Basic Information

Insect: Diplolepis rosae
Gene Symbol: -
Assembly: GCA_030998225.1
Location: JAPYXD010000720.1:614577-621413[-]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
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 41 0.44 1.3e+03 1.3 0.9 30 58 59 87 54 93 0.70

2 41 0.13 3.9e+02 3.0 1.2 38 63 105 130 101 132 0.69

3 41 0.23 7e+02 2.1 0.1 38 58 157 177 153 182 0.81

4 41 1.2e-07 0.00037 22.3 3.1 25 62 216 253 212 255 0.92

5 41 2.9 8.7e+03 -1.3 0.4 32 63 316 347 313 355 0.64

6 41 0.71 2.1e+03 0.6 0.2 27 63 363 399 360 401 0.81

7 41 0.0014 4.4 9.2 8.8 23 61 433 471 424 474 0.90

8 41 0.026 80 5.2 3.0 28 62 504 538 500 540 0.88

9 41 0.02 59 5.6 4.0 23 64 545 589 542 590 0.87

10 41 0.0015 4.6 9.1 3.3 24 51 577 604 574 616 0.86

11 41 0.068 2e+02 3.9 5.0 31 64 612 645 606 646 0.83

12 41 1.6 4.9e+03 -0.6 8.8 40 62 674 699 651 712 0.54

13 41 0.052 1.6e+02 4.2 4.7 24 64 689 729 688 730 0.94

14 41 0.00011 0.33 12.8 7.8 21 63 735 777 732 779 0.95

15 41 0.092 2.8e+02 3.4 4.6 35 57 784 806 782 814 0.83

16 41 7.3e-07 0.0022 19.8 0.5 24 64 815 855 811 856 0.92

17 41 0.045 1.4e+02 4.4 5.3 25 61 851 887 850 891 0.70

18 41 0.46 1.4e+03 1.2 2.3 21 61 889 929 889 932 0.88

19 41 0.00014 0.43 12.5 4.8 26 63 936 973 934 975 0.91

20 41 0.0039 12 7.8 3.0 24 58 962 996 961 999 0.92

21 41 0.00042 1.3 10.9 2.0 23 63 989 1029 986 1031 0.93

22 41 0.66 2e+03 0.7 2.9 33 64 1041 1072 1030 1073 0.84

23 41 0.0012 3.7 9.4 7.6 33 65 1062 1094 1050 1094 0.88

24 41 0.00052 1.6 10.6 9.9 21 64 1071 1114 1070 1115 0.95

25 41 0.0038 12 7.9 4.3 29 56 1107 1134 1102 1137 0.88

26 41 2.3 7e+03 -1.0 7.4 39 64 1201 1226 1148 1227 0.66

27 41 0.00017 0.5 12.2 5.7 22 63 1205 1246 1196 1255 0.64

28 41 0.0047 14 7.6 0.2 33 63 1258 1288 1249 1290 0.90

29 41 0.00035 1.1 11.2 1.1 26 64 1300 1338 1295 1345 0.80

30 41 0.011 32 6.4 1.3 22 63 1317 1358 1317 1360 0.84

31 41 9.9e-05 0.3 12.9 0.4 25 62 1362 1399 1358 1401 0.76

32 41 3.5e-05 0.11 14.4 2.0 25 63 1404 1442 1403 1443 0.94

33 41 9.2 2.8e+04 -3.0 0.6 39 58 1453 1472 1446 1479 0.58

34 41 0.0015 4.6 9.1 1.0 24 64 1501 1541 1497 1542 0.88

35 41 0.0032 9.6 8.1 4.2 26 63 1542 1579 1539 1581 0.89

36 41 0.00027 0.81 11.6 5.5 27 60 1571 1604 1569 1609 0.91

37 41 0.012 37 6.2 6.0 25 64 1583 1622 1581 1630 0.87

38 41 0.0049 15 7.5 1.6 28 64 1628 1664 1612 1665 0.85

39 41 0.0088 27 6.7 0.5 27 64 1662 1699 1659 1700 0.89

40 41 0.22 6.6e+02 2.2 1.6 24 59 1708 1743 1705 1747 0.83

41 41 0.0002 0.61 12.0 1.6 24 59 1764 1799 1761 1804 0.74

#	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	41	0.44	1.3e+03	1.3	0.9	30	58	59	87	54	93	0.70
2	41	0.13	3.9e+02	3.0	1.2	38	63	105	130	101	132	0.69
3	41	0.23	7e+02	2.1	0.1	38	58	157	177	153	182	0.81
4	41	1.2e-07	0.00037	22.3	3.1	25	62	216	253	212	255	0.92
5	41	2.9	8.7e+03	-1.3	0.4	32	63	316	347	313	355	0.64
6	41	0.71	2.1e+03	0.6	0.2	27	63	363	399	360	401	0.81
7	41	0.0014	4.4	9.2	8.8	23	61	433	471	424	474	0.90
8	41	0.026	80	5.2	3.0	28	62	504	538	500	540	0.88
9	41	0.02	59	5.6	4.0	23	64	545	589	542	590	0.87
10	41	0.0015	4.6	9.1	3.3	24	51	577	604	574	616	0.86
11	41	0.068	2e+02	3.9	5.0	31	64	612	645	606	646	0.83
12	41	1.6	4.9e+03	-0.6	8.8	40	62	674	699	651	712	0.54
13	41	0.052	1.6e+02	4.2	4.7	24	64	689	729	688	730	0.94
14	41	0.00011	0.33	12.8	7.8	21	63	735	777	732	779	0.95
15	41	0.092	2.8e+02	3.4	4.6	35	57	784	806	782	814	0.83
16	41	7.3e-07	0.0022	19.8	0.5	24	64	815	855	811	856	0.92
17	41	0.045	1.4e+02	4.4	5.3	25	61	851	887	850	891	0.70
18	41	0.46	1.4e+03	1.2	2.3	21	61	889	929	889	932	0.88
19	41	0.00014	0.43	12.5	4.8	26	63	936	973	934	975	0.91
20	41	0.0039	12	7.8	3.0	24	58	962	996	961	999	0.92
21	41	0.00042	1.3	10.9	2.0	23	63	989	1029	986	1031	0.93
22	41	0.66	2e+03	0.7	2.9	33	64	1041	1072	1030	1073	0.84
23	41	0.0012	3.7	9.4	7.6	33	65	1062	1094	1050	1094	0.88
24	41	0.00052	1.6	10.6	9.9	21	64	1071	1114	1070	1115	0.95
25	41	0.0038	12	7.9	4.3	29	56	1107	1134	1102	1137	0.88
26	41	2.3	7e+03	-1.0	7.4	39	64	1201	1226	1148	1227	0.66
27	41	0.00017	0.5	12.2	5.7	22	63	1205	1246	1196	1255	0.64
28	41	0.0047	14	7.6	0.2	33	63	1258	1288	1249	1290	0.90
29	41	0.00035	1.1	11.2	1.1	26	64	1300	1338	1295	1345	0.80
30	41	0.011	32	6.4	1.3	22	63	1317	1358	1317	1360	0.84
31	41	9.9e-05	0.3	12.9	0.4	25	62	1362	1399	1358	1401	0.76
32	41	3.5e-05	0.11	14.4	2.0	25	63	1404	1442	1403	1443	0.94
33	41	9.2	2.8e+04	-3.0	0.6	39	58	1453	1472	1446	1479	0.58
34	41	0.0015	4.6	9.1	1.0	24	64	1501	1541	1497	1542	0.88
35	41	0.0032	9.6	8.1	4.2	26	63	1542	1579	1539	1581	0.89
36	41	0.00027	0.81	11.6	5.5	27	60	1571	1604	1569	1609	0.91
37	41	0.012	37	6.2	6.0	25	64	1583	1622	1581	1630	0.87
38	41	0.0049	15	7.5	1.6	28	64	1628	1664	1612	1665	0.85
39	41	0.0088	27	6.7	0.5	27	64	1662	1699	1659	1700	0.89
40	41	0.22	6.6e+02	2.2	1.6	24	59	1708	1743	1705	1747	0.83
41	41	0.0002	0.61	12.0	1.6	24	59	1764	1799	1761	1804	0.74

Sequence Information

Coding Sequence: ATGTGTGATTCACAAGATAAATTTTGCCATTGTGGCTGCGATGCTCCAGGAAGTTTTGAACCCGAAGATCCACCACATGAACCCTGTTGTTGTTGTAATTACAATCCGTTCAGTGATAATTCTAAGGATGTAGAAATTTACGATCTGCCTTTTGCCCTTCGAAAACTTACGGTAATGAAATGTCAAATGAAAAAATGGCGAATGGAACGACTTCAATTGGAGAGTGAAACTCGATCATTAAAGCAAGCACTTCAACAATatgggATTCAAGTCGATGAGGCCTTAAAACCTGATCCTTTGATTGTCCACTACCGAGAGGAAAATTTAAGACTCCAAAATGTCAATGAGGAATTGGAGGATAAAATTAAAGACCTCACTGAGACTTTAAATGAACGTGATTACTCTGATGACCCATGTGATTCTGTAAAgtatattagaaacaaaataaaggaTCTCCGAATGAATTTTGCTTCTGAGAAAAAACAattgaagaataaaatagCTGCCTTGAGCTTGAAGCTTGCACAAACTGATGATGACACTTCTTGCTCAGCATTAAATCGTCTAAGAGCAAAACTTCGCGAATTGATGAAAGGTGGACAAAAAGCCGACAATCAGGTGTCAATGGTCGTGGAAAAATCCATAGAAACAATGGTGGAACTTTCAAAAAGCTGTGAAGATTTGAAGAGTGAGAATGAAAAGCTTCTAGCCGAAATCGAAGCCCTTCGAAGAAAACTTGGGCAAGCTTCACAAATGAATGAAATGGGGCTCCAGTCATCGAATTTGATGGAAGGACAAGCAGACTCTTCTgatttaaatgataaaattgaaaaatatgagGCTCTTGTTGCTGATTTGATGAGGCAACTTGCTGAGAAGGATGAAACTATCAATGATTTGGAGAAGAGGCTTTATGATGAGAAAATAATTTCTGGACAGTTTGAACAAGATTTGGACAAGATGACTATTAGTCAGAAAGCCTTGATGAAAGAGGTTTCTGCTATGAAGgacgaattgaaaaaaagagatgacaaggttactgaacttttaggtaatttaagAAACTCAACTGTAAATCTTCTTGGGATGGAAAAACTGACAAATGAAATTGAAACACTGAAACCACAATTCTACAATCTTCAAATAGAAAGAGATCAACTTTTAGATGATCTTGGTAAAATAAGAAGTGTACTCTCGGAAAGAAATGACCAGATCATTAAAGTTTTAGAACAAAAAGACAAAATGGAAAGCGATTGTAACACTAAAATGATTGCTACCCAGACCAAAGTAGATGCCTTACTTGCTCAAGAAGCTCTACTAAGAAAAGAAATTGAAGATTTGAAAGCAGAGATCCAGGATTTACAGAATGAAATAGCAGAACTACGAGAAAAATTATTAGAACTGGAACAAAAAAGTGGTGAAAATGAAAATCTGATAAAAAAGATTCATGATCTTGAAGAGCAACTTCTTGAGCTGAATCTAAAACTTTCTGCAGATCAGAAACTTGTTGTAGAACTTCAAAATGAGCTCGATAATTTAAAATCTGAGGAGGagaaattgttgaaagatttttcTGATGCTCAGGCAAAAATTGAAACATTAAAAGATGATTTGGTAGCTGAAAGAACATCTAAAGAAGTGCTTATTAAAGAGCTTGAAAAATACAAAGCAGATCtggaaaaatcgaaatttgaaaatggaaatttgGAATCAGAATGTGAGAGTTTaaaagaaaacattaaaaaattggaagATAAAGTGAAGTGTttaatggaagaaaatgaaaTGCTCAAGGCTGAAAATACTAACATCATTGCTGGAAATCAAAAGTTTAAGGAAGAATTTGATCAGCTAAAagcagaaaataataatttaaaatctgaGGAGGAGAAATTGTTGAAGGATTTGTCTGATGCTCaagcaaaaattgaaaaattgaaagatgATTTGGATGCTGAAAAAACAACCAAAGAAGTGCTTGCTAAAGAGCTTGAAGCATGCAAAGCAGATCTGAAAGAAATGAAATATGTAAATGAGAATTTGGAATCAGAATGTGCgagtttaaaagaaaatattaaaaaattggaagATGAAGTAAAGTATACAAAGGAAGAGAATTTACTCCTCAAGACAGAGAAAAACAATATTATTGCTGAATATCGAAAGTTGAAAGAAGAATTTGATCAGCTGATTGCagaaaataacaaattgaaAGCTGAGTTTGAGAAACTGCAAAATCAATTCAAGGATCTTGAAGTAGAAAAAGATTCTCTTAGAAGAGAAAACGAGAAATTGAATGATGAtctggaaaatatgaaagtccaACTTGAAAATTCAGCATTTGAATTATCAGTTCTTAAGGATCAAAATGAAAAGCTGAAAGCTGATCTCGAGCAATTAAAAAATGAGTTAGAGACATCGAATAAGGAAACCGAAGGATTAAAAGGTAAAATTGATGATCTCAGATCTGAAGTTGAAACATTTAAAGCTAAAAATGATAAACTGTCTAAAGAAAACGACACGTTGAAAGGTGAAGTTGATcagttgaaaaatgaaattgataaattgaaaaatgataatacaaaTCTGAAAGATGAAAAtgaaaagttgaaagaaaatctagAAAACTCAAATACTGAGTTACATAATCTAAAGTCCGATTTTGATAAAATGAAGTCAGACAACGAAGCATTTAAGAGTGATTTCGAAAAAGCGAAGGCTGAAGCTGAGAAATTGAGAAACGAATTGAACATTTTGTCAGAAGATTTAAATAAAGCTCGTCAagaaaaatatgattttcaagaaAAACTTTCATTCCTtgaaaatgatttggaaaaattgaaggCAGAAAATAATGCTTTGGATTcagaattaaaaaatgcaagaGAAGAAAAGGACAGATTAAAAAACGAAGTAGATGCCATAAGAAACGATAATGCAAAGCTGAAAGCCGAAGAAGACAGTCGAAAAGAGGAAAAAGATAAAACAGCTACTGAGATGAAATCATTGCAagatcaaaatgaaaaattatcccGTGATCTAGATAATGCTAGATCACAAATTGATTCCCTAAAAGGGGAATTCGATCGTTTGAAATTTGAGCTTGAAGACTCGAAAACTGAGAAACAAGCCGTTGAAGATGAACTAAATGCCTTGAAAAACGAATTAAAAGAATTTCTCTTAAAGTTTGATGAACTAAAAAGTGAGAATAACAGACTCAAGGCAGAAAGAGAAGGTCTGAAAAAAGAgttaaatgatttaaagaaCGAATTATCAAGGTTAGAGGCAGAAAAGTCTGATTTGAAAAACGAATTGACTAAGTTAAAATCAGAACTAGTTAAGCTTGTTGCAGAAAATGAGAGATTGAAGCAAGAAGTTGTAAAGCTGATGGAGGATGTTGAACATTCTCAAATAGACGGTTGTagacaaaaaattgaaatggatAAATTGAATGCAACAATtgggaatttgaaaaaagaattgagtgattgcgaggaaaatataaaacaattagaAGGTCGTATCTTAGCTCAAGAAACTGAAAAAATCAAACTAGAACGAGAAATTGAAGACTCGAATAAATCACTGGCAGCTCAGAAATCTGAGACAGAAGCAGCTTTGGCGAAAGTGGCATCACTTACTGAAGAACTTGGATATCTGAAGGCCGAACTATCTAAGTTGAGATCTGAAAATGATCAGCTTAGATTAGAAATAGATGATTTAAAGAAGCAATTAGCCTTGCTCAAAGATGACTTTAACAAAGCAAAAACAGAAATATCAGCTTTAAAAGAAGATAATAGCAGACTGAAGAGTCAAGGTGACACGATAGAAAATGAGAGAGAACATTTAAAAGCAGCAGTGAACAAGTTTAAAGTTGATCTTGAAGCTCAAAAAAGCGATAACGCCAAATTGAAAGGCGAAATTGAAAACATGGCAGCAGAAAATGGCAGACTTAAAAGTGAAGTTGAAggattaaaaaatggaattaatggACTTAAGAATGAAACTAGCAAACTTCAAAATGAATTGACAGCTGCAAAGGGTGAATTAGATAATCTTAAATCTGAATTGACTTCTTCAAGagctgaaaatgataaattgaaAGGAGAGATAgatcattttaaaaatgaagttgGTAAATTAAGTGAAGAAGTAGCCAAACTGAAGGCTGAAATTGAAAAGTTGAAGAATTCATTGTACGATGGGGAGGCTAAGATCAAAGCTCTGGAAGGAAAAGTTACAGATCTAGAAGTAGAAAAAGTTAAGCTTTTAAAGGAGTTAAGTAGTTTAAGAGATGAAGCAGATAGGTGgaagaaagaattgtcaaatgAGAAAAATGCTACAGAAGCTGCACTTAAAGAATTGTCTGATCTACAATCAGAACTAGCAGTGATGAGAGGAGAGTTAGAAAAGTCTAGagcagataatgaaaatttgaaaattgatttagaaACATCAAAGAAAAACATTGTTGACTTGACGAATGAGAATCAAGCTTCAAAAGCAGAGATGGAGAAATTGAATAACGAATTTAATGCTTTGAAGAACGAAAATTCAAAACTCAAATATGATCTAGATAAATTGGGAAATGATCTAGATAAAGTTACAGCAGAGTTAAATGCATATAGGGCAGAAAAGGAAAAAGAATTGAGTAATCTTGAAGCAGATAAtgataaattgaagaaaaatcttgcaaatttccaagaaaagttgaaaaatttggaCGATCAAGTGAAGGGCCTTcaagaagaaaatgaaaaattagaatCTGAAGGTAACGATTTGAAATCACAAGTAGAGAAGTTAAGGAAAGATGTAGTTTCTGAAAGAGAAGCTAAAGAAGCTGTACGAGAAGAACTTGATGCTTTGAAAAACACTTTGGCTGGCTTAAGAGATGAAATAGGGAAAATAAATTCAGAAAATGAGATGTTGATAGTAGAAAATGCCAATTTAAAGAAGCAACTTGATAAGTGGAAAAACGATGCAGAAAAATTAAAAGGTGATTTGGATAAACTTCAAGCTGAGAATGCAATGTTCAAAGCTGAAGGTAGTAATTTAAGAGCTGATTTAGATAAAATGAGATCAGAAAGAGAAAAGGCGAAGGATGATCTTGAGAAAATCAAATCAGAAACTTTAAAACTGCGTGACGATCTTCAAAAGTCTAAGGCAGATGCTGATAAATTGATGTCTGAAAATAAAAAGCTGAAAAATGATTTGGATAAAGCAAAGGCCGGAGCTGATATGTTGAAATCTCGTGTTAGTATAGGGAGTGTTGAGTTAAATAAGTGGAAAGATGAAATAGACAATAAGAAAACTGAGAATGATAGATTAAAAACTGAGAATGACAAACTAAAAGCTGAAATTAACAAATTAAAAACTGAGATCGAAAAATTGAAGTTTGgaacaacaaaaaataaaacGGAAAATGATCTTCCTCGTGAAGAAATAACTAAACCGAAAGCAGTAGAAAAATTTACATCTAAAACTGTAAAGCCttcagAAAAAGAATGTGGGGACTTTATCAAATCCAATGAGCTCCTCAAAAATAAGTTACAAGAACAAAATGATGCTATTGATCGTGTAAGAGAATTTATAGACTTTTTGGAAGGCAAAAAAACAAAGAAACCTAAGATGgctgaaaattataataatgatgGCAATTCTGGTGATTGGATTGTACCAGCAATTAATGAAGTTATGGAAAAATCACAAAAACTatcggaaaatatttttaaagctgAGCAAGAAATACAGCATCTCGAGAGCACTGAAGAATTACCTTCAGATGATGCTAAAGGAACTTTTGATGCTGATTCTTGGTTGAAATCTTTGACTTTGAGTCAATTGGCTGAGCTTCATGATAAGATTTGTTTGCTGACGTCTTCAATGGTTGAAGCTGATAGCAATTCGTTGGGCTCAGAAATTGGATTGCCTGAAGATCAGTTATATAAATATGGACGTTCTTCACGAGTCTCTCAACAACATCACAATCCTTTGGAACGAGACTACAATATTCTAAACAAAAGAATAGCAGCTTTGCAGAAACAAATTGGGGAAAAGGAATTAGAAGCTGCGAGAAAAATGCATGAGATGAAGAACATACTTCGCCAAGAACAGTTGCAATTAATTCGAATTTCAGAAGAAATGACTCGGGAGAAAAAACGAAATTTGGCACTTCAGATGACTATTGATCAAGATCCTTGTTGGACGAGTAATTGTTTAGCTGAATGCAGAGGAGATTTTGATGACCTCAGAGAAACTTAA
Protein Sequence: MCDSQDKFCHCGCDAPGSFEPEDPPHEPCCCCNYNPFSDNSKDVEIYDLPFALRKLTVMKCQMKKWRMERLQLESETRSLKQALQQYGIQVDEALKPDPLIVHYREENLRLQNVNEELEDKIKDLTETLNERDYSDDPCDSVKYIRNKIKDLRMNFASEKKQLKNKIAALSLKLAQTDDDTSCSALNRLRAKLRELMKGGQKADNQVSMVVEKSIETMVELSKSCEDLKSENEKLLAEIEALRRKLGQASQMNEMGLQSSNLMEGQADSSDLNDKIEKYEALVADLMRQLAEKDETINDLEKRLYDEKIISGQFEQDLDKMTISQKALMKEVSAMKDELKKRDDKVTELLGNLRNSTVNLLGMEKLTNEIETLKPQFYNLQIERDQLLDDLGKIRSVLSERNDQIIKVLEQKDKMESDCNTKMIATQTKVDALLAQEALLRKEIEDLKAEIQDLQNEIAELREKLLELEQKSGENENLIKKIHDLEEQLLELNLKLSADQKLVVELQNELDNLKSEEEKLLKDFSDAQAKIETLKDDLVAERTSKEVLIKELEKYKADLEKSKFENGNLESECESLKENIKKLEDKVKCLMEENEMLKAENTNIIAGNQKFKEEFDQLKAENNNLKSEEEKLLKDLSDAQAKIEKLKDDLDAEKTTKEVLAKELEACKADLKEMKYVNENLESECASLKENIKKLEDEVKYTKEENLLLKTEKNNIIAEYRKLKEEFDQLIAENNKLKAEFEKLQNQFKDLEVEKDSLRRENEKLNDDLENMKVQLENSAFELSVLKDQNEKLKADLEQLKNELETSNKETEGLKGKIDDLRSEVETFKAKNDKLSKENDTLKGEVDQLKNEIDKLKNDNTNLKDENEKLKENLENSNTELHNLKSDFDKMKSDNEAFKSDFEKAKAEAEKLRNELNILSEDLNKARQEKYDFQEKLSFLENDLEKLKAENNALDSELKNAREEKDRLKNEVDAIRNDNAKLKAEEDSRKEEKDKTATEMKSLQDQNEKLSRDLDNARSQIDSLKGEFDRLKFELEDSKTEKQAVEDELNALKNELKEFLLKFDELKSENNRLKAEREGLKKELNDLKNELSRLEAEKSDLKNELTKLKSELVKLVAENERLKQEVVKLMEDVEHSQIDGCRQKIEMDKLNATIGNLKKELSDCEENIKQLEGRILAQETEKIKLEREIEDSNKSLAAQKSETEAALAKVASLTEELGYLKAELSKLRSENDQLRLEIDDLKKQLALLKDDFNKAKTEISALKEDNSRLKSQGDTIENEREHLKAAVNKFKVDLEAQKSDNAKLKGEIENMAAENGRLKSEVEGLKNGINGLKNETSKLQNELTAAKGELDNLKSELTSSRAENDKLKGEIDHFKNEVGKLSEEVAKLKAEIEKLKNSLYDGEAKIKALEGKVTDLEVEKVKLLKELSSLRDEADRWKKELSNEKNATEAALKELSDLQSELAVMRGELEKSRADNENLKIDLETSKKNIVDLTNENQASKAEMEKLNNEFNALKNENSKLKYDLDKLGNDLDKVTAELNAYRAEKEKELSNLEADNDKLKKNLANFQEKLKNLDDQVKGLQEENEKLESEGNDLKSQVEKLRKDVVSEREAKEAVREELDALKNTLAGLRDEIGKINSENEMLIVENANLKKQLDKWKNDAEKLKGDLDKLQAENAMFKAEGSNLRADLDKMRSEREKAKDDLEKIKSETLKLRDDLQKSKADADKLMSENKKLKNDLDKAKAGADMLKSRVSIGSVELNKWKDEIDNKKTENDRLKTENDKLKAEINKLKTEIEKLKFGTTKNKTENDLPREEITKPKAVEKFTSKTVKPSEKECGDFIKSNELLKNKLQEQNDAIDRVREFIDFLEGKKTKKPKMAENYNNDGNSGDWIVPAINEVMEKSQKLSENIFKAEQEIQHLESTEELPSDDAKGTFDADSWLKSLTLSQLAELHDKICLLTSSMVEADSNSLGSEIGLPEDQLYKYGRSSRVSQQHHNPLERDYNILNKRIAALQKQIGEKELEAARKMHEMKNILRQEQLQLIRISEEMTREKKRNLALQMTIDQDPCWTSNCLAECRGDFDDLRET

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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