Basic Information

Insect: Rhogogaster chlorosoma
Gene Symbol: -
Assembly: GCA_944452905.1
Location: CALYCC010000080.1:1653187-1660803[+]

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 0.021 26 5.9 2.8 28 57 106 128 98 135 0.48

2 40 0.0012 1.4 9.9 1.6 35 63 217 245 211 248 0.85

3 40 0.39 4.8e+02 1.8 0.6 37 62 270 295 266 297 0.86

4 40 1.9 2.3e+03 -0.4 0.0 36 63 304 331 300 333 0.67

5 40 8.2 1e+04 -2.4 0.1 30 59 371 400 369 405 0.52

6 40 0.0025 3 8.9 7.6 25 61 440 476 431 480 0.64

7 40 0.012 15 6.6 5.1 28 63 464 502 464 504 0.89

8 40 0.00026 0.32 12.0 6.5 24 64 505 545 504 546 0.93

9 40 0.00026 0.32 12.0 5.8 25 64 548 587 547 588 0.88

10 40 0.00062 0.75 10.8 3.5 21 65 586 630 585 630 0.94

11 40 6e-05 0.073 14.0 3.3 24 63 631 670 628 672 0.93

12 40 0.16 2e+02 3.0 6.8 25 63 674 712 672 720 0.85

13 40 0.0012 1.4 9.9 7.8 22 65 706 749 705 749 0.94

14 40 5.4e-05 0.065 14.2 8.5 24 64 722 762 721 763 0.94

15 40 0.00046 0.56 11.2 4.8 23 63 749 789 748 791 0.78

16 40 0.031 38 5.3 15.3 21 61 817 857 789 861 0.90

17 40 0.012 15 6.7 5.1 26 64 850 888 847 891 0.78

18 40 0.001 1.3 10.1 4.4 28 63 880 915 873 917 0.76

19 40 7.1e-05 0.087 13.8 4.6 30 62 917 949 909 951 0.89

20 40 0.00096 1.2 10.2 0.8 26 62 976 1012 966 1028 0.77

21 40 0.0002 0.24 12.4 10.2 21 65 1027 1071 1026 1076 0.96

22 40 0.00062 0.76 10.8 4.4 25 62 1080 1117 1078 1120 0.91

23 40 0.051 63 4.6 2.2 24 64 1107 1147 1106 1148 0.95

24 40 0.00068 0.83 10.6 5.5 28 64 1139 1175 1133 1179 0.81

25 40 8e-05 0.098 13.6 4.6 22 62 1175 1215 1174 1218 0.92

26 40 0.0077 9.3 7.3 2.0 35 62 1216 1243 1211 1246 0.73

27 40 0.033 40 5.3 2.7 31 64 1247 1280 1237 1281 0.81

28 40 0.0017 2 9.4 6.4 21 64 1272 1315 1268 1316 0.88

29 40 8.8e-05 0.11 13.5 7.4 22 62 1301 1341 1296 1344 0.81

30 40 0.004 4.8 8.2 3.9 22 64 1350 1392 1341 1393 0.79

31 40 0.00024 0.29 12.1 3.9 25 65 1367 1407 1363 1407 0.86

32 40 0.00027 0.33 11.9 6.1 24 64 1394 1434 1393 1435 0.91

33 40 0.0098 12 6.9 4.0 27 64 1418 1455 1414 1463 0.79

34 40 0.011 14 6.8 5.1 15 64 1440 1490 1434 1491 0.80

35 40 0.00024 0.29 12.1 6.3 15 64 1462 1511 1461 1512 0.80

36 40 4.2e-05 0.052 14.5 7.3 24 64 1492 1532 1489 1533 0.92

37 40 0.011 14 6.7 4.7 26 64 1515 1553 1512 1561 0.73

38 40 0.17 2.1e+02 3.0 1.7 31 62 1541 1572 1532 1574 0.76

39 40 0.0024 2.9 8.9 4.0 25 63 1563 1601 1559 1610 0.63

40 40 0.58 7e+02 1.3 0.9 24 60 1604 1640 1601 1659 0.84

#	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	0.021	26	5.9	2.8	28	57	106	128	98	135	0.48
2	40	0.0012	1.4	9.9	1.6	35	63	217	245	211	248	0.85
3	40	0.39	4.8e+02	1.8	0.6	37	62	270	295	266	297	0.86
4	40	1.9	2.3e+03	-0.4	0.0	36	63	304	331	300	333	0.67
5	40	8.2	1e+04	-2.4	0.1	30	59	371	400	369	405	0.52
6	40	0.0025	3	8.9	7.6	25	61	440	476	431	480	0.64
7	40	0.012	15	6.6	5.1	28	63	464	502	464	504	0.89
8	40	0.00026	0.32	12.0	6.5	24	64	505	545	504	546	0.93
9	40	0.00026	0.32	12.0	5.8	25	64	548	587	547	588	0.88
10	40	0.00062	0.75	10.8	3.5	21	65	586	630	585	630	0.94
11	40	6e-05	0.073	14.0	3.3	24	63	631	670	628	672	0.93
12	40	0.16	2e+02	3.0	6.8	25	63	674	712	672	720	0.85
13	40	0.0012	1.4	9.9	7.8	22	65	706	749	705	749	0.94
14	40	5.4e-05	0.065	14.2	8.5	24	64	722	762	721	763	0.94
15	40	0.00046	0.56	11.2	4.8	23	63	749	789	748	791	0.78
16	40	0.031	38	5.3	15.3	21	61	817	857	789	861	0.90
17	40	0.012	15	6.7	5.1	26	64	850	888	847	891	0.78
18	40	0.001	1.3	10.1	4.4	28	63	880	915	873	917	0.76
19	40	7.1e-05	0.087	13.8	4.6	30	62	917	949	909	951	0.89
20	40	0.00096	1.2	10.2	0.8	26	62	976	1012	966	1028	0.77
21	40	0.0002	0.24	12.4	10.2	21	65	1027	1071	1026	1076	0.96
22	40	0.00062	0.76	10.8	4.4	25	62	1080	1117	1078	1120	0.91
23	40	0.051	63	4.6	2.2	24	64	1107	1147	1106	1148	0.95
24	40	0.00068	0.83	10.6	5.5	28	64	1139	1175	1133	1179	0.81
25	40	8e-05	0.098	13.6	4.6	22	62	1175	1215	1174	1218	0.92
26	40	0.0077	9.3	7.3	2.0	35	62	1216	1243	1211	1246	0.73
27	40	0.033	40	5.3	2.7	31	64	1247	1280	1237	1281	0.81
28	40	0.0017	2	9.4	6.4	21	64	1272	1315	1268	1316	0.88
29	40	8.8e-05	0.11	13.5	7.4	22	62	1301	1341	1296	1344	0.81
30	40	0.004	4.8	8.2	3.9	22	64	1350	1392	1341	1393	0.79
31	40	0.00024	0.29	12.1	3.9	25	65	1367	1407	1363	1407	0.86
32	40	0.00027	0.33	11.9	6.1	24	64	1394	1434	1393	1435	0.91
33	40	0.0098	12	6.9	4.0	27	64	1418	1455	1414	1463	0.79
34	40	0.011	14	6.8	5.1	15	64	1440	1490	1434	1491	0.80
35	40	0.00024	0.29	12.1	6.3	15	64	1462	1511	1461	1512	0.80
36	40	4.2e-05	0.052	14.5	7.3	24	64	1492	1532	1489	1533	0.92
37	40	0.011	14	6.7	4.7	26	64	1515	1553	1512	1561	0.73
38	40	0.17	2.1e+02	3.0	1.7	31	62	1541	1572	1532	1574	0.76
39	40	0.0024	2.9	8.9	4.0	25	63	1563	1601	1559	1610	0.63
40	40	0.58	7e+02	1.3	0.9	24	60	1604	1640	1601	1659	0.84

Sequence Information

Coding Sequence: ATGGCTAATCGTACCACGTGTCTATGCGGATGCACAGACCCGCCCGAAATGACGGCCGCAGATCCCCCGCACGAGGGTTCATGCGGCTGCAGCTACAACCCTTTCGCCGATCAAGGGAGGGACGCAGAGATCACCGACTTGTCGTTCGCATTGCGTAAATTAACCCTGATGAAATGCCAGATGAAAAAATGGAGGATGGAACGCCTGCAGTTCGAGAGCGAGGCGAGAAGCTTGAGGCAGGTGCTCCAGGCCCATGGTTTGAACGACGATATCGTCAGGCCGGATCCGCTGCTCGCTCATCTTCGGGAATACAATGCGAGGCTCGAGAACGAGAAGGAGGAACTTGAGGAGAGCGTTAAAAGCCTGTCCGAAACCGTATCGGAGTATGAGAACCAGGAGAGTTCCTCCTCCGAAATTGTGAACAAAATGCGCGAGAGAATTCGGGCGATTAAGGAAGCGAACGCCGGCGAGAAACGGAGGCTACGGGAAGTCATAGCCGGGCTGAAGATCCGGCTTGAAGAAGCCCAGAACGAGTCGTCCTGCGCTGCTCTGAACCGCCTCCGAGCAAAACTGCGAGAGTTGATGAAAGGCGGTCAAGAAGCTGACCAAAGGGTGTCCATGGTGGTCCAACGGTCGATAGAAACGCTGACCGAGCTGACGGAAAATGTCGACGAGCTCAAGGCCGAGATCGAGAGACTCAGAGCCGAGATAAAAAGGCTGAAGGATTTGCTGAAGACGTGCGAAGACCGGGCGGACGTCGGGGTCGAGACGGTCGTCGTCGACGCCAAGCCGGTGGACAAGCCGCTCTTGGAAATGGACGACTCGGAATTGCTGAACAGGATCAAGGAACTCGAGGCGTTGATTGCTCAGCTGAGAAAACAGCTGGTTGATAAAGACGCGGTGATCAACGACCTCCAGAATCAATCGTTCGAGGTCAGTTCGGAGAACAAACGTCTGTCCGTAGATCTGGACCAGATGAAGGTCAGCTTCAACGCCGTTATGCAGGAGGTCAAGGCTATGAAGGATGAACTTAAGAAGAGGGACGCAAAGGTATCCGAGCTGCTCAAAGACCTCAAAGCATCCGCGATCGATATTCTGGGATTAAACAGGCTGCAGAGTGAAATGGACGCAATCAAGCCACAGATGTACAATCTCGAGGTAGAACGCGGCCAGCTATTATCCGAGCTTGGGAAAGTGCGGGGCGTCGTATCGGAGCGGAATGATCAGATCATTAAAATACTCGAGGAGAGGGACAAGCACGCCAAAGCACTGGCCAGAGCCTCGGACGTAATGCAGGCGACGGTCGAACCGATGATGGAGAAAGAAGCGGCGCTCAAAAACGAGGTCCAAGGACTGAAAGACCGGATAGAACAGCTCGAGCGAGAGCTAGACGAGCTCAGAAAAAAACTGGCTCAATTAGAAGCGGAGAATTCCGAGATGCCGGGACTGCTCGATAAGATTAAGGAGCTGGAAGGTGAGCTGGAAAAGCTCAAGTCTCAGCTGGCCGAGGCGAAGTCCAGGGCGGATGAGCTCGAGAAAGAAGTAGCTCGGCTTAAAGCGGAGAAAGAAGAGGCGGAGAAAAAGCTCGGAGAAGCGAGGGAGGAGATTGGAAAGCTGAAGGACGAGCTCGCCGAGGTGAAAGCTGCGAAAGAAGCCGCCGAAAAAGGCCTCAGGGATTGCAGAGCTGAGAACGAGAAGCTCAGGGAAGAAAATGAGCGGTTAACTAATGAGCTAAACGCGTCTAAAGCAGAGAACGACAAGCTGAAAACCGACCTAGAGAAACTGAGAGGAGAAACGGAGGATCTGAGGGCAGAGAATGATCGGTTGAAAAATATGCTGGCTGGGGCCAAAAACGAGATCGATAAGCTCAGAGGTGAGCTCGAGCAGCTCAGGGCAGAGAATGAAGAGCTCGAAAGTGAGGTGGAGAAACTTAACGGAGATATAGGCAGGCTGAAGACAGACAATGATAGCCTCAAGGCAGAGCTCGGGAAACTTAAAAACGAGCTCGCTGGGCTTGAGGAGGAAATCGAAAGGCTGAAGAATGCTTTGGCGGCAGCTAAAGCTGAGGCTGAGAAGCTCAAAGAAGATTTGGAAAACGTGAGAAATGAGCTCGGAAAATTAAGGGCTGAGAATGATCAGGTCAAAAGTCAGTTGGCCGATGCTAAAGCTGAGAACGAGAAGCTCAAAAGTCAGTTGGCCGATGCTAAAGCTGAGAACGAGAAGCTCAAAAGTGAGCTCGAAAAATTGAAGGGAGAAATGGATACGCTGAGACAAGAAAATAACGACCTTAAGTCAGAGAGAGACAGGCTGCAAGCAGAGCTCGGAAAAGTTAGAAATGAGCTCGGCGAGCTCGAGGCTGAGATGGAGAAGGCGAAGAACGCTTTGTCAGCATCCAAGGCTGAGGTTGAAAGGCTCAAAAACGACTTGGAAAAAATGAAGACAGAGCTCGACAAGCTCAAGGCGGAAAATGATCAGCTGAAAAATGAGCTAGGCGACGCTAAGGCGGAGAACGCGAGGCTGAGAAAGGAGCTCGATGAGCTGAAGGGAGAGATAGACAAGCTGCGAGAAGAGAGTAAGAACCTCAAGGCGGAAAAGGACAGGCTGGAAGCAGAGCTCAATAAAATTAGAGGAGAATTGGATAGCCTTAAGGGTGAGAATGAGAGACTCAAGGCTGACCATGAGAAACTTAAAAGCGAGTATGAGGCCTTGAAGTCAGAGAATGAGAAGTTGAAAAAGAGCTTGAGCGACGCAGAGGCGAAGGTGAAAGCGCTCGAAGCCTCGAACGCTGAACTTGCGAGTAAAATTGCGGAGCTGAAGAATCAAGTTGATAAACTTGAGAACGAATTGGCGTCGGAAAAAGCTGCGAAAGAAGCAGCGATCAAGGAACTGGCGGCCCTCAAGGACGAGCTGAAAGCTCTGCTGGGAGAAATGGACAGACTTAAGGCGGACTGCGACAGGCTGAAAGGACAAGTCGACGATCTGACTAAACAGCTGTCGGATTTGAGAAACGATTTTGATCAGCTTAAGGCCAAGTATGCCGACGCGGCGGCAGAGAGAGACAAGCTTAAAGCTGAGCTTGATAAGTCGAAGGAAGAAAACGACAGGCTGAAAAATGACCTGGAGAAGCTCAAGGCAGAGCTTGACGCGTTGAAGACAGAGAATCGCGCGCTCAAGGAAGAGAATGCCAAATGGAAAGACGAGAACGAGAAGCTGAAGAAAGCTGTGAGCGATGCTGAAGCCAGGATTAAAACACTCGAGGACGAGGTAAGGGCGAGCGAAGAGGAGAAGGCGAGGCTGCGAAAAGAGATCGAGGGTCTGAAAGATCGGATTGAAGAAATGCAGAAGGAGCTTGCTGCCGAGAAAGCTGCGAAAGAGGCGGCCTTGAAGGAACTTGGAGCCGTCAAGGCTGAGCTGGCTGCACTTAGAGCCGAGCTGGACAAAGTGAGAGCGGAGAATGCCAAGCTTAAAAGTGAGCTGGATAAACTGAGATCAGAAAACGGCGAACTTAGAAATGAGAATGAGAAAATGAAGGGCGAAATTGACAGGCTGAAGGCAGAGGCTGCGAGATTAGAAAACGATATGAATACCTTGAAGGCAGAGAATGCGAAGCTTAAAGAAGATCTGGACAAGCTAAATGCCGAAAACAAGAATATCAGAGCTGAGAATGACAAGTTGAAGGGAGAACTGGATCAGCTTAAGGCAGAGAATGCGAAACTGAAGGACGATCTTGCTGCTGCTAAATCAGAAGCTGCGAAACTCAAGAACGACTTGGACAAATTAAAATCTGAACTCGATGCCATGCAAGCAGAGAATAACAGGATGAAGGGAGAACTTGATAAGCTGAAGTCAGAGATTGCGAAGCTACAAGATGATCTGAATACCCTGAAAGCAGAGAATGGGAAGCTCAAAGAAGACCTTGAGAAACTAAATGCTGAAGTCAAGGCACTGAGATCTGAAAATGATAAATTGAAGGGAGAACTGGATCAGCTTAAGGCAGAGAATGCGAAATTGAAGGACGATCTTGCTGCTGCTAGATCAGAAGCTGCAAAGCTCAAGAACGACTTGGATAAATTGAAATCTGAACTCGATGCGATGCAAGCAGAGAATAACAGGATGAAGGGAGAAATTGATAAGCTGAAATCAGAGAATGCGAAGCTACAAGATGATCTAAATACCCTCAAGGCAGAAAATGGGAAGCTCAAAGAAGATCTTGAGAAACTAAATGCCGAGAACAAGGCACTGAGATCTGATAATGATAAATTAAAAGGAGAGCTGGATCAGCTTAAGGCAGAGAATGCGAAATTGAAGGACGATCTTGCTGCTGCTAAATCAGAAGCTGCGAAACTCAAGAACGACTTGGATAAACTGAAATCTGAACTGGACGCGGCGCAGGCAGAGAATAACAGGATGAAGGGAGAAATTGATAAGCTGAAGTCGGAGAATGCGAAGCTACAAGATGATCTGAATACCCTGAAAGCAGAGAATGGGAAGCTCAAAGAAGATCTTGAGAAACTAAATGCTGAGAACAAGGCACTGAGATCTGAGAATGATAAATTGAAGGGAGAACTGGATCAGCTCAAATCAGAGAATGCGAAATTGAAAGACGATCTTGCTGCTGCTAAATCCGAAGCTGCGAAACTCAAAAACGACTTGGATAAATTAAAATCTGAACTAGATGCGGCGCAGGCAGAGAATAACAGGATGAAGGGAGAACTAGATAAGCTGAAGTCGGAGAATGCGAAGTTACAAGATGATTTGAACACCCTGAAGACAGAGAATGCAAAAATGAAGGATGACCTCGCCGCCGCTAAAGCAGAAGTGTCAAAGCTCAATGATGACTTAGTTAAACAAAAATCTGAGCTCGCCGCGATGCAAGCAGAGAACAATAGAGTCAAAGGAAAACTCGACGGGCTAAAAGCAGAGGATGGTAAACTCCAGGCGGATCTTGATGCCTCAAAGGACGAGAATGCCACGCTGATGTCTGACAAGGTTGACAAACTGAAAATCGATGGCGAAAAGTTGAATAAGGATCTTCAGGACGCGAGTCCAGGGTTAGATAAGCCGAAAGCTGAGGTCGATAGCCTGAAGAAATTAGGCAGCGAACTAAAAGGTCCGAAAAAACCGCTTTCGGAAACACCGAAGAGATCCGATACCGAAAGGGCGAAAGACGCCGGGAAGAAAGAGCCGCAGATTAAAGTACCGCGGGCTACCGTTCCATCCGGGAAATTTTTTAAAAGTGATCAACGACCCTCGGTTATAAAAAGGGACCAAGGTTCACAGGGCGCGGGCTGCGGCGATTACGAAAATGCAAACGAACAGCTGAGGAGAAACATGAATATGCAGGAGAGAGGTGTCCAACGGGTACGAGACTTCGTCAAGTACGTTTTGGGCGAGAGGAGTTCCCCGCCTGAAATGGCTACGCAGCGAATGTCTTTGATGCCAGGTAGAAATTTCCCCGAAGACATAATGCAGCTGTTAAAGGAGTCGCAGTTCCTGTCGGATTCTATATTCGAAACGGAAGTCGAGGTCCAGCGGCTGGTCGATCTAGTCGAGGAGTTGAACCGGCTCAGAGAGCAAGATACCCAGGACGCGGAGGGGTTCGGCGACGCCTTCGACGCCGAGTCCTGGCTGAAAACACTGACGCTAACGGAATTGGCCGAACTTCACGACAGGATATGCCTCGTTACGTCGTGCATGGTTCAGCAGGACATAAACCCCGAGGATTACCTGGACGGTATTGAAACCGAGGGAGTTTGCCGCCCCTGCAGTTTGCCCGACGAATTTACCGAGGATCCAATCCCCGACCACGAAGCATTGAGCCGAAGAATAGGCGCTCTCCAAATGCAGATAAACAAAAAACAGGACGAGGCGGCTTTGAAGGTGAAAAAAATGCGGCAGACTATGTGGCGGGAGCAGGAAAATCTGATCAAATTATCGGAGGAGATGAACGCCCAGAAGCGTAGAAATCTGTCGATGAAGATTAAAATCGACGAGAATATCCACGCCGAAGATGAGAGCGAAACGGTCGTCCTTTGCGACCGGAAACGGCCCCCGAAGATCAGCGCAATGAAGGATAATAAATTCCTGGAGAATAAGGGCGATTCAAGATCGTCTTTAACCCCGGCCAGGGGCCAGAGACAAAAACCACCGCCTTGTGCCGCTCCGGTTAGACGCGCGGGTGTAACTTGCTGTGTCAAGCCTTGCTGCCCTTCGGCTATGAATAGGGATACTTTGTTCGGGAAAAAAACAGGGTCTGGATAA
Protein Sequence: MANRTTCLCGCTDPPEMTAADPPHEGSCGCSYNPFADQGRDAEITDLSFALRKLTLMKCQMKKWRMERLQFESEARSLRQVLQAHGLNDDIVRPDPLLAHLREYNARLENEKEELEESVKSLSETVSEYENQESSSSEIVNKMRERIRAIKEANAGEKRRLREVIAGLKIRLEEAQNESSCAALNRLRAKLRELMKGGQEADQRVSMVVQRSIETLTELTENVDELKAEIERLRAEIKRLKDLLKTCEDRADVGVETVVVDAKPVDKPLLEMDDSELLNRIKELEALIAQLRKQLVDKDAVINDLQNQSFEVSSENKRLSVDLDQMKVSFNAVMQEVKAMKDELKKRDAKVSELLKDLKASAIDILGLNRLQSEMDAIKPQMYNLEVERGQLLSELGKVRGVVSERNDQIIKILEERDKHAKALARASDVMQATVEPMMEKEAALKNEVQGLKDRIEQLERELDELRKKLAQLEAENSEMPGLLDKIKELEGELEKLKSQLAEAKSRADELEKEVARLKAEKEEAEKKLGEAREEIGKLKDELAEVKAAKEAAEKGLRDCRAENEKLREENERLTNELNASKAENDKLKTDLEKLRGETEDLRAENDRLKNMLAGAKNEIDKLRGELEQLRAENEELESEVEKLNGDIGRLKTDNDSLKAELGKLKNELAGLEEEIERLKNALAAAKAEAEKLKEDLENVRNELGKLRAENDQVKSQLADAKAENEKLKSQLADAKAENEKLKSELEKLKGEMDTLRQENNDLKSERDRLQAELGKVRNELGELEAEMEKAKNALSASKAEVERLKNDLEKMKTELDKLKAENDQLKNELGDAKAENARLRKELDELKGEIDKLREESKNLKAEKDRLEAELNKIRGELDSLKGENERLKADHEKLKSEYEALKSENEKLKKSLSDAEAKVKALEASNAELASKIAELKNQVDKLENELASEKAAKEAAIKELAALKDELKALLGEMDRLKADCDRLKGQVDDLTKQLSDLRNDFDQLKAKYADAAAERDKLKAELDKSKEENDRLKNDLEKLKAELDALKTENRALKEENAKWKDENEKLKKAVSDAEARIKTLEDEVRASEEEKARLRKEIEGLKDRIEEMQKELAAEKAAKEAALKELGAVKAELAALRAELDKVRAENAKLKSELDKLRSENGELRNENEKMKGEIDRLKAEAARLENDMNTLKAENAKLKEDLDKLNAENKNIRAENDKLKGELDQLKAENAKLKDDLAAAKSEAAKLKNDLDKLKSELDAMQAENNRMKGELDKLKSEIAKLQDDLNTLKAENGKLKEDLEKLNAEVKALRSENDKLKGELDQLKAENAKLKDDLAAARSEAAKLKNDLDKLKSELDAMQAENNRMKGEIDKLKSENAKLQDDLNTLKAENGKLKEDLEKLNAENKALRSDNDKLKGELDQLKAENAKLKDDLAAAKSEAAKLKNDLDKLKSELDAAQAENNRMKGEIDKLKSENAKLQDDLNTLKAENGKLKEDLEKLNAENKALRSENDKLKGELDQLKSENAKLKDDLAAAKSEAAKLKNDLDKLKSELDAAQAENNRMKGELDKLKSENAKLQDDLNTLKTENAKMKDDLAAAKAEVSKLNDDLVKQKSELAAMQAENNRVKGKLDGLKAEDGKLQADLDASKDENATLMSDKVDKLKIDGEKLNKDLQDASPGLDKPKAEVDSLKKLGSELKGPKKPLSETPKRSDTERAKDAGKKEPQIKVPRATVPSGKFFKSDQRPSVIKRDQGSQGAGCGDYENANEQLRRNMNMQERGVQRVRDFVKYVLGERSSPPEMATQRMSLMPGRNFPEDIMQLLKESQFLSDSIFETEVEVQRLVDLVEELNRLREQDTQDAEGFGDAFDAESWLKTLTLTELAELHDRICLVTSCMVQQDINPEDYLDGIETEGVCRPCSLPDEFTEDPIPDHEALSRRIGALQMQINKKQDEAALKVKKMRQTMWREQENLIKLSEEMNAQKRRNLSMKIKIDENIHAEDESETVVLCDRKRPPKISAMKDNKFLENKGDSRSSLTPARGQRQKPPPCAAPVRRAGVTCCVKPCCPSAMNRDTLFGKKTGSG

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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