGACAATTTTCTCGCGTCTCTCGTGATCGCGGCGAATTATAATATACCCGAAGTATGCGTATTCTTCGGTACGAACTTGCTGCGCGGCAATCGCACGAGCAAGGCATCAGCGACGTCCTTCGAAGCCTTCCAGTCACCGAACTTTCCACCCCTCGCCACGGCAAACATCAAGATCGAAGTGGATTATCGCTCGATTTTCCGTCCATGTACCATGGAAAAGTTCTATGTACACGCGTCGCTCAATCGAAATGTAGGCCTGCTCCGATTGTTTCCCAGCATCACGTCTGACTTGGTCAAGGTGTTTCTTCAACCGCCTATGGAAGGGGTCATACTGCAATCCTACGGCACGGGGAACATCCCGACAAATCGCGATGACATCATCGAGGAGTTTCGCGCGGCGACGAGGCGGGGTGTGATCATCGTGAATATCACGCAATGCGCGAGTGGATGCGTCTCGGACGCATATGAGGCTGGAAAACTGCTCCAAAAAGCTGGTGTGATATCGGGCTTTGATATGACACCGGAGGCAGCATTAACGAAACTCGCGTACGTTTTATCGAAAAACAATTGGGACACTGAAACTAAACGGCAAATGATGCAAACGAATTTACGAGGCGAGCTGACCGCCGGTCGGCCACCCATTATACAGGACTGGGATCTGGTGGAGGCTGTCGCTAGGTCCTTGAGATTATCCTCAATGGCGGAGCTTCAGGATCTGGGAGCGATCCTGTTCCCGGCTATGCTGAACGCCGCAGTGATCAGGCACGACGTCGTCAAACTCGAGTCTTTAAAAGGATACGGCGCGGATATCTCGCTGGCGAACGCAGACGGCCGAACGGCTTTGCACATAGCTTGCTGCGAGGGTGATATGAAAGTCGTGCGAAGTCTTTTAAAAATGGGCGCAAATGTTCACATTAAGGATCGATTTGATCGCACGCCTCTTACCGACGCGATCGAATATGATCGTCATGAGATTATTAGGGTACTGCTGCAGTGTGGAGCGCATCTTCACGGCGACGCTGTGTCGATCGGCGAGAAGATGTGCTCAGCCGCAACCGCCGGAAACACGAAGCGTCTGCACTCGTATTTGATGGCCGGCGCCGATCTATCGCAGAAGGACTCTTCTGGACGCACACCGCTGCATTTCGCCGCTCTTCACGATCGCGTGGAAGCGGTCAGGTATCTGTTGGATCACGGTGCAGATTCGGGCTGCGTCGACATGCTAGGAGAAACAGCGACGGATCTCGCGGAGACTGTGCAAGCCGAAGGTGCCATATGTTTGTTAGCACCTTTCAAGCAGAACGGCGTCCACGATGAGatgACGTTTTGTATTTCGCGAAGTTTAACTGTGGCAATAAGCTGCTTCGCCATTCTGATCAATTGCAGTCCGAAGTTCGATGATGGAGGATTTGTGCCGAGCTCTATCAGCTACATGGAAAAGCAGGCAAAGGCGCAGGATCAAGTGGCCATGCCGTCGTCTCAGATTAAACAGCACAATGAACCATCGAAACGCGAATCCGAGACAAACGACATCGTGGATCGCGGCCAGGAAGCGCGATTTGGTTTCACCAATGTCGGAGGTACTGGGAGTGGTTACGGAGTGTCGCCTTATGCGCCGGCAAAGATAGATCTTGGCGGACTTCTCTTGGGAGCCATTATAGGCGTGGGATCGATCCTCATCATCCCAAAGCTGCTCTATATCCTGTCGGGCACTTATGGCGCGTACGCGAGAAGTGATGACAACGGCTTCACCCAGACCCTGACGAGGATTGACGATGTCCTGGCCCGTTACGGCATCGACACGACCTCATGCATGCAACGCGCGGTATGCACCTACTCGCAGCAGGCGGCTGCCGCGGCGGGTGACGAAAACGAGAACGAAAACAGGAACGATAAGGACGAGAAGACGACGTCCTTCGAGAAGATGGTGAACGCAGTTACCACCAACCAGGTGTTCCGCACGGCCATGCAAGGCACGGCGATCGAGGAGGCGGTGGAGACTGGTAGAAACGGCAGAAACTGCTCAAGATCGTATCCACATTGCGGCTTCTCGATGGAGACGATGCTATCGCTGCTGGCTAACGTCATCGCGACGGCAAACGCGCGCGTCACGACGCCCACTGACTCCTCGTCATTAATGAAATCTCTGAATGTATCTTGCGACGGTTTTCCCACGTGTCTGGTTCTAATTAACGATGAGAACAAGGTTCTCGGGCACTGCAAGATATCTCTGGTGGCCAGATCGAAAGTCAGCTGCTTCATAGAGTCTGTTGTAATCGACTATCGGTGTAGATCTCGAGGATTAGGATCTAGACTGTTGCGCGGCGTGGAGGAGTACGTCGCGAAAAGAGGCCTGAAGAACATCTACCTAAAGACGGACGGTCAGGAAGTGTTTTATTACAAGAACGGATACAAGGTGTGCGATCCATTTAAAGCTTACGGCATTAACGACATCATAACCGCCAGTCCGCCCCTCGGCAGGACAAGATTCAAAGAACGGAACGGCGATCAGTCCGCCGGACaaccgccaccaccaccaccaccgccccCGATGCCGGCGTTTCAATTGTCAAAGTTTTTCGACATGCGTATGCTGTCTCAAAAGACGCACATGGTGAAAAAATTCGGTGATCTGAATCTACAATGGGTGGGAGACGTGGAGCTTCACGAGGAGGTGATATGCGGCCTGGAGGCGCAGCTGGTCGCATCGGAGGAGGAGGTGATTGGCGCCTGCGAGGAGGTAACGGTGGAGGAAACCGTCGAGTCTGTTCCCGACGTGGTACCTGCCGCCGAGTCCGAGATCCTGATGGTACCTCAGACCAACGACATGGAATCGATCTACATAGTGCCACAAGATCAGGGGCACGACTATCTGAACATACAAGTCACCGAGGAAGTAATAGCTGACAACTGGGACAGACCCGGTCCAGATGACGGgGTCGAGATTCCAGAGGCTAAGGTGACTCATGACACTCTCCTGGAGTACGATGACATGGAAATACCGTTGCCGATCGATCAGGATTCTTACCAGAATGCTCGGCCGTATCCATGTGACTTTTGCAGCCGTAGGTTCCGAAAGAAGGCAAATTTGATGAATCACATTGTGGCACACCAGACAGATCGGCCATACGGTTGTAATCTGTGTGGATCGCGCTACGTACGCAAGTGTGATCTAAACAATCACCTGAAGGTCCATGCGTATGCCCCGTCGTCGCAAGACGGCCTCGAGGATGACCTGAATGACGAGGATTTGCTGGTTGCCGAGCAGGAGGAGGACGTGTCGACTGGCGGTAACAAAGGCAGGCGCAAGAAGGTGCAATCGAGCGTGCCTCGCAAACGGAAGAACAACACCGCCGCTGGTATGCCAAAACGTAATGCCGAGGAAATCAAGATAGAGATGGGCAAGTATGTGTATAAACCAGACGATGCTTACAAGGACGCGCTATCTTTCTACGAGGATGAGCTGACCGATGGTTATTTTGCACGCAGTGGCAATTACGCATCTAGCTCGAGGTGGCAGATGGAGGAGATATCGTCTGCCACGGGCAGACAGCAGCCACAATCGTGGCCTATCACCGATCCAACAAAGCCGTACGTCTGCCAGTCCTGTGGTATCAGCTTTGCTAGGGAGAAAGCACTTGCGTCACACGCGCGCGTTCACGGTGGCGACAGTCCGTTCGAGTGCACGTCGTGCGGCGACATGTTCTGGGATGTCAACAGTCTGCGAGAACATGTACGCATAAAGCACGGTGGCACCATTCCCCAACAGATATCTGATGCAGAGGAATATGAAAATGACGTCACTTACACGGGCGACAACGAGAGGATCGGCGAGTTTTATTGTAGCACCTGCGCGGTACCGTTCCATCGTTTAGATCTACTTAAACGCCATCAAAaAATTCACATAAAGACGGAGATGGACACAATGGAAGGTTCCAGTCAGCATCACATGTGCAATGTTTGCGGAGAAGAGTTCACGGAAGCTCTAGCACTATTAGCACATGCGGAACTTCATGCTTCAAGATCTCCTAGTCGTCGTTGCTTATTGTGCGGGGCAAGATGCCGTGATGAAGCAGAAGTTGCGGAGCATGTGCGACAGAACCACGCTGAGAACGCGCCGCCAAATACGTGTACGCTGTGTGGAAAAACTTGCAAGGACAAGCGCAGTTTGCTGAAACACTCTTGGATACACAATGTCGATAAGACTTTCGGTTGTACAAAACATATGGTATCTCACCGTAACAAAATGGTAGCTTGCGACGAGTGCGGCGAGGAATTCCCCGACGGACGGGCTCTTGTAAGCCACCGTCATTCTCATAATAGGGAACTGGGCGGCCGTTCTTTTCCATGCCGCGAATGCGGGAAAACCTTTGGTAGTCGCAGCTCACAGCAGATCCATATACGTATCCATACTGGCGAGAGGCCCTATGGTTGCCGATTTTGTTGGAAGGCTTTCGCAGACGGCGGTACCTTGAGAAAACACGAGCGCATCCATACTGGCGAAAAGCCATACGGGTGCGCGATCTGTCCTCGGGCATTTAATCAGAGAGTGGTTCTCCGGGAACACGTGCGCGCCCATCATTCCGGTCCAGATCCAAAATGCGTGGGCAGTATAACGCCGTATTTGTGTAAGGTATGTGGCGAGTCATACAGCACGTCTGAGCAAATAGTGGCACATATAGTGCAACATTGCGATGACAACACTGCGTTGAGACGCCAACCACAGAATGGGCCGCGCAAGTATAAGAGAAGACGCAAAACGAAACTTGAGACGAATACAGTGGTACGTAAAGACGAGTTTACATACGACATGATGGAAAATAGCGGTGGCGCCGGTGGTGGTACCGGTAGTGGTACCGCCGGTAATATCAGTGGAAGTGGTGGTGTTGGCGGCAGCGGCGGTACTGGCACTGGCGTTGGCGTTGGCGTTGGCGTTGGCGTTGGCGTTGGGACTGGCACTGGCACTGGCACTGGAGGTTCCGATTCGGAAGACAATACAAAGCGGAAACTTGGCAAGAAGAACAAACAACGATCGAACGTCGAGGAAGGCTATGAGAAACTACTGAAAGGCTTTGACAGCTCTCTACAGAACATAAACTCGATTGTGAGTAACTCCAAGTTAAATGCATCCAAATCGAAGGTCTCGAAGAAGAAGCTACGCAAGGATGAGAAGAAGCAAGAAGCGCAGACATCGAACCAGTCAGGCCGACCGAAGATGATTCACACACAGAAGACGCGAGTGCCGGTCGAGGTGGGCAGCGATGGCGCCAAGAAAGGCCAGAAGACGAAGACAATGGTTACCCGGACACCAAAGGTCATGCCGAATGAGCATAAGTCCGGCATCTTTCCAGGTGGCGAACGGAATCGGCCGCGCACAAAGAACGTCAGTTATCACGTTGAAGGTAAATCACAGCTCACGCCGGCGACGTTTCCGACAAAATCGACCAAGGAGAATGCGTCTACCATGTCGACACAGCAGCTACTGGCTGTTAACGTCAAGAAAGAGCCAGGCATGCAAAAGGCCACAAGTGACAGTCGCAGGAACAACAATGGTAATATCTTAGCTCTTGGTAAAACTCAGGCGTCAGCAAACAAGAAAAGATCGTCTACCGTAAAGAGGAGCAAGCGGCAGAAGCAGCCGGTAGTGAAGAAGGTATTGAATACGTTGATCGAAACAAACGTGGTagagcaacagcaacaactgCAGGTGTTACAGTTacggaataataataataacaataacagtACCATGGAGAACAGCGGCGATCCGGCACGACTGATGGAACACGCAGTGGATGGTAGTAATCTGGAAGTAGCTTTTGAAGCGAGCGTCATTACCGCTCAGGATGACGACGAGGTCGAGAGCATATTGCCACACAGCACTGTGCGAGAGATGGGCAATAGGGACAACGTTAAGCTCAGTGTCAAGGTGGAATCGACATCGCAAACGAGGATGATGACTATCCATAGTGTTATCGCGCCGGTAGACGATGTCCCAGAAACGATAATACCGGACACATTGGAGTATACGTGCGAGATGTGCTCCGCGGTGTTCTCTAGCCGTGCCGAATTATTGGTACACGTACCGATACacatttga
Protein Sequence: MQDTQLRNKQQYYNPTSLDNLEVTTPMLTTASTTIESNITNPLPNQQDNDKNEACDSEKINKSNRCELTEERSFATYRSSYSAALWTNNATIKYESIPTRSTTLIAENVKEILKKETRDSSNNCNAVKCDEKIDSNVSRYKEKNKLTVLQSTSNSVKNYTCDNCRRVFKRKHHLIRHMTGCKHHDSANEEYLSRTRTKVTEKKKKIDDSMRKEKNRLMENIKSASDNEEPYLSSVKLLGKRSRIYPCGYCEHIAEKRKLLKAHLVEAHPEVAKRNRKSFVATETVMRARMEHDGKVYYHCNECGKNLNSPYTFYWHLRIHTGERLFTCHLCGKRFRVNQGLARHLKETHAGIKNVPCDLCGRMFSTRRNVEDHRRIHTGERPYVCNVCGKTFKQKASLFVHNRTHTDVFPFKCSYCGQTFRTRPPLMLHITKHTGEKPHACDVCGRRFRIKYELKRHRLIHSDEKPWRCTECSLSFRQKRYLVNHKKLNHEPPRNSAVPQKTRSTVSSEKCLASTHLGDFEEKLERDHSADSHPNFEQTQKSQEKSMMNSQGCTERSKRLSEQRAELTCSRTMVEKKCTPYKCEECGKVLSTSYNLLIHRNIHAGVRPYICSICDKSFRSTSGLNRHVRYVHDGVKNFACDVCGRHLASRASRDEHRRTHSGERPHVCETCGKSFKQKASLHVHRLYHSQVLPHRCVLCDRGFRRKQELDKHASWHSDRKPYACDICDERFRSKGCVTRHRRTHTNQRLHICAICGARFAQERYLKRHCGSLHTAVCTLKNQIVIPDRLIAHSYSRQAYKMVEYRNKNNPIQTKTSNIIDGNSESTFSSADNIDNNKLTEHLSPTSTSHQISSSNELPNDTKKKSTEDKGTTLASQTRARSYTKKTKATLYTQQEHAAEVNESNEYLEKSVKQSKTKKAASTSPAMVCKFCNKKFRSRKSYWAHVRTHSDEKSYTCHICGKQFVQSGSLYYHLKHVHDGVKNHTCDICGRSFAMKTAMEDHRRIHTGERPYVCHTCGKTFKTKASLYIHSKIHTDEFPYQCTYCAKRFRWRQQMLGHLTVHTGEKNHMCDICGKGFGVKNDLTRHKRVHSEEKPYKCNQCGVNFGQKRCIHSIEKLQYKLKPYGCDLRVSNPIQLDDHVFANHAEVTALKCCHCSRIFADEKSLKNHIQVKHKLQYCRCSFCSTPYENFRRLKTLSKQYMCPYCHKCFYRWKDLSVHMSIHEKLMRCKICGKKFSTKWLMRQHLIDKHSEKECDWSPKVCLNEHMQDHIGMTYTCDCCKVIYDTWSSFREHWLVHRHMVFCPYCYKVHTNYWRLRLHWRMHEPFECDVCYDTFKTLSDLRDHHISLHRELPFDLPFRPIKMRLDEHMQRYHAEATYTCNHCNLICETWRTFQEHIYVHHNDMSSEYVTKRLCFSFLFSVGFLCLLCGFLLGRFAVERSLEAQAQKTRGELAGNGLWNTEYLQQLALRELERAPFDYDRTTNRQTLDEDMRHISGLFSNLSFVHKVSKHASCIRASVHGSREPDRYVILSVNEDSIAVALELAQVLDKISSEYNWRPRRSLVFCVSLVSSDVCSQALSTFMWRKVLAYVTVHGRFTRANSHVALSGSDIMRSVAVEAIKTIPGDSNWTYLEHEMFGPRLPLDIPQVIFSFNNNNLAYSHQNQNSRLHDVTLAQMVSQTMWRLSESTVIQWEPRYFNETVNRILESIDTSRFRDAKEKLKRTLKVLLAGAKELNAEIDATDNNQMLRMRIWNDLLLDLDKALLCPDKTDSHSRTDLATFRESISEPTILAYLEQMAKCYEDAIKKSSVRLHVRENRTLMSNYVTIALRLWVTRQRARSSMANSDKPEGRVLVLYTGGTIGMMRNEQGALIPITNAFVKNLRKYPQLHDREYAEKRFGAMGPLVLPVTATDNRRVVYSVFEYSELCDSSNMTMDEWIRIANDIKESYERFDGFVVLHGTDTLSYTASALSFMLEALGKIVILTGSQVPIFDTRSDGLDNFLASLVIAANYNIPEVCVFFGTNLLRGNRTSKASATSFEAFQSPNFPPLATANIKIEVDYRSIFRPCTMEKFYVHASLNRNVGLLRLFPSITSDLVKVFLQPPMEGVILQSYGTGNIPTNRDDIIEEFRAATRRGVIIVNITQCASGCVSDAYEAGKLLQKAGVISGFDMTPEAALTKLAYVLSKNNWDTETKRQMMQTNLRGELTAGRPPIIQDWDLVEAVARSLRLSSMAELQDLGAILFPAMLNAAVIRHDVVKLESLKGYGADISLANADGRTALHIACCEGDMKVVRSLLKMGANVHIKDRFDRTPLTDAIEYDRHEIIRVLLQCGAHLHGDAVSIGEKMCSAATAGNTKRLHSYLMAGADLSQKDSSGRTPLHFAALHDRVEAVRYLLDHGADSGCVDMLGETATDLAETVQAEGAICLLAPFKQNGVHDEMTFCISRSLTVAISCFAILINCSPKFDDGGFVPSSISYMEKQAKAQDQVAMPSSQIKQHNEPSKRESETNDIVDRGQEARFGFTNVGGTGSGYGVSPYAPAKIDLGGLLLGAIIGVGSILIIPKLLYILSGTYGAYARSDDNGFTQTLTRIDDVLARYGIDTTSCMQRAVCTYSQQAAAAAGDENENENRNDKDEKTTSFEKMVNAVTTNQVFRTAMQGTAIEEAVETGRNGRNCSRSYPHCGFSMETMLSLLANVIATANARVTTPTDSSSLMKSLNVSCDGFPTCLVLINDENKVLGHCKISLVARSKVSCFIESVVIDYRCRSRGLGSRLLRGVEEYVAKRGLKNIYLKTDGQEVFYYKNGYKVCDPFKAYGINDIITASPPLGRTRFKERNGDQSAGQPPPPPPPPPMPAFQLSKFFDMRMLSQKTHMVKKFGDLNLQWVGDVELHEEVICGLEAQLVASEEEVIGACEEVTVEETVESVPDVVPAAESEILMVPQTNDMESIYIVPQDQGHDYLNIQVTEEVIADNWDRPGPDDGVEIPEAKVTHDTLLEYDDMEIPLPIDQDSYQNARPYPCDFCSRRFRKKANLMNHIVAHQTDRPYGCNLCGSRYVRKCDLNNHLKVHAYAPSSQDGLEDDLNDEDLLVAEQEEDVSTGGNKGRRKKVQSSVPRKRKNNTAAGMPKRNAEEIKIEMGKYVYKPDDAYKDALSFYEDELTDGYFARSGNYASSSRWQMEEISSATGRQQPQSWPITDPTKPYVCQSCGISFAREKALASHARVHGGDSPFECTSCGDMFWDVNSLREHVRIKHGGTIPQQISDAEEYENDVTYTGDNERIGEFYCSTCAVPFHRLDLLKRHQKIHIKTEMDTMEGSSQHHMCNVCGEEFTEALALLAHAELHASRSPSRRCLLCGARCRDEAEVAEHVRQNHAENAPPNTCTLCGKTCKDKRSLLKHSWIHNVDKTFGCTKHMVSHRNKMVACDECGEEFPDGRALVSHRHSHNRELGGRSFPCRECGKTFGSRSSQQIHIRIHTGERPYGCRFCWKAFADGGTLRKHERIHTGEKPYGCAICPRAFNQRVVLREHVRAHHSGPDPKCVGSITPYLCKVCGESYSTSEQIVAHIVQHCDDNTALRRQPQNGPRKYKRRRKTKLETNTVVRKDEFTYDMMENSGGAGGGTGSGTAGNISGSGGVGGSGGTGTGVGVGVGVGVGVGTGTGTGTGGSDSEDNTKRKLGKKNKQRSNVEEGYEKLLKGFDSSLQNINSIVSNSKLNASKSKVSKKKLRKDEKKQEAQTSNQSGRPKMIHTQKTRVPVEVGSDGAKKGQKTKTMVTRTPKVMPNEHKSGIFPGGERNRPRTKNVSYHVEGKSQLTPATFPTKSTKENASTMSTQQLLAVNVKKEPGMQKATSDSRRNNNGNILALGKTQASANKKRSSTVKRSKRQKQPVVKKVLNTLIETNVVEQQQQLQVLQLRNNNNNNNSTMENSGDPARLMEHAVDGSNLEVAFEASVITAQDDDEVESILPHSTVREMGNRDNVKLSVKVESTSQTRMMTIHSVIAPVDDVPETIIPDTLEYTCEMCSAVFSSRAELLVHVPIHI

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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