Basic Information

Insect: Molorchus minor
Gene Symbol: -
Assembly: GCA_029963825.1
Location: JAPWTJ010000811.1:10316-19080[+]

Transcription Factor Domain

TF Family: zf-BED
Domain: zf-BED domain
PFAM: PF02892
TF Group: Zinc-Coordinating Group
Description: The BED finger, which was named after the Drosophila proteins BEAF and DREF, is found in one or more copies in cellular regulatory factors and transposases from plants, animals and fungi. The BED finger is an about 50 to 60 amino acid residues domain that contains a characteristic motif with two highly conserved aromatic positions, as well as a shared pattern of cysteines and histidines that is predicted to form a zinc finger. As diverse BED fingers are able to bind DNA, it has been suggested that DNA-binding is the general function of this domain [3].
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 33 5.6e-09 1e-05 26.2 2.1 1 44 58 106 58 106 0.95

2 33 7.4e-09 1.4e-05 25.8 5.3 3 43 121 160 119 161 0.91

3 33 9.9e-07 0.0019 19.0 0.1 12 44 184 216 178 216 0.89

4 33 2.1e-10 3.9e-07 30.8 2.6 2 44 243 284 242 284 0.96

5 33 1.3e-11 2.4e-08 34.7 1.6 1 43 311 353 311 354 0.97

6 33 2.3e-10 4.3e-07 30.6 1.9 1 43 403 443 403 444 0.93

7 33 4.6e-11 8.5e-08 32.9 5.8 3 44 465 506 463 506 0.97

8 33 7.6e-08 0.00014 22.6 0.0 3 43 535 574 533 575 0.93

9 33 4.8e-09 9e-06 26.4 2.9 14 42 609 637 602 638 0.92

10 33 2.1e-14 3.9e-11 43.6 4.6 3 44 700 739 698 739 0.97

11 33 8.1e-13 1.5e-09 38.5 2.8 3 44 786 826 784 826 0.97

12 33 9e-13 1.7e-09 38.3 0.5 3 44 870 910 868 910 0.97

13 33 9.9e-10 1.8e-06 28.6 0.3 14 44 957 987 950 987 0.91

14 33 0.34 6.4e+02 1.3 0.1 1 11 1028 1038 1028 1043 0.84

15 33 2.1e-10 4e-07 30.7 0.3 1 44 1169 1211 1169 1211 0.97

16 33 1.7e-13 3.2e-10 40.6 1.3 3 44 1245 1285 1243 1285 0.96

17 33 2.4e-15 4.5e-12 46.6 0.4 1 44 1327 1369 1327 1369 0.97

18 33 6.6e-13 1.2e-09 38.8 2.0 1 44 1415 1456 1415 1456 0.96

19 33 4.8e-12 9e-09 36.0 1.8 1 44 1491 1533 1491 1533 0.95

20 33 1.8e-11 3.3e-08 34.2 4.3 1 44 1571 1613 1571 1613 0.97

21 33 3.6e-10 6.7e-07 30.0 3.0 3 44 1651 1691 1649 1691 0.95

22 33 1.1e-11 2.1e-08 34.8 0.2 1 44 1718 1760 1718 1760 0.96

23 33 9e-06 0.017 15.9 0.4 3 44 1783 1819 1782 1819 0.87

24 33 0.0019 3.5 8.5 1.2 25 40 1857 1872 1855 1878 0.85

25 33 0.00012 0.23 12.3 1.0 31 44 1941 1954 1930 1954 0.89

26 33 2.6 4.8e+03 -1.5 0.1 3 9 2004 2010 2002 2014 0.83

27 33 2.5 4.6e+03 -1.5 4.3 33 44 2016 2027 2010 2027 0.88

28 33 0.0016 2.9 8.8 1.1 29 43 2073 2088 2068 2089 0.83

29 33 0.099 1.8e+02 3.0 0.6 24 43 2134 2153 2133 2154 0.87

30 33 0.0094 17 6.3 0.5 26 44 2230 2248 2226 2248 0.88

31 33 1.8e-09 3.4e-06 27.7 1.3 3 44 2304 2344 2302 2344 0.96

32 33 1.6e-11 3e-08 34.3 8.1 1 44 2372 2418 2372 2418 0.96

33 33 1.8e-05 0.034 15.0 2.5 1 43 2452 2488 2452 2489 0.77

#	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	33	5.6e-09	1e-05	26.2	2.1	1	44	58	106	58	106	0.95
2	33	7.4e-09	1.4e-05	25.8	5.3	3	43	121	160	119	161	0.91
3	33	9.9e-07	0.0019	19.0	0.1	12	44	184	216	178	216	0.89
4	33	2.1e-10	3.9e-07	30.8	2.6	2	44	243	284	242	284	0.96
5	33	1.3e-11	2.4e-08	34.7	1.6	1	43	311	353	311	354	0.97
6	33	2.3e-10	4.3e-07	30.6	1.9	1	43	403	443	403	444	0.93
7	33	4.6e-11	8.5e-08	32.9	5.8	3	44	465	506	463	506	0.97
8	33	7.6e-08	0.00014	22.6	0.0	3	43	535	574	533	575	0.93
9	33	4.8e-09	9e-06	26.4	2.9	14	42	609	637	602	638	0.92
10	33	2.1e-14	3.9e-11	43.6	4.6	3	44	700	739	698	739	0.97
11	33	8.1e-13	1.5e-09	38.5	2.8	3	44	786	826	784	826	0.97
12	33	9e-13	1.7e-09	38.3	0.5	3	44	870	910	868	910	0.97
13	33	9.9e-10	1.8e-06	28.6	0.3	14	44	957	987	950	987	0.91
14	33	0.34	6.4e+02	1.3	0.1	1	11	1028	1038	1028	1043	0.84
15	33	2.1e-10	4e-07	30.7	0.3	1	44	1169	1211	1169	1211	0.97
16	33	1.7e-13	3.2e-10	40.6	1.3	3	44	1245	1285	1243	1285	0.96
17	33	2.4e-15	4.5e-12	46.6	0.4	1	44	1327	1369	1327	1369	0.97
18	33	6.6e-13	1.2e-09	38.8	2.0	1	44	1415	1456	1415	1456	0.96
19	33	4.8e-12	9e-09	36.0	1.8	1	44	1491	1533	1491	1533	0.95
20	33	1.8e-11	3.3e-08	34.2	4.3	1	44	1571	1613	1571	1613	0.97
21	33	3.6e-10	6.7e-07	30.0	3.0	3	44	1651	1691	1649	1691	0.95
22	33	1.1e-11	2.1e-08	34.8	0.2	1	44	1718	1760	1718	1760	0.96
23	33	9e-06	0.017	15.9	0.4	3	44	1783	1819	1782	1819	0.87
24	33	0.0019	3.5	8.5	1.2	25	40	1857	1872	1855	1878	0.85
25	33	0.00012	0.23	12.3	1.0	31	44	1941	1954	1930	1954	0.89
26	33	2.6	4.8e+03	-1.5	0.1	3	9	2004	2010	2002	2014	0.83
27	33	2.5	4.6e+03	-1.5	4.3	33	44	2016	2027	2010	2027	0.88
28	33	0.0016	2.9	8.8	1.1	29	43	2073	2088	2068	2089	0.83
29	33	0.099	1.8e+02	3.0	0.6	24	43	2134	2153	2133	2154	0.87
30	33	0.0094	17	6.3	0.5	26	44	2230	2248	2226	2248	0.88
31	33	1.8e-09	3.4e-06	27.7	1.3	3	44	2304	2344	2302	2344	0.96
32	33	1.6e-11	3e-08	34.3	8.1	1	44	2372	2418	2372	2418	0.96
33	33	1.8e-05	0.034	15.0	2.5	1	43	2452	2488	2452	2489	0.77

Sequence Information

Coding Sequence: ATGCAAAATCAGTTGATAAGATACCACCAGAAGAGCATAATTAAAATACAGCCCTACAGAACGTTTGTTAAGTACCAGTCTGACAATGCAAGCGAAGAATCGAGGAACATTGGCGGCTACTTAATTTCAGAAGGtgaaataaaaaggaaagtacTCGGAGAGCAGCGAAGGAGTCCCGTTTGGAAACACTACATCATAAGTGAGACCACCAGACGAGCCAAATGTAGATATTGCCAAAAATCGTTTAGTGTTAACCCGAATGCGCTTAAACCCATCAATATATACAACTTGAGGCACCACTTGTTAATGCGGCATAAGCAGATTCCTCCTGAAAGTTTGCGTAGCGCTAAGCGAAGTTTTGTTTGGAACCACTTTACAAAAAACAATGTTGCAGATTATGCAGTATGCAATTACTGCCAAAGGACAATTAAAGGTTGTCGTAGTACGTCCAATTTAAGATTTCATTTAATGCTTCATCATAAAGCTGAAATCGTCAAAGATATTGACAAATCAGAAACTGAAGTAGGAGATGACACTGTAGAACATGTATTGGATGTCACAAAAGCGGTTTGCAACTACTGCTCTAAAGAAATAGTTACCATTGGCGGAATAGCTGTTTTGAGGTATCATTTAATGAAGTACCACAAAGAAATGATGGTGCAAAGCAACAGCGAAGAACATTCGACAGAACATTCGGAGAATCAGATAACTACTGGCCATCCTAGTTACGTTTggaaacactttaaaaaaagtagtacCGATAGGGcaatatgtaaatattgttCGAAAATTGTCAACATAATGTACTCAAATGTTACCGGTTTAAGGTTACATTTGATTAGATACCATCAAGACAGGGTGTCAGATACAAATGATGATTTTGCAACGCTCGCTCAGAGACATATCACGAGTACAGAGCACCGGAAGAGGAGTTTAGTTTGGTTGCATTTCAAGAAATTCCCCGACTATCCCTACAGAGTACGGTGTGATCACTGTGGATGGGAATGCAACACTGGCGGGAGCACAAGCAATATGAGGCAACATCTTATTAGAAAGCATGCTGAAAGCTTTTTCAATGCAACCGATAACGAGTCGCTAGCATATGATGAATTAAAAGAGGTAGTTGACTCGACCATCGGTGAAACAATCTCAGAAAAATCTACTGATGATATGTTTCTGATGGCCGATCTCAAAGTGAATCCAAGAAGTAGCGTTTggaaccattttaaaaaatcgcgaTTCGAAAACAGAGTAACATGCAATTATTGCTCGAAAGAAATAAGCGATAGGAGTTCAACGACTTTGAGGGTTCATCTACTGAAGGACCACGATATCTCTACCAAAATCTGTGACTCTATGGCGAAAAACGAAAAATCAGGCCTAAAAAGTTTTGTATGGAAACACTTCTTAAAAATGGAAAACGACCCACTTAAAGCTAAATGCATTCACTGCTATCGCGCATGTAATACCCATGGAAACACAACCAGTTTAAGAAGTCACCTTCAAAGGTATCACCAAAGCGAATTAGACGCAGAAGATAGCCAGTTCCAGAACGACCAAAGTAATTTGAAAGAGGTCGAGGAAGATGCTCTCGAAAGTTTCGTATGGAGACATTTTGAAACCACCTCGGAAGACCCACCAAAGGCGAGATGCATTCATTGCGAAGACGTGCAGGATTCTGGCGACATTACTGCATTGAAAGAGCATCTAATCGAACTTCATGCAGATAGTTTAGCTTTTGACGAACAAGTGGAAGATAATCTTCATGAGCCCACATCAAGTGAAGGAAACGaaacagaaataaaagaaattcgAAGATTGTGGGAATCAAAGGCTCTTTGCATCTATTGCAAGAAGGAGTTTCATACTAGCGGAAACACCACAAATTTAATGAACCATTTGAAGAGGTGTCAGAGTGCCGGAATTACAGACGATTTCGCAGCAGATTATAAGCTAAGCTTCAGGGGGAGTGGTGGCAAAAAGTCGACCGATGCGAGTGAATTGAAAACTTTCTTATTGAATTTCGGCTCTTCTATCGCTGAAAATGATGTAGATGCGGACACGAATGCAGACCAAACGAAACGCCTCAGAAGTTTTGTGTGGAACCACTTCAAGAAATCTAATGATCGTAAAGCAATTTGTATCCACTGCGAAAAAGAGCTAAATACCAGCAGGAACACGTCTAATTTAAAAAGCCACCTGATGAGATTTCACCAAGAAGAAATTACCGCCGATACGTTCTTGCACACCGAGCTACATATAAAGGATGGAGAGAACGAGCAGCCTGACAAAAATGTTGAACAGTCGGCGGAAAATGTCTGGAAGAACCAATCGGATAAACGACAGAGAAGTTTTGTTTGGAACCACTTTGAAAAAGGCGAGGACCTCTTTATGGCAACTTGTATCCATTGCAAAAAAGAACTGCACACCAGCGGaaatacaacaaatataatGAACCACTTGTTACGCTTTCATAAGGAAGAAATGACAGAAGAGGAATTACAGTGTCAAGGCAGAGAAGCGTCAGTCTATTTCAACGAACTAATAGATGCACGCTGGTCAGAAGATTTTACGATTGGTGAGACAGACAGGTTGAAGAAGAGCTTTATTTGGAAACACTTTAGGAAGACTGAAAATCCATTTAAGGTGGAATGTATCTATTGCAAAAGGCAATTTAGTACCATTGGAGGcataagcaatttaaaaaaacatgtggCACGAGCCCATCCCGAAGAAATGGACTATGAAGAAAATGAACAGTTTAGTGACAGAATTGTTGATGAACAGCTATCGGAAAATGCCTCGGCAATTAAAGCTAACAGCAGCAAGTCGAAGTTACGTTTGGAACCACTTTCGAAAAGCGAAGACCCTCTGAAGGCAACTTGTCTTCACTGCGACAAGGAACTAAACACCAGCGGAAATACGACAAATATAAAAAGTCACTTATTAAGATTCCACCAAGATGAAATGGCAGAAGAAGAAGTTTTACAAAGCTTGACCAAAGAAGAAACGATTATTTTAACTGAGGAGCAGAGCGATGACGAGTCGTTAGAAAATGTTGCATTCACAGCTAACAGAAGCAGTTCTGTTTGGAAACACTTTAAGAAATCCGAAGATCCGTTGAAGATTCCACCCGGAAGCATTGAAGAAAACGACGGAATAACCGATGGGAACAGTTATTGGAAAATGCCTCGGCAAGCAAGCCAAGAGTCGAAACAAAAAGTTTCGTTTGGAACCACTTCCGGAAAGCGAAGACCCTCTCAAGGCAATTTGTATTCACTGCGACAAGGAACTAAACACCAGCGGAAATACAAGCAACATAATGAGTCACCTGTTAAGGTTTCATTGAAGAAAATGAAGGAAGATGAAATATCACAGTGGCAAGGCAGAGAACTTGCTAGTACAAAAACTGGTCGACGCGCAATTGCCAAGAAGATGCCACGACTGAGGAGCAGAGCGACTGAAGAGTTGTTGGAAAATACTGCACTCACAGATAGCAGAAGCAGTTCCGTTTGGAAACACTATAATAAATCTGAAGGTCCATTGAAGGTAGAATGTAATTATTGCAAAAGACTATTTAGTACCGTTGGAGGTCCGAgtaatttgaaaaaacatttggCGCGATTCCATCCAAAAGAATATTCGTATGAACAAGAAGATGATGGAATAATCGATGAACAGTTATCAGAAAAATGCCACGGCAAGCAAAGCCAAGAGTCGAAAAAAAGTTTCGCTTGGAACCACTTTCGGAAAAGCGAAGACCCTCTCAAGGCAATTTGTATTCACTGCGACAAGGAACTAAATACCAGCGGAAACACAAGCAACATAATGAACCACTTGTTGAGATTTCATAAGGAAGAAATGACGGAAGATGACATATCACAGTGCCAAAGCAGAGAAGGGGCTAGTACTACATTAGTCGATGCGCGATTGTCAGCAGAAGATACTATGACCAGCGAAACGGACAGAATAAATAGGAGTGTTGTTTGGAAACACTTTAGGAAGACTGAAAATCCAACTAAGGCAGAATGTATTTATTGCGAAAGACAATTCAGTACCATCGGAGGtatcagcaatttaaaaaagcatatgGTACGAGTCCATCCAGACGAATTTGAGTTCCATCAAGATGAAATGGCAGACGAGGAAGTTATGCAAAGCTTGTACAAAGAAGAATCGGTATTTTTAACGGGCGAGAAGGACCAAGACGACGTTAATACCGCCCTCACATCCAACAGAAGCAGTTCTGTTTGGAAACACTTTAAAATCGGTGGCAACTGGTCGAAAGTAGAATGTATTTATTGCGAAAAGGAATTCGCCACAACGAGCACGAgcaacttaaaaaaacatataacacGATCCCATCCAGAAGAAAACGGCGCAAGTCGACGTAAAGAAGGGATAAGTGAAGAGAACGGCCAAGCCAGTGATGAATCGGAAAAACATTGTGCAAGAATTTATAAACGGCGCAGTCTCGTTTGGGACCACTTTCTGAAAGGTGAAAACCCTCAGACggcattttgtaattattgcaaAAAGGAATTGCATACCAGCGGAACCacgagtaatttaaaaaaacacttgttCAGGTTTCACCGAGAAGAATTGACAAACGATGACATTTTAAAAACCAACGAAGAATCGATATATTTCAACGATGAAGACATGGACGATCCATTGTCACCAGCCAAAACTTACAACAGTGATAAGAGTTCCATTTGGATGCACTTTAACAAATGCAACGATCCGCGTAAAATCGAATGCAAGATTTGTAAAAGGGAATTCAGTTCTATCGGAAGTTCGAGCAATCTCAAAAGACATTTAGCAAAATGCCATCCAATAGAAGATAGTGAACGGGATAGCGATGAGATTCCTGTCGACCGTGAAGATCCCGACTGGGCGCCAGAAAACACCTCGGCGAACCCGACCAATAAACGAACCGCCAGTTTTGTTTGGAACCATTTCGAGAAAGGCGAAAACCCTCTTATAGCGATTTGCAATCATTGTAACACACAACTGCACACCCACGGAGGCACGTCCAGTTTAAGAAACCACCTGTTCAGATTCCATCAGGAAGAATTGACGCATAACGAAATTTTCCAACGCCGCCTTAACCAGAAAGATTTGATAATCGACCAGAACGACAAAACAAGTTCTGTGTGGAAGTACTTTAAAAAAAGCGATGATCCATCTAAAGTAGAATGtacttattgcaaaaaaacGTTCAGTATGAGCGGAGGCTTGGCCGGTTTGAAAAAACATATACTAACAGTCCACCAAGGCAAAGATGATAGTGATGGTAGCGCCGACGAATTAGAAAATGCCGATACACGAAGCCAGGGTTTTGTTTGGAACCACTTCGAGAAAGGTGAAGCCCCTCAAACAGCGACCTGTATTCACTGCTACGGGGAAGTAAACACGACCAATATGAAGGACCACCTATTAAGTTTGCATCAAACAGAAATGACAGAAGAGGAAGTTCTACAGAGCCATTGCAAGGAAGAGACGATACAAACGGAAACCGACCAAGTTTACGAAGAAAACATATGGTCCAACAAAAATCTCCGTACGATAAGTACCAGCGGAAGTACAAGCAATTTGAGAAGACACATAAGATTTCACGAGAAGCATGATAAGATTTCGGCAAGTGACAAGCTAGAGACTCTGTTCGAAGGAGACGAACCAAAAACACAGTACGGAAACCACTTGGAGATTGTTCATATCAAAGTCGAGGGCGAATATTCTGACGAAGAAGGGCGATCGTCGGAATACGAAAGCAACCCGAAAAAACGACACAGGAGCAGCGTATGGGACcactttAGTACGAGCAATTTAATGCGACACTTAGTACGGTTCCATCCGATTGAATATGGTGAGCTTTCATCGGGTCGTCGCGTAAAAGAAACCCATGAAGAAAACAATAGTGACGAGTCGGAAACGAGCTGTGTAGATACCGAAGGCAAAAAAGATGTCAGTGAAAAAACGCTAGGGAAACGACACAGGAGCTTTGTTTGGAACCATTTTAAAAAGACGGggaatttttacaaaaaTCTAAGGAGACATTTACTAAGACACCACAGGGATCAAATTAAAGACGACGTTGACTGGGAAGATTTAAAAAGTCATCAAAAAGAACTAAAGGAAGACATGGAGTGTGAAGAAGACAGACGTAAAGATGAAGATGCGCAGTCTGATAAAGGAGAGCACCGCTCCAAAAAACGAAGAGGCACGTCGAATTTCAGAAGGCATCTACAGATACAACATGCCCGTGAATTTGTGGATGCCTTCGGCAAAGACCTGAGCGAGGTTCTGGCTAACGTAGAAGCCGACGAAATGGAAAACGTGTCGCAGAACGAAAATGTGGAATTAGAATGCGATGATGAATCCACCGACGCGACTAAGATTATAACTGGAAACCACACCACGGACAATTTGAAAAAACACCCATTGCGGTTCCATCAAAGCGCAGACATTAAAGAAGAAGACAGGCGCGACAGTGACGAGTTGGATATACAAGAAAGTACCTTGGACTACCTCCAGTTAAAAGCCGTAGAGAAAGACTGCATAGATAATGTCTGGGGAGAATTATTGTCTGATAGTGAGGGTCGTAAGGATGTTGACGAGGAAATCGAAGAAAAGGAGGTGTTCGAGAGTAGAAAATTCCTCCACAGGCGGAAGAGTTTTgtGCTGCATTATAGCGGAAGCACGAGTAATTTGAAAAATCACTTCTTAAGATTTCACAAGGAGTTTTCGATCGGAGAAAGCATTTGTGCGAAAAATTCAACCCAAGTTAGTGGAAATAATATAGAGTTTGTTATTTCCGACGGTGATGAAGAAAAAATCGATAGTTTATGTGAGGAATCCGATGAGATATTAGGAAAATCTGACAACAATCCCCATAAAAGCTTTATATGGGACCATTTTAGGAGAACGGCCGACCCGCTCGTAGCCATTTGCAATATTTGTGAGAGGAAATGCCAAACTCGTGGCAATACGACCAGTTTGAGGTTGCATTTAGTAAGGTATCACAAAGATAGCCTAAGAACCAGCCGTATCGATGAAGATAAAGTGGAGAGGACGACAGCAAAGAAAATCCCTACCACCAAAGGACAGAGTGTCGTATGGAAACATTTCAAGAAAAACAAGGCTAAGAATAGAGCTACTTCTGCTACTTGTTTCCACTGCAAACAATCCATTAGAATGCACAGGGGGAGCACGTCGAATTTAAGAAGCCATCTGCGGTCTAAACACAAAGAGGCTCTGGACGACGTCGTTGAAATTCCATCCAGGGTTAAAAGACCGTTGGAGGAAGACGATCCTCTCGAGGGGCCCGAGCCGAAAAAGCCCCGGGAAAGCTCGGTGTGGCAGTATTTTGATCATCGTCCGTCACAAAAGGCTGCGTGTAAGTTTTGCAAGCAGATCTGCGGTGTTAACGATTTGCACTTACATTTGAAGACATACCATCGGATAGATTTGGATAAACTTTGTGAAGAAGCCGATACTGTCGATGATGGTGTACAGCGTATTAAGGAAGAAATCGATAGTGACGGTCTTGAAGATTTTGATAAGGACTATGTAATATTAGTGGTCGAGTGA
Protein Sequence: MQNQLIRYHQKSIIKIQPYRTFVKYQSDNASEESRNIGGYLISEGEIKRKVLGEQRRSPVWKHYIISETTRRAKCRYCQKSFSVNPNALKPINIYNLRHHLLMRHKQIPPESLRSAKRSFVWNHFTKNNVADYAVCNYCQRTIKGCRSTSNLRFHLMLHHKAEIVKDIDKSETEVGDDTVEHVLDVTKAVCNYCSKEIVTIGGIAVLRYHLMKYHKEMMVQSNSEEHSTEHSENQITTGHPSYVWKHFKKSSTDRAICKYCSKIVNIMYSNVTGLRLHLIRYHQDRVSDTNDDFATLAQRHITSTEHRKRSLVWLHFKKFPDYPYRVRCDHCGWECNTGGSTSNMRQHLIRKHAESFFNATDNESLAYDELKEVVDSTIGETISEKSTDDMFLMADLKVNPRSSVWNHFKKSRFENRVTCNYCSKEISDRSSTTLRVHLLKDHDISTKICDSMAKNEKSGLKSFVWKHFLKMENDPLKAKCIHCYRACNTHGNTTSLRSHLQRYHQSELDAEDSQFQNDQSNLKEVEEDALESFVWRHFETTSEDPPKARCIHCEDVQDSGDITALKEHLIELHADSLAFDEQVEDNLHEPTSSEGNETEIKEIRRLWESKALCIYCKKEFHTSGNTTNLMNHLKRCQSAGITDDFAADYKLSFRGSGGKKSTDASELKTFLLNFGSSIAENDVDADTNADQTKRLRSFVWNHFKKSNDRKAICIHCEKELNTSRNTSNLKSHLMRFHQEEITADTFLHTELHIKDGENEQPDKNVEQSAENVWKNQSDKRQRSFVWNHFEKGEDLFMATCIHCKKELHTSGNTTNIMNHLLRFHKEEMTEEELQCQGREASVYFNELIDARWSEDFTIGETDRLKKSFIWKHFRKTENPFKVECIYCKRQFSTIGGISNLKKHVARAHPEEMDYEENEQFSDRIVDEQLSENASAIKANSSKSKLRLEPLSKSEDPLKATCLHCDKELNTSGNTTNIKSHLLRFHQDEMAEEEVLQSLTKEETIILTEEQSDDESLENVAFTANRSSSVWKHFKKSEDPLKIPPGSIEENDGITDGNSYWKMPRQASQESKQKVSFGTTSGKRRPSQGNLYSLRQGTKHQRKYKQHNESPVKVSLKKMKEDEISQWQGRELASTKTGRRAIAKKMPRLRSRATEELLENTALTDSRSSSVWKHYNKSEGPLKVECNYCKRLFSTVGGPSNLKKHLARFHPKEYSYEQEDDGIIDEQLSEKCHGKQSQESKKSFAWNHFRKSEDPLKAICIHCDKELNTSGNTSNIMNHLLRFHKEEMTEDDISQCQSREGASTTLVDARLSAEDTMTSETDRINRSVVWKHFRKTENPTKAECIYCERQFSTIGGISNLKKHMVRVHPDEFEFHQDEMADEEVMQSLYKEESVFLTGEKDQDDVNTALTSNRSSSVWKHFKIGGNWSKVECIYCEKEFATTSTSNLKKHITRSHPEENGASRRKEGISEENGQASDESEKHCARIYKRRSLVWDHFLKGENPQTAFCNYCKKELHTSGTTSNLKKHLFRFHREELTNDDILKTNEESIYFNDEDMDDPLSPAKTYNSDKSSIWMHFNKCNDPRKIECKICKREFSSIGSSSNLKRHLAKCHPIEDSERDSDEIPVDREDPDWAPENTSANPTNKRTASFVWNHFEKGENPLIAICNHCNTQLHTHGGTSSLRNHLFRFHQEELTHNEIFQRRLNQKDLIIDQNDKTSSVWKYFKKSDDPSKVECTYCKKTFSMSGGLAGLKKHILTVHQGKDDSDGSADELENADTRSQGFVWNHFEKGEAPQTATCIHCYGEVNTTNMKDHLLSLHQTEMTEEEVLQSHCKEETIQTETDQVYEENIWSNKNLRTISTSGSTSNLRRHIRFHEKHDKISASDKLETLFEGDEPKTQYGNHLEIVHIKVEGEYSDEEGRSSEYESNPKKRHRSSVWDHFSTSNLMRHLVRFHPIEYGELSSGRRVKETHEENNSDESETSCVDTEGKKDVSEKTLGKRHRSFVWNHFKKTGNFYKNLRRHLLRHHRDQIKDDVDWEDLKSHQKELKEDMECEEDRRKDEDAQSDKGEHRSKKRRGTSNFRRHLQIQHAREFVDAFGKDLSEVLANVEADEMENVSQNENVELECDDESTDATKIITGNHTTDNLKKHPLRFHQSADIKEEDRRDSDELDIQESTLDYLQLKAVEKDCIDNVWGELLSDSEGRKDVDEEIEEKEVFESRKFLHRRKSFVLHYSGSTSNLKNHFLRFHKEFSIGESICAKNSTQVSGNNIEFVISDGDEEKIDSLCEESDEILGKSDNNPHKSFIWDHFRRTADPLVAICNICERKCQTRGNTTSLRLHLVRYHKDSLRTSRIDEDKVERTTAKKIPTTKGQSVVWKHFKKNKAKNRATSATCFHCKQSIRMHRGSTSNLRSHLRSKHKEALDDVVEIPSRVKRPLEEDDPLEGPEPKKPRESSVWQYFDHRPSQKAACKFCKQICGVNDLHLHLKTYHRIDLDKLCEEADTVDDGVQRIKEEIDSDGLEDFDKDYVILVVE

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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