Basic Information

Insect: Halictus rubicundus
Gene Symbol: -
Assembly: GCA_028454235.1
Location: CM052174.1:14494312-14505173[-]

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 1.5 1e+03 -0.3 0.1 26 50 63 87 58 94 0.67

2 41 1.5 1e+03 -0.2 0.8 33 55 108 130 105 133 0.66

3 41 0.00016 0.11 12.5 2.0 30 61 222 253 215 256 0.90

4 41 5.7 3.9e+03 -2.1 5.5 28 63 278 313 276 315 0.91

5 41 1.1 7.4e+02 0.2 1.2 30 61 305 338 299 342 0.67

6 41 0.12 83 3.2 0.4 24 46 367 389 357 404 0.63

7 41 4.6 3.2e+03 -1.8 3.8 28 56 406 438 397 447 0.57

8 41 1.6 1.1e+03 -0.3 0.9 33 62 453 482 446 485 0.81

9 41 0.00018 0.12 12.3 3.1 26 63 488 525 485 527 0.92

10 41 0.054 38 4.3 7.4 24 63 514 553 514 555 0.91

11 41 0.081 56 3.8 6.2 32 62 571 601 549 604 0.81

12 41 0.00053 0.37 10.8 5.7 25 65 578 618 567 618 0.91

13 41 0.1 72 3.4 1.7 21 60 616 655 616 659 0.91

14 41 0.00032 0.22 11.5 1.1 24 63 669 708 668 710 0.94

15 41 0.052 36 4.4 5.5 24 63 697 736 697 745 0.93

16 41 0.00025 0.17 11.8 5.1 23 63 745 785 738 787 0.93

17 41 0.39 2.7e+02 1.6 3.0 27 65 791 829 785 830 0.75

18 41 0.077 53 3.9 11.3 23 61 815 853 813 864 0.59

19 41 0.0042 2.9 7.9 8.4 20 64 870 914 867 915 0.93

20 41 3.5e-05 0.024 14.6 9.5 22 65 900 943 900 943 0.94

21 41 0.016 11 6.0 0.4 29 51 935 957 933 968 0.75

22 41 0.33 2.3e+02 1.8 1.3 36 51 942 957 941 999 0.69

23 41 0.00087 0.6 10.1 2.8 33 64 995 1026 985 1027 0.87

24 41 0.011 7.8 6.5 0.6 32 63 1022 1053 1020 1062 0.67

25 41 0.08 56 3.8 0.8 24 61 1035 1072 1030 1075 0.65

26 41 0.00044 0.3 11.1 6.0 24 64 1084 1124 1083 1125 0.92

27 41 0.013 8.9 6.4 7.2 27 64 1129 1166 1124 1174 0.64

28 41 0.0038 2.6 8.1 5.0 24 62 1168 1206 1166 1209 0.75

29 41 1.6e-05 0.011 15.7 8.5 22 64 1194 1236 1191 1237 0.93

30 41 0.011 7.9 6.5 6.3 23 53 1265 1295 1263 1310 0.79

31 41 3.4e-05 0.023 14.6 8.3 25 65 1312 1352 1310 1352 0.91

32 41 0.076 53 3.9 11.1 25 63 1354 1406 1350 1407 0.64

33 41 1.8e-05 0.013 15.5 13.1 22 64 1393 1435 1392 1436 0.93

34 41 0.012 8.3 6.5 7.6 24 63 1430 1472 1429 1474 0.84

35 41 2.4 1.7e+03 -0.9 14.4 28 61 1479 1512 1467 1526 0.79

36 41 2.1 1.4e+03 -0.7 8.3 24 62 1510 1548 1507 1565 0.57

37 41 0.0014 0.94 9.5 5.6 28 64 1584 1620 1573 1624 0.66

38 41 8.5e-05 0.059 13.3 7.2 26 64 1628 1666 1625 1667 0.91

39 41 0.027 19 5.3 0.8 36 60 1659 1683 1657 1687 0.79

40 41 5 3.4e+03 -1.9 0.2 29 62 1753 1786 1741 1789 0.67

41 41 4.9 3.4e+03 -1.9 1.0 36 51 1872 1887 1851 1894 0.57

#	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	1.5	1e+03	-0.3	0.1	26	50	63	87	58	94	0.67
2	41	1.5	1e+03	-0.2	0.8	33	55	108	130	105	133	0.66
3	41	0.00016	0.11	12.5	2.0	30	61	222	253	215	256	0.90
4	41	5.7	3.9e+03	-2.1	5.5	28	63	278	313	276	315	0.91
5	41	1.1	7.4e+02	0.2	1.2	30	61	305	338	299	342	0.67
6	41	0.12	83	3.2	0.4	24	46	367	389	357	404	0.63
7	41	4.6	3.2e+03	-1.8	3.8	28	56	406	438	397	447	0.57
8	41	1.6	1.1e+03	-0.3	0.9	33	62	453	482	446	485	0.81
9	41	0.00018	0.12	12.3	3.1	26	63	488	525	485	527	0.92
10	41	0.054	38	4.3	7.4	24	63	514	553	514	555	0.91
11	41	0.081	56	3.8	6.2	32	62	571	601	549	604	0.81
12	41	0.00053	0.37	10.8	5.7	25	65	578	618	567	618	0.91
13	41	0.1	72	3.4	1.7	21	60	616	655	616	659	0.91
14	41	0.00032	0.22	11.5	1.1	24	63	669	708	668	710	0.94
15	41	0.052	36	4.4	5.5	24	63	697	736	697	745	0.93
16	41	0.00025	0.17	11.8	5.1	23	63	745	785	738	787	0.93
17	41	0.39	2.7e+02	1.6	3.0	27	65	791	829	785	830	0.75
18	41	0.077	53	3.9	11.3	23	61	815	853	813	864	0.59
19	41	0.0042	2.9	7.9	8.4	20	64	870	914	867	915	0.93
20	41	3.5e-05	0.024	14.6	9.5	22	65	900	943	900	943	0.94
21	41	0.016	11	6.0	0.4	29	51	935	957	933	968	0.75
22	41	0.33	2.3e+02	1.8	1.3	36	51	942	957	941	999	0.69
23	41	0.00087	0.6	10.1	2.8	33	64	995	1026	985	1027	0.87
24	41	0.011	7.8	6.5	0.6	32	63	1022	1053	1020	1062	0.67
25	41	0.08	56	3.8	0.8	24	61	1035	1072	1030	1075	0.65
26	41	0.00044	0.3	11.1	6.0	24	64	1084	1124	1083	1125	0.92
27	41	0.013	8.9	6.4	7.2	27	64	1129	1166	1124	1174	0.64
28	41	0.0038	2.6	8.1	5.0	24	62	1168	1206	1166	1209	0.75
29	41	1.6e-05	0.011	15.7	8.5	22	64	1194	1236	1191	1237	0.93
30	41	0.011	7.9	6.5	6.3	23	53	1265	1295	1263	1310	0.79
31	41	3.4e-05	0.023	14.6	8.3	25	65	1312	1352	1310	1352	0.91
32	41	0.076	53	3.9	11.1	25	63	1354	1406	1350	1407	0.64
33	41	1.8e-05	0.013	15.5	13.1	22	64	1393	1435	1392	1436	0.93
34	41	0.012	8.3	6.5	7.6	24	63	1430	1472	1429	1474	0.84
35	41	2.4	1.7e+03	-0.9	14.4	28	61	1479	1512	1467	1526	0.79
36	41	2.1	1.4e+03	-0.7	8.3	24	62	1510	1548	1507	1565	0.57
37	41	0.0014	0.94	9.5	5.6	28	64	1584	1620	1573	1624	0.66
38	41	8.5e-05	0.059	13.3	7.2	26	64	1628	1666	1625	1667	0.91
39	41	0.027	19	5.3	0.8	36	60	1659	1683	1657	1687	0.79
40	41	5	3.4e+03	-1.9	0.2	29	62	1753	1786	1741	1789	0.67
41	41	4.9	3.4e+03	-1.9	1.0	36	51	1872	1887	1851	1894	0.57

Sequence Information

Coding Sequence: ATGGAGAGCCGAGCTTCCACACTATCCTGCCGATGCGGATGCAACTCATCGCACTCCTCGGAATCAATTAATCCACCGAACGAGCCATGTTGTTGCTGCAGTTACAATCCCTTCAGCGACAATTCGAAAGAATCGGAGATTTACGACCTCTCGTTTGCCCTGAGGAAACTGGCCGTAATGAAGTGTCAGATGAAGAAATGGCGAATGGAACGACTTCAGTTCGAGAGCGAAAATAGGTCTTTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCTGATCCGCTGCTCGTGCAGTCCCGGGAAGAAATCGAATGGCTGCAAAATGCAAACGCGGCGCTCGAAGATAAAGTGAGGGATCTAGAAGAAACCCTCGCCGAACGAGATTGCTGCGACGATCCCTGTGCATCGGTACACTATATCAGGGAGAAGATGAGAGTTCTGCGGGATCGATTTGCGCTTGAAAAAAAAGAATTAAGGGACATGATATCGCACTTGAAATTAAAACTGGCGCAGGCTGAGGAGGACGTGAGCTGTCCAGCGATATATCGACTGAGGGCGAAGCTCCGCGAACTGATGAAAGGAGGTCAAACAGCGGACCAGCAGGTCTCGAAAGTCGTGGAAAGATCGATCGAGACGTTGGTGGATCTGTCGAATAACTGCGACGATCTGCGTCTTGAAAACGAGCAGCTTCTGGCCGAGGTGGCCGAGCTGCGTCGCCGATTGGCGGAACTCGAAAAAATGCGGCCGAAAGAGCCAGTAGAAGAAATGCTAAGAACGGCCGAAACAACGACGGTTCCCGAATACATAGACGTCTCGGAGCTGCTGCAAAAGCTCCAAGACTGCGAGCTCACCGTTTCCGAATTGAAACATCAATTAGACGAGAAAGACAAGCTTATCGAGGCTCTGAAGAAACAACTTGAAAGCATGGTAGATCAGCAGGATTTGTTGAACGAGATCGCGGCGATGAAGGCGGAACTCGGGAAAAGAGACGATAAGATGAGGGAGCTTCTAAACGACATGAGGCAATCGGAGATAGACCTGTTGGGCATGAGCAAACTAAGATCGGAGCTGGACATCTTGAAGCCTCGGCTATCCGAACTCGAGGGCGAGAGGGACACGTTGATGGACGAAGTGGCGACGCTGAGGAAATTATTAGCCGAGAGGAACGATCAAATAATTGAGATACTGGAGCACAAGAATAGGTTGGAGCAGGAGCTGGAAGCGAAGGAGGCGGAGGCTCAGCGGATTATCGACAGCTTGAAAAAGGAGATGGACGAGTTGCTGGGGCGAATGGCGAATTTGCAAGGCGAGCTCGACGAGCGTGATAAGCGAATCGCCGAGCTGGAGAAGTGTTGCTCCGAGAGGGACGACCTTTTAAAGAAATTACAGGACGCGGAGGGCGAGTTGGCTTCGCTGCGAAGCGAACTCGCGTCCGCGAATGCTACGATAGAGGATCTCAAGGGCGAGGTGGACGCTCTGAAGAAGGACAAGGAGAAGCTGCTGAAAGAGATGGACGAAATCAGGGAACAGATGAATGCGTTGGCTGACCAACTAGCGGAGGAGAGAGCCGCGAAGGAGGCTCTGCAAAAGGAGCTCGAATCTGCCCGGGAAGAGCTCGAGTCTGCCCGAAGAGACCTCGAGTCTGCCCGGAGAGACCTCGAGTCTGCCCGGAAAGACCTCGAGTCTGCCCGGCAAGACCTCGAAGAACTGCGAAAAGAGAACTCCGATCTGAAGGGCCAGCTGGACCAAGCGAGGGAGGAGAATGACAAGCTGAAAAAGGAGAATGACGCTTTCAGAGCTGAGCTGGATAACATGACCTCGGAGCTCGATAAACTGAAGCAAGCGAACGACGATCTGCGGAGGGACCTGGGCGCGGCGAACCTGGAGAACGACAAGCTGAAGAACGATCTGGAAGATTCGCGAAAAGAGATGGACAGGTTACGAGCTGACGGAGATGCGTTAAAGGCTACTATGGACGCGGATGCGAAAGCGAAGATCGACGAACTTCGGTCGCAGTTGGATGATCTGAAAGCCGATAGGGACCGGTTGGCCGGCGAGAATGCGGACATCAAGGCCAAGAATTTGGAATTGGAACGGAAGTTGGACGACGCGATGAATGCGCTGGAAAAAATGAGAGCAGAGAATGCTGATCTGCTGGGGGAGCTGGAACGTTTGAAGGCGGAGCTAGCGAGAGCCAAGAGCACGATTGATCAATTGAAGGAGGAGATGAACAACCTGAAGAACGCGTTGGACAAGTGCGTGGACGAGATGGAGAAGCTAAAAACCGAGAATGGGGAACTTAAGGCGATGAACGAGGCTCTGAAAGCGGAGCTTGATCGATGCAACGCCGATCGAGACTCGCTGAGGAACGATTTGGAACGGGCCAAAGCGGAATTGGACGGTGTGACCAACGAGCTGAACAAGCTGAAGGAGGAGCACGGACTGCTTAGACAAAATCTCGAACGACTGGAAGGCGAAAGGGATAAGCTGCAGGCGGAGCTGGACAATCTGAAGAACGAGATGAAGAAGCTTCAAGAGGAAATAAATAACGCGAAGCAGAGAGAAGCTGCGTTAAACGACGAGCTCGATCGCGTTAAGAGGGAAAGGGACGCGGATCGATTGAAGAAAGAATTGGACGATGCGATCGCTGAGAACGAGACGCTGAAGGAAGAGCTGGCGCGGTTGAAGGACGAGCACGAGAAGCTGGGGAAAGAGAGGGACCAGTTGAAGCAGGACAACGAGAAACTGAATGCCGAAGTCGAGCAACTGCGCAGAGAAAGAGACTCGTTGAACGACGACTTGAAGAAGCTGCGAGACGAGAATGGCAGGCTGCAGAACGAAGTGAACGATTTGATGGGGAGGCTCGACGAGGAAAGGAAGGCCAACGACATCTTGAAGAAAGATTTGATGATGTTAGACAGCGAGGTGAAGGATTTGGGCAAGGCTCTCGACGAGGCCAGGGCGAAAAATGCTGCTCTGGCGGAGGAGAATCAAGCACTTCAGTCGAAGTTGCGGGATTTGCAAGACGAGCTGGGCAGTTTGAGGGCAGAGTGCGCTGACTTGATGTCGGAGATCGACGATTTGAAGAAGCAGATCGCCGACTTGAAGGCGAAGATCGCGAAATTGGAGGAGGACCTGGAACATTGGAAGTTGGAGAACTGCAAGATCAAGATAGAGCTGGATAAACTGAAGGGCGACCTGGAGAAGGCGTTGAAGGAGCTGAATGACTGCAAGGCCGCGAAAGAAGCCTGCCAAGCGGAGTTGAACCGCCTCAAAGCCGAGAAAGCCGATCTAGAGAAGAAAATCGCAGACTTGGAGTCCGAAATCGAACAGTTGAAGAAGTCCCTCGAAGCAGAAAAATCGGCTAGGAGCAAGTGCGAGGCAGAGCTCGCGGCCCTGAGGAATGAGCTGGACGCGTTGAAGAAGGAGTTGGAGAACCTTCGAGACGAGAACAGAAGGTGCAAAGGAGAACTAGAAGACCTTAGAAAGAAGATCTCGGAGCTGACCAACGACCTGAACAAGTGCAAAGAAGAAGTGAACGCACTGAGAGATGCGAACGAGAAACTGAAGGCGGAGGTGAACGCGTTGAACAACGAGAAGAACAAACTTCAGGAGGAGCGAGACAGGTTGCAGAACGAAGCGGATTCTCTGAGGGCAGAGAACGGGAACCTTCGTCAGGACCGAGACAAGCTGGCGAACGAAGCTAACAAGCTGAGGGGCGAGGGTGACGGACAGAGATCGGAGCTCGACAACTTGAGGTCTGACTTGTCTGCGCAGAAGGCCGCCGTTGAGAGGCTGCAGAACGATCTGAAGAACTGCCAGGACGAGAACGGCAGGTTGAAACAGCAACTGGCCGAGTTCGAGAAGCTGAAGGACGAGAAGAATCGATTGGAACAGGCGTTGGCAGACGCGGAAGCCAAAGTGAAGGCGCTGGAAGACCAGCTGAGAGATCTACAGGCTGAGAAACAAGAGTTGCTCAATGAGCTGCAACGTCTGCGCGACGAGCTCGCTCGTCTCATGAACGAGATCGACAAACATAAAGCTGCTGCTGAGACAGCCGAGAAAGAGCTGGCTGCCTTGAAGCAGGAGTTAAGCGCTTTGAGAGCCGCGCTGGATAAAGCCCGCGCCGAAAACGAAGCGTTGAACAACGAGAACGAGAAACTGAAGTCTGACGTGGCGAAACTAAATCAGCAGCTGCAGGCATTGCAGGAAGAGAACGCGAAGCTGAAGAAGGAGAACGAGCAGTTGGCCTCGGAATTAGCGGCCGCGAAGGAGAAGTTGAAAGAAGTCGAAGAACGGTTGAATGATCTGCGCAACGAAAATGATGGTTTGAAGAAGAGGGTCGCTGATCTTGAAAATATTGCGAATGAGTTGGAGGCGCTGAAGAAACAGCTGGAGGATTGCAGGGACGAGCTGGCGAGATTGAAGGCGGAATTGGAGAAATTGAAAGGGGACAATGAGAATTTGAGAAACGAGCTGAGCGAGGCTCGAAATGAGTTGAAGGAGTTGAAGGAGTTGAAGGATAAGCTGCAGAATGAGCTTGATGGTTTGAAGGCTGATCATGACAGGTTGAAGGACGAGTTAGAGAAACAGAAGGGGATTAATGAGAAATTGAAGGACGAGCTGGACGACATGAAGGCGTTGAATGATAAGTTGAAGGACGATTTGAAAAATCAGAAGGCATTGAATGACAAGTTGGCGGAGGACTTGAAAAATCAGATGGCGATCAATGACAAGCTGAAGGACGAGGCAGACAAGCTGAAGGACGAGGCAAACAAGTTGAAGAAAGAGATTCAAGCGCTGAAGGACGATAATAAGAAGTTGTTGGCCGAGGCTGAGAAATTGAAGGGCGAGGGTAAAAATGCCGCGGCAGAGTTGACGAACGAATTGAACAAGTTGAAGAATGAAAATAATGGATTGAAGTCCGAAATTGAGAGGTTGAAGAGGGAATTGAGTAATTGCCAGGATGAAAATGAAAGGCTGCGCAGAGAATTGGAAAGTTACAAGAGCGACCATAGGAAACTGACAGCTGCTGCAGAGAAAGATACAGTGACTTTAAGAAGCCTCGAAGACGATTGTGGCGATTACATTAGGGCAAATGATTTGTTAAGGAACAAGCTTGATAAGCAAAACGAAGGTGTACAACGCGTCCGTGACTATATAACTTTCCTCGAGGGTAAAGCTGAAAATGAACCCAAAATGGCGGACGAATTGGAGGACGATTTCACCGCTGACCCAGAAATGAAAAAGGAGATAGCTGACTTATTGAAAAAGTCGCGGGATCTATCTGAAAATATTTATAACACTGAAAAAGAAATTCAGAATATTGCTGCCATTCTGAAACAACTTCAGGATGCTGAACCTAGCGAGAAGGCTTTTGATCCCGATTCGTGGCTTAACTCGTTGACGTTGACGCAATTGGCAGAGCTCCACGACAAGATTTGCCTATTGACATCGGACATGGTGCATCAGGACAAGCCGAGGGCAGTTACGTGCTCGCCGGGGAGTCCGTTAAGTGCGGATTACAATATTTTAAATCAGCGGATAGCCGCTCTGCAGAAACAGATAGCGGAGAAGCAAATGGAGACGGGATGGAAGCTCCAAGAGCTGAAGCGAGCTCTTCGGCAGGAGCAGACTAACCTAATTCGAATCTCCGACGAAATGAATTTAGAGAGAAAACGTAATTTGGCCCTTCAGTTCAGAATGGATGATGCATCTTAA
Protein Sequence: MESRASTLSCRCGCNSSHSSESINPPNEPCCCCSYNPFSDNSKESEIYDLSFALRKLAVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVQSREEIEWLQNANAALEDKVRDLEETLAERDCCDDPCASVHYIREKMRVLRDRFALEKKELRDMISHLKLKLAQAEEDVSCPAIYRLRAKLRELMKGGQTADQQVSKVVERSIETLVDLSNNCDDLRLENEQLLAEVAELRRRLAELEKMRPKEPVEEMLRTAETTTVPEYIDVSELLQKLQDCELTVSELKHQLDEKDKLIEALKKQLESMVDQQDLLNEIAAMKAELGKRDDKMRELLNDMRQSEIDLLGMSKLRSELDILKPRLSELEGERDTLMDEVATLRKLLAERNDQIIEILEHKNRLEQELEAKEAEAQRIIDSLKKEMDELLGRMANLQGELDERDKRIAELEKCCSERDDLLKKLQDAEGELASLRSELASANATIEDLKGEVDALKKDKEKLLKEMDEIREQMNALADQLAEERAAKEALQKELESAREELESARRDLESARRDLESARKDLESARQDLEELRKENSDLKGQLDQAREENDKLKKENDAFRAELDNMTSELDKLKQANDDLRRDLGAANLENDKLKNDLEDSRKEMDRLRADGDALKATMDADAKAKIDELRSQLDDLKADRDRLAGENADIKAKNLELERKLDDAMNALEKMRAENADLLGELERLKAELARAKSTIDQLKEEMNNLKNALDKCVDEMEKLKTENGELKAMNEALKAELDRCNADRDSLRNDLERAKAELDGVTNELNKLKEEHGLLRQNLERLEGERDKLQAELDNLKNEMKKLQEEINNAKQREAALNDELDRVKRERDADRLKKELDDAIAENETLKEELARLKDEHEKLGKERDQLKQDNEKLNAEVEQLRRERDSLNDDLKKLRDENGRLQNEVNDLMGRLDEERKANDILKKDLMMLDSEVKDLGKALDEARAKNAALAEENQALQSKLRDLQDELGSLRAECADLMSEIDDLKKQIADLKAKIAKLEEDLEHWKLENCKIKIELDKLKGDLEKALKELNDCKAAKEACQAELNRLKAEKADLEKKIADLESEIEQLKKSLEAEKSARSKCEAELAALRNELDALKKELENLRDENRRCKGELEDLRKKISELTNDLNKCKEEVNALRDANEKLKAEVNALNNEKNKLQEERDRLQNEADSLRAENGNLRQDRDKLANEANKLRGEGDGQRSELDNLRSDLSAQKAAVERLQNDLKNCQDENGRLKQQLAEFEKLKDEKNRLEQALADAEAKVKALEDQLRDLQAEKQELLNELQRLRDELARLMNEIDKHKAAAETAEKELAALKQELSALRAALDKARAENEALNNENEKLKSDVAKLNQQLQALQEENAKLKKENEQLASELAAAKEKLKEVEERLNDLRNENDGLKKRVADLENIANELEALKKQLEDCRDELARLKAELEKLKGDNENLRNELSEARNELKELKELKDKLQNELDGLKADHDRLKDELEKQKGINEKLKDELDDMKALNDKLKDDLKNQKALNDKLAEDLKNQMAINDKLKDEADKLKDEANKLKKEIQALKDDNKKLLAEAEKLKGEGKNAAAELTNELNKLKNENNGLKSEIERLKRELSNCQDENERLRRELESYKSDHRKLTAAAEKDTVTLRSLEDDCGDYIRANDLLRNKLDKQNEGVQRVRDYITFLEGKAENEPKMADELEDDFTADPEMKKEIADLLKKSRDLSENIYNTEKEIQNIAAILKQLQDAEPSEKAFDPDSWLNSLTLTQLAELHDKICLLTSDMVHQDKPRAVTCSPGSPLSADYNILNQRIAALQKQIAEKQMETGWKLQELKRALRQEQTNLIRISDEMNLERKRNLALQFRMDDAS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00762316;
90% Identity: -
80% Identity: -