Basic Information

Insect: Xylocopa violacea
Gene Symbol: -
Assembly: GCA_963969225.1
Location: CAXAJV010000011.1:26612224-26621808[-]

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 40 0.14 1.1e+02 3.0 0.7 30 57 54 81 48 88 0.62

2 40 1.3 1.1e+03 -0.1 2.3 33 55 102 124 100 127 0.69

3 40 6.4 5.2e+03 -2.3 0.2 39 60 153 174 148 177 0.79

4 40 1.6e-05 0.013 15.7 2.5 30 60 216 246 208 249 0.91

5 40 0.38 3e+02 1.7 0.4 30 64 274 308 270 309 0.91

6 40 0.014 11 6.3 3.2 22 56 352 386 351 394 0.85

7 40 1.2 9.9e+02 0.0 4.0 25 62 436 476 422 483 0.60

8 40 0.0021 1.7 8.9 2.2 26 63 482 519 479 520 0.92

9 40 0.021 17 5.7 4.9 25 60 530 565 522 570 0.55

10 40 0.038 30 4.9 3.3 22 55 541 574 540 584 0.74

11 40 0.0045 3.6 7.8 9.5 21 62 582 623 577 626 0.91

12 40 0.00031 0.25 11.5 3.0 23 64 626 667 623 668 0.92

13 40 0.014 11 6.3 6.2 25 62 670 707 666 710 0.89

14 40 0.038 30 4.9 4.1 21 64 687 730 686 731 0.78

15 40 0.0002 0.16 12.2 6.0 25 63 747 785 736 787 0.86

16 40 0.0009 0.73 10.1 3.8 24 64 774 814 773 815 0.94

17 40 0.0021 1.7 8.9 1.1 22 62 793 833 786 836 0.78

18 40 0.0011 0.88 9.8 0.7 24 60 823 859 815 864 0.85

19 40 6.6e-05 0.053 13.7 3.2 28 64 869 905 865 906 0.91

20 40 1.6e-05 0.013 15.7 9.0 24 65 900 941 900 941 0.95

21 40 0.061 49 4.2 1.2 37 64 934 961 934 962 0.90

22 40 7.1e-07 0.00057 20.0 1.7 26 61 965 1000 962 1004 0.88

23 40 2e-05 0.016 15.3 6.0 22 64 1024 1066 1016 1067 0.89

24 40 0.0018 1.4 9.1 2.6 27 63 1085 1121 1080 1130 0.61

25 40 0.68 5.5e+02 0.8 7.3 32 63 1139 1170 1128 1172 0.82

26 40 0.0023 1.9 8.7 2.1 27 63 1183 1219 1171 1221 0.84

27 40 0.014 11 6.3 1.3 28 62 1219 1253 1215 1256 0.89

28 40 0.009 7.2 6.9 3.7 24 59 1253 1288 1250 1290 0.81

29 40 0.0011 0.92 9.7 8.4 25 63 1310 1348 1308 1350 0.90

30 40 0.00034 0.27 11.4 2.5 29 58 1335 1364 1334 1368 0.90

31 40 0.00027 0.21 11.8 7.7 25 64 1366 1405 1363 1406 0.94

32 40 0.35 2.8e+02 1.8 1.5 39 64 1415 1440 1407 1441 0.78

33 40 1.4e-05 0.011 15.9 4.6 22 60 1447 1485 1445 1486 0.95

34 40 0.00074 0.6 10.3 7.8 30 63 1476 1509 1475 1511 0.89

35 40 0.0076 6.1 7.1 4.4 24 64 1505 1545 1503 1546 0.91

36 40 0.007 5.6 7.2 4.4 28 63 1540 1575 1534 1577 0.86

37 40 0.036 29 4.9 3.3 29 63 1555 1596 1552 1598 0.64

38 40 0.0042 3.4 7.9 6.4 20 57 1609 1646 1604 1647 0.92

39 40 1.2e-05 0.01 16.0 7.5 24 60 1634 1670 1633 1674 0.94

40 40 2.7 2.2e+03 -1.1 0.1 37 62 1745 1770 1731 1773 0.66

#	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	40	0.14	1.1e+02	3.0	0.7	30	57	54	81	48	88	0.62
2	40	1.3	1.1e+03	-0.1	2.3	33	55	102	124	100	127	0.69
3	40	6.4	5.2e+03	-2.3	0.2	39	60	153	174	148	177	0.79
4	40	1.6e-05	0.013	15.7	2.5	30	60	216	246	208	249	0.91
5	40	0.38	3e+02	1.7	0.4	30	64	274	308	270	309	0.91
6	40	0.014	11	6.3	3.2	22	56	352	386	351	394	0.85
7	40	1.2	9.9e+02	0.0	4.0	25	62	436	476	422	483	0.60
8	40	0.0021	1.7	8.9	2.2	26	63	482	519	479	520	0.92
9	40	0.021	17	5.7	4.9	25	60	530	565	522	570	0.55
10	40	0.038	30	4.9	3.3	22	55	541	574	540	584	0.74
11	40	0.0045	3.6	7.8	9.5	21	62	582	623	577	626	0.91
12	40	0.00031	0.25	11.5	3.0	23	64	626	667	623	668	0.92
13	40	0.014	11	6.3	6.2	25	62	670	707	666	710	0.89
14	40	0.038	30	4.9	4.1	21	64	687	730	686	731	0.78
15	40	0.0002	0.16	12.2	6.0	25	63	747	785	736	787	0.86
16	40	0.0009	0.73	10.1	3.8	24	64	774	814	773	815	0.94
17	40	0.0021	1.7	8.9	1.1	22	62	793	833	786	836	0.78
18	40	0.0011	0.88	9.8	0.7	24	60	823	859	815	864	0.85
19	40	6.6e-05	0.053	13.7	3.2	28	64	869	905	865	906	0.91
20	40	1.6e-05	0.013	15.7	9.0	24	65	900	941	900	941	0.95
21	40	0.061	49	4.2	1.2	37	64	934	961	934	962	0.90
22	40	7.1e-07	0.00057	20.0	1.7	26	61	965	1000	962	1004	0.88
23	40	2e-05	0.016	15.3	6.0	22	64	1024	1066	1016	1067	0.89
24	40	0.0018	1.4	9.1	2.6	27	63	1085	1121	1080	1130	0.61
25	40	0.68	5.5e+02	0.8	7.3	32	63	1139	1170	1128	1172	0.82
26	40	0.0023	1.9	8.7	2.1	27	63	1183	1219	1171	1221	0.84
27	40	0.014	11	6.3	1.3	28	62	1219	1253	1215	1256	0.89
28	40	0.009	7.2	6.9	3.7	24	59	1253	1288	1250	1290	0.81
29	40	0.0011	0.92	9.7	8.4	25	63	1310	1348	1308	1350	0.90
30	40	0.00034	0.27	11.4	2.5	29	58	1335	1364	1334	1368	0.90
31	40	0.00027	0.21	11.8	7.7	25	64	1366	1405	1363	1406	0.94
32	40	0.35	2.8e+02	1.8	1.5	39	64	1415	1440	1407	1441	0.78
33	40	1.4e-05	0.011	15.9	4.6	22	60	1447	1485	1445	1486	0.95
34	40	0.00074	0.6	10.3	7.8	30	63	1476	1509	1475	1511	0.89
35	40	0.0076	6.1	7.1	4.4	24	64	1505	1545	1503	1546	0.91
36	40	0.007	5.6	7.2	4.4	28	63	1540	1575	1534	1577	0.86
37	40	0.036	29	4.9	3.3	29	63	1555	1596	1552	1598	0.64
38	40	0.0042	3.4	7.9	6.4	20	57	1609	1646	1604	1647	0.92
39	40	1.2e-05	0.01	16.0	7.5	24	60	1634	1670	1633	1674	0.94
40	40	2.7	2.2e+03	-1.1	0.1	37	62	1745	1770	1731	1773	0.66

Sequence Information

Coding Sequence: ATGGAGGTTTGCCGATGCGGATGCGATGCATCGTCCTCGCGAGAATCGATCAATCCGCCGAACGAGCCATGCTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCCAAAGAATCAGAGATCCACGACCTCTCGTTTGCCCTGAGGAAGCTCAGCGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAAAGGCTTCAGCTCGAGAGCGAAAATAGGTCTCTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGCGGATGAGATATTGAGGCCCGATCCGCTGCTAGTGCACTCCCGGGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGGCGCTTGAAGATAAAGCGAGGGATCTGGAGGAAACTCTCGCCGAACGAGATTGCTGTGACGATCCTGGAGCCACGATTCACTTCCTCAGAGAGAAGACGAGATATCTCAGAGAGCGTTTCGCGCTTGAAAAGAAAGAGCTGCGAGATATAATATCGCATTTGAGGCTGAAGCTGGCGCAGGTCGAGGAGGACGTCAGTTGCCCGGCGATATATCGTCTGAGAGCGAAGTTACGCGAGCTGATGAAAGGGCAACCAGCGGAGCAGCAGCAGGTCGCGAAAGTGGTGGAGAAATCGATCGAGACGTTGGCGGACCTCTCGAAGAGCTGCGAGGATTTACGCACGGAGAACGAGCGTCTCCTCGCGGAGGTGGCTGAGCTGCGTCGCGCGTTGGCGGCGCTCGAGGAGAGGAAAGTACCGGAAACGCCGGTGCCGCCATTGATGTCGGTCGAGACAACGACGGTGCCAGAGTACGTGGACATTCCGGATCTGTTGCAAAGGCTGAGCAACTGCGAGGAAGTCGTGGCGGATCTGAGGAGGCAGTTGGAGGAGAAGGACAGGACGATCGACGGGCTGAACAAAGAACTGGAGGCGATGGTCAGCCAGAAAGGTCTGGTGGACCAGATAGAAGCCATGAAAACGGAACTTAAACGAAAAGATGACAAGATCACAGGTCTCCTGAACAGCCTGAGGCAATCGGAAATAGATTTACTCGGGTTAGGCAAGCTGAAGTCCGAAATGGAAAGTCTGAAGCCACAATTGCAGGACCTCGAGACGGAGAAGGTGGAGTTGATGGACGAGCTGGATAAACTGCGCGAGGCATTGAAGGACAGGAACGATCAGATAATAAACATACTGGAAGAGCAGAGCAAGCTGGAGAAAGAGTACAAGGACAAGGTGGGAGCGTTACAAGGAAGCCTCGACGAGGCGTTGGCTCGGGAAGCGGATGTGAACCGCGAGATTGACGACCTGCGAGCGCAAATAGCCAATCTGAAGGACGAGTTGGATCGATGTGACAAGCGAAACGCGGAGTTGGAGGAGTGTTGCCAGGACAAAGACGCGCTCTCGAAGGAGTTGCGCGACCTGGAAGAGAAGCTCGCGTCCGCCGAGGCTACAATAGCGGGCCTCGAGAAGGAGCTGGACACGCTCAGAGGCGACAAGGAGCGGTTGTTGAGGGAGCTGGACGAGGCGAAGGAACGGATCGAGGCGTTGTCCGGACAATTGGAGAGCGAGAGGAAGGCCAGAGCCGCGTTGGAGGAAGAGCTGGCGAGCAGCCAGGACGAAATAGAAAAGTTGCGGAGGGAGAATCTGAATCTGAAGGATCGGATCGACGCAGTCGAGGAGGAGAATGATAAACTTCGGCACGCAGTCGAGGAGGGGAATGATAAACTTCGGGACGCGATGGAGGCGTTGAAGAAGCTGGACGAGGAGAACGACAAGTTGAAGGCGCAACTCGAGCAGCTGAAGACGGAGAACAGCCGTCTGATGGAGAGGGCGGACGAGTTGGAGAATTTAAATAAACAGTTAAAGGACGACTATGACAACATGAAACAAGCGTTGGATAGCCTGCAGGCAGAGATCGACAGGCTGGAGGATCAGTTGAGTAAGATGGCGCGGGAGCGTGACGAGCTGTTGAGCGAGAACGACGGCATCAAGAAGCAGCTCGAACAGGCGCTGACGGAGAACGAGAGCCTGAGAGCACAGCTGAACGAGGTCGGTGAACAACTCGACAAACTGAAATCGGAGAAGGACGAGCTGCAGAGGAGCCTCGACGCGACGAAGCTGGAGAACGATTCGTTGAAACGGGACCTGAAGGCGTTAAGGGACGACCTTGAGGAATCGAGGAGGCAGGCGGAGGAGCTGAAAGCCGCGGGCGACGCGTTAAAATCAGCGGACAAGGATAGACAACTCGAGGTTCAGAGGCTGGAACAGGATCTGGAGAATCTGAAGTCCGAAAGAGATCGCTTGGCGAACGAAATCGGTGATCTAAAGGCCAGTAATTCGGAATTGGAACGGAAACTGCAGGACGCTACGAAGGAACTGGAAAAAATGAAGTTAGAAATCGGCGATTTACTGGCCGAAGTGGACCGTTTGCGACGCGATTTGGAAAAAGCTAGAAACGAGATCGATCAATTGAAATCCGAGATGGGTTCGCTGAGGGACGCACTCGACAACTGTATGGACGAGATGGAAAGGTTGAGGACCGAGAACGGCGACCTGAAATCGGAGAATCAGGCTTTAAAAACAGATATTCAAGGAATTAAAGGCGAAGGGGACAGTTTGACTGTGGAATTGAGGAATTTGAAGGACGAGAATTCTGCCTTGAAAAAGGAGAGGGACCAATTGAGCAAAGCATTGGGGGAGATCAAGGCTGAGAACGAAAACTTGAGAAAAGAGAGGGACCAGTTGGAAGCTGAAACCAAGAAATTGAGGGAAGAAATAAATTCGTGTAAAGAAGAGAACGATAAACTGAAGGCCGATCTTGAAAAACTACGAGGACAATTGCAGTCGTTGAATGACGAATTGGGCAAATTGAAAGCTCAGCTTAGCGAAGCTGAGAATAAAATTGGATCGTTGGAATCATCGGTTTCCCGTTTGCAAAGTGAAAACGACAAGCTGCAAAAGGAGAACGACAAACTGAAGAATGATCTAGGCGTTTTGCAGAAAGAGGCAAACGATTTGAAAGCAGAAATGAGTAGAGAGATGGGAGACAATCAAAGGATGCGGAACGACCTGAAGATGTTGGAGGATCAGGTGCAAGATTTGAGCCAAAAATTGGACAACGTTAGAGCGGAGAACGATGCTTTGAAGCAGGAAAATCAAGACCTGAAAGCAAAGTTATCAGATATGGAACAAGAGTTATCGAGTCTGAGAGCTGAGTGCGCTGACCAGAAGTCGGAGATAGCCGAGTTGAAGAAATTAATCGAGGAATTGAAGGCAAAAATAGCCAAACTCGAGGCAGATGTAGAGCATTGGAAAATGGAGAATTGCAAGCTGCAAATGGAGATTGACAAATTAAAAGCCGATCTGGAGAAGGCATTGAAGGATTTGAACGAGATCCAGGCTCTAAAAAAGGCACAAGATGCAGAATTGAACCGTCTGAAGGCCGAGAAAGAAGATCTTGACAAGAAGCTAGCCGCCTTGGCATCAGAGCTCGAGCAACAGAAGAAAGCTCTCGAAGCGGAGAAATCTGCCAAAGAAAAGGGCGACTCAGCAATCGCTGACTTGCGCGCAGAACTCGAAGCACTGAAGAAGGAATTAGAAAAACTAAGAGCGGACAATAGCAAATACAGGAATGAAATTGACGATTTGGGGAAGCAACTGTCGACAATGAAGAATGAGTTGAACAGGTGTAAAGAAGAGGTGTCTGCGTTGAGAGATGCGAACAACGCGTTGAAGTCGGACTTGGACAACCTAAAAAACATGAAGAACGAATACGATAAGTTGAAAACTGAGTTGGACGCCTTAAAAGCGGAGAACGCGAGCCTCCTAGAAGGCAAGAAGAAGCTGGAAGAAGAATACGGCAAGCTGAGAGGGGAGGGTGACGGGCAGAAAGCAGAAATTGACAAGCTGAAGTCAGACTTGGCGTCTGAGAGAGCGGCGGCTGAAAAATTGAGGACGGACCTTCAAAAGTGCCAAGCCGAAAGCGAGAGGTTGCAGTCGGAACTGAACGAGATGAAGAAAGAGCTGGACAAGTTGAAGACTGAGAATGATCGCTTGAAAAGTCGTATCGATGAATTGGAGAAGGCGCTCGCAGCGGCAGAGGCAAGGGTGAAGTCTCTGGAAGGTGAACTCTCGGATCTGCTGGCTGAGAAAGAGGAGTTGGTCAATGAACTCTATCGCCTTCGCGAAGAGCTGAACAATCTGAAGAACGAGCTGGAGAAGCAAAAGTCTGCGAAGGATGCGGCTGTTGAGGAGCTGGCCGACCTGAAGAAGGAGTTGGCCTCGTTGAGGGCCGCGTTGGAGAAGGCTCGCGCTGAGAACGAAACGTTGTGGAACGAGAACGAGAAGCTGAAGGCGGACTGGGCGAATTTGAATGAACAGTTGGAAGCATTGAGGGGCGAGAACGCCGGCCTGAAGAACGAAATCGCGAACTTGAAGAACGAAAACGAGAACCTGAAGAACGAAAACGCGAAATTGAAAAGAGAGAAGTCGGAATTAACAGAGGAATTAGCTGCAGCGAAGGATAGACTGATGGAGACAGAGAAGAGATTGAACGATTTGAAGAAAGAAAGCGACGATCTGAGGAATAAAATCGCTGATCTCGAAGACGCTATGAAAGAGCTTGAAGCTTTGAGGAAGCAATTGGAAGATGCTAATAAGGAGTCGAATAGATTAAGGTCAGAACTGGATAAGCTGAGATCGGAAAATGCGAAGCTGGGGGATGATTTAAACAAGGCGAATAAAGAAGCGAGTCAGTTAAGACGTGAATTGGATAAATTGAAGAATGATTATTCCGACTTGATGTCCGACTTGGCCAAAGCGAGGGATGAGAAGGATAAACAGAAAGATCGCGACGCGTCGTTAGAAGAGGAGCTGGATAAAGCGAGGAGAGAAAACGTCGAGTTGAAGGATAAGAACGGCAAGCTGCAAAGCGAATTAAACGATTGCCAGGCGGAGAACGAAAGGCTGCGCAAGGAATTGGAAAACTTGAAGATGGAAAATGCCAAATTGAAGGCGGCTCCAGAGAGAAAATTGGAGCCAAAGGAGACGGAAGTGGACAAAGATATTCTGGATGAATGCGACGACTTCGTTAAGGCGAACGAATTATTGGGGAAAAGATTTGAAAGGCAGAACGAAGGTGTACAACGCGTTCGAGATTATATCATCTATTTGGAAGGTAAAGCTGAAGAACCCAAGATGGCGGACGAGTTGATGGAAGAGCCAGCGATTGATCCGGAATTAAGAAAGGATATTGCTGATTTGTTTCAGAAATCACAGGCTTTATCTAAAAATATTCATCAAACAGAACAGGATATACAAAATCTAGCTGGATTATCGAAGAAACCTACGGATTCTGGCGAAGGACCAGCCTTCGATCCCGACTCTTGGCTAAGCTCGCTGACGCTGACGCAGTTGGCGGAGCTTCACGACAAAATTTGTTCGTTGACGTCGGACATGGTGCAACAGGATACCAGAGCGGTGACATGCGATCGTGCCTATGAGCAAGCGAATCCTCTAACTACGGATTACAATATTTTGAACAGTCGAATAGCTGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGGCAGGGTGGAAGCTGCAGGAGCTGAGGCGAGCCCTTCGCGCGGAGCAGACTAATttaatacgaatctccgaccgAATGAACTTAGAGAGAAGGCGCAATTTGAACCTTCAGTTCAACATGGACGATTCGCTCTAG
Protein Sequence: MEVCRCGCDASSSRESINPPNEPCCCCSYNPFSDNSKESEIHDLSFALRKLSVMKCQMKKWRMERLQLESENRSLKQALQSFGVNADEILRPDPLLVHSREEIERLQNANAALEDKARDLEETLAERDCCDDPGATIHFLREKTRYLRERFALEKKELRDIISHLRLKLAQVEEDVSCPAIYRLRAKLRELMKGQPAEQQQVAKVVEKSIETLADLSKSCEDLRTENERLLAEVAELRRALAALEERKVPETPVPPLMSVETTTVPEYVDIPDLLQRLSNCEEVVADLRRQLEEKDRTIDGLNKELEAMVSQKGLVDQIEAMKTELKRKDDKITGLLNSLRQSEIDLLGLGKLKSEMESLKPQLQDLETEKVELMDELDKLREALKDRNDQIINILEEQSKLEKEYKDKVGALQGSLDEALAREADVNREIDDLRAQIANLKDELDRCDKRNAELEECCQDKDALSKELRDLEEKLASAEATIAGLEKELDTLRGDKERLLRELDEAKERIEALSGQLESERKARAALEEELASSQDEIEKLRRENLNLKDRIDAVEEENDKLRHAVEEGNDKLRDAMEALKKLDEENDKLKAQLEQLKTENSRLMERADELENLNKQLKDDYDNMKQALDSLQAEIDRLEDQLSKMARERDELLSENDGIKKQLEQALTENESLRAQLNEVGEQLDKLKSEKDELQRSLDATKLENDSLKRDLKALRDDLEESRRQAEELKAAGDALKSADKDRQLEVQRLEQDLENLKSERDRLANEIGDLKASNSELERKLQDATKELEKMKLEIGDLLAEVDRLRRDLEKARNEIDQLKSEMGSLRDALDNCMDEMERLRTENGDLKSENQALKTDIQGIKGEGDSLTVELRNLKDENSALKKERDQLSKALGEIKAENENLRKERDQLEAETKKLREEINSCKEENDKLKADLEKLRGQLQSLNDELGKLKAQLSEAENKIGSLESSVSRLQSENDKLQKENDKLKNDLGVLQKEANDLKAEMSREMGDNQRMRNDLKMLEDQVQDLSQKLDNVRAENDALKQENQDLKAKLSDMEQELSSLRAECADQKSEIAELKKLIEELKAKIAKLEADVEHWKMENCKLQMEIDKLKADLEKALKDLNEIQALKKAQDAELNRLKAEKEDLDKKLAALASELEQQKKALEAEKSAKEKGDSAIADLRAELEALKKELEKLRADNSKYRNEIDDLGKQLSTMKNELNRCKEEVSALRDANNALKSDLDNLKNMKNEYDKLKTELDALKAENASLLEGKKKLEEEYGKLRGEGDGQKAEIDKLKSDLASERAAAEKLRTDLQKCQAESERLQSELNEMKKELDKLKTENDRLKSRIDELEKALAAAEARVKSLEGELSDLLAEKEELVNELYRLREELNNLKNELEKQKSAKDAAVEELADLKKELASLRAALEKARAENETLWNENEKLKADWANLNEQLEALRGENAGLKNEIANLKNENENLKNENAKLKREKSELTEELAAAKDRLMETEKRLNDLKKESDDLRNKIADLEDAMKELEALRKQLEDANKESNRLRSELDKLRSENAKLGDDLNKANKEASQLRRELDKLKNDYSDLMSDLAKARDEKDKQKDRDASLEEELDKARRENVELKDKNGKLQSELNDCQAENERLRKELENLKMENAKLKAAPERKLEPKETEVDKDILDECDDFVKANELLGKRFERQNEGVQRVRDYIIYLEGKAEEPKMADELMEEPAIDPELRKDIADLFQKSQALSKNIHQTEQDIQNLAGLSKKPTDSGEGPAFDPDSWLSSLTLTQLAELHDKICSLTSDMVQQDTRAVTCDRAYEQANPLTTDYNILNSRIAALQKQIAEKQMEAGWKLQELRRALRAEQTNLIRISDRMNLERRRNLNLQFNMDDSL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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