Basic Information

Insect: Nilaparvata lugens
Gene Symbol: -
Assembly: GCA_014356525.1
Location: chr4:17453247-17470157[+]

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 31 3.7e-09 3.3e-06 27.5 0.5 3 44 50 90 48 90 0.96

2 31 0.0004 0.35 11.4 0.0 4 44 203 242 200 242 0.93

3 31 0.23 2.1e+02 2.5 5.7 13 44 291 320 285 320 0.88

4 31 1.1e-05 0.01 16.3 0.3 11 43 389 421 386 422 0.88

5 31 0.01 9.2 6.8 0.2 3 43 466 506 464 507 0.92

6 31 1.2e-12 1e-09 38.7 0.5 1 44 564 610 564 610 0.96

7 31 2.9 2.6e+03 -1.0 4.8 13 43 661 690 655 691 0.80

8 31 0.48 4.3e+02 1.5 3.3 14 32 746 762 738 768 0.78

9 31 2.3 2e+03 -0.7 0.9 19 35 878 894 873 896 0.88

10 31 2.6e-09 2.4e-06 27.9 0.6 1 44 1074 1114 1074 1114 0.96

11 31 1e-05 0.0092 16.4 5.1 4 42 1144 1181 1142 1183 0.95

12 31 8e-11 7.1e-08 32.8 1.7 2 44 1209 1250 1208 1250 0.97

13 31 1.3e-09 1.1e-06 28.9 0.7 1 43 1359 1401 1359 1402 0.94

14 31 4.4e-09 3.9e-06 27.2 0.5 3 43 1858 1895 1857 1896 0.97

15 31 0.013 12 6.5 0.6 5 43 1932 1970 1930 1971 0.89

16 31 9.8e-08 8.7e-05 22.9 2.1 3 44 2038 2078 2036 2078 0.96

17 31 0.025 23 5.6 2.2 3 38 2151 2185 2149 2189 0.91

18 31 3.6e-05 0.032 14.7 4.6 3 40 2255 2290 2253 2293 0.93

19 31 0.00081 0.72 10.4 0.2 3 43 2337 2376 2335 2377 0.90

20 31 0.0015 1.4 9.5 0.7 5 43 2475 2513 2473 2514 0.76

21 31 0.009 8 7.0 1.6 9 44 2548 2582 2546 2582 0.89

22 31 0.0018 1.6 9.3 1.4 12 44 2615 2648 2606 2648 0.86

23 31 0.002 1.8 9.1 1.0 3 29 2661 2685 2659 2703 0.84

24 31 0.72 6.4e+02 0.9 2.9 6 28 2739 2759 2737 2765 0.83

25 31 5.9 5.3e+03 -2.0 0.6 14 28 2829 2843 2825 2851 0.84

26 31 8.9e-08 7.9e-05 23.1 0.6 2 43 2918 2958 2917 2959 0.98

27 31 6.8e-08 6.1e-05 23.4 0.4 2 44 3026 3067 3025 3067 0.92

28 31 0.013 11 6.5 0.9 3 43 3103 3147 3102 3148 0.66

29 31 8.1e-10 7.2e-07 29.6 0.1 1 44 3263 3306 3263 3306 0.97

30 31 1.4e-06 0.0012 19.3 2.3 2 44 3385 3427 3384 3427 0.96

31 31 1.7e-05 0.015 15.7 0.0 2 44 3606 3647 3605 3647 0.95

#	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	31	3.7e-09	3.3e-06	27.5	0.5	3	44	50	90	48	90	0.96
2	31	0.0004	0.35	11.4	0.0	4	44	203	242	200	242	0.93
3	31	0.23	2.1e+02	2.5	5.7	13	44	291	320	285	320	0.88
4	31	1.1e-05	0.01	16.3	0.3	11	43	389	421	386	422	0.88
5	31	0.01	9.2	6.8	0.2	3	43	466	506	464	507	0.92
6	31	1.2e-12	1e-09	38.7	0.5	1	44	564	610	564	610	0.96
7	31	2.9	2.6e+03	-1.0	4.8	13	43	661	690	655	691	0.80
8	31	0.48	4.3e+02	1.5	3.3	14	32	746	762	738	768	0.78
9	31	2.3	2e+03	-0.7	0.9	19	35	878	894	873	896	0.88
10	31	2.6e-09	2.4e-06	27.9	0.6	1	44	1074	1114	1074	1114	0.96
11	31	1e-05	0.0092	16.4	5.1	4	42	1144	1181	1142	1183	0.95
12	31	8e-11	7.1e-08	32.8	1.7	2	44	1209	1250	1208	1250	0.97
13	31	1.3e-09	1.1e-06	28.9	0.7	1	43	1359	1401	1359	1402	0.94
14	31	4.4e-09	3.9e-06	27.2	0.5	3	43	1858	1895	1857	1896	0.97
15	31	0.013	12	6.5	0.6	5	43	1932	1970	1930	1971	0.89
16	31	9.8e-08	8.7e-05	22.9	2.1	3	44	2038	2078	2036	2078	0.96
17	31	0.025	23	5.6	2.2	3	38	2151	2185	2149	2189	0.91
18	31	3.6e-05	0.032	14.7	4.6	3	40	2255	2290	2253	2293	0.93
19	31	0.00081	0.72	10.4	0.2	3	43	2337	2376	2335	2377	0.90
20	31	0.0015	1.4	9.5	0.7	5	43	2475	2513	2473	2514	0.76
21	31	0.009	8	7.0	1.6	9	44	2548	2582	2546	2582	0.89
22	31	0.0018	1.6	9.3	1.4	12	44	2615	2648	2606	2648	0.86
23	31	0.002	1.8	9.1	1.0	3	29	2661	2685	2659	2703	0.84
24	31	0.72	6.4e+02	0.9	2.9	6	28	2739	2759	2737	2765	0.83
25	31	5.9	5.3e+03	-2.0	0.6	14	28	2829	2843	2825	2851	0.84
26	31	8.9e-08	7.9e-05	23.1	0.6	2	43	2918	2958	2917	2959	0.98
27	31	6.8e-08	6.1e-05	23.4	0.4	2	44	3026	3067	3025	3067	0.92
28	31	0.013	11	6.5	0.9	3	43	3103	3147	3102	3148	0.66
29	31	8.1e-10	7.2e-07	29.6	0.1	1	44	3263	3306	3263	3306	0.97
30	31	1.4e-06	0.0012	19.3	2.3	2	44	3385	3427	3384	3427	0.96
31	31	1.7e-05	0.015	15.7	0.0	2	44	3606	3647	3605	3647	0.95

Sequence Information

Coding Sequence: ATGTCATTAAGACCAGTTAGACGCAAAACAATGCCCGTAAATCTCGCTGATGATTACGAAATTGACGTTAAAATTGATGAAAGTAGTTCACGAGGTAGTAGGAAAAAACAACCAAAATCAAGCAAGCAGCGAAAAAAGACAAGTGGCATTTGGAGGTACTTCAAGTTGGTCGTAAACAATAAGTACGAATGTGTTCTCTGCTCTGGCAGATTGAACTATGTTGGGAACAGTACATCCAATTTCTACAGACACTTGCGTTTAAAGCATCCTTCAGAATCTGCATCACCCAAAAAAAGGAAACGAAATAGTCATTTAGAACGCTATGCCGACCCTGATATTATAATACTTTCTCCTCATCCCAGTGTTGAACAAGATCAAGAAGAGATGCAAGAGGATTTAGAAGAATTGTCGAAAGTACCATTAAACCAAAGTAATAGGCATTCCTCAGTGCCTCTTTCACGTTTACAAAAACCAACTGAGAACGTTGTAATAGAATTCGAAGGGGAGAATGAATCTAATTCGGTAGGAAAAAACGAGGAAAAGACCTGCTCAAAGGAAGTGGCAACATTAAAAGCTCATGATACAAGCTACGATGCTAGTCAGCCTTGGAGATTCTTTGATATATCAAGTGGAAATGCAGCTTGTAGGCTTTGTTTTCGTTCTCTAATTTATAAGTCGGTTGACGATTTACATGTTTTGTTGGACCATCTTGAGTCAGAGCATTCTGTTTCTCTTCACAAGCCTGATTCGGCTGAAATGGTTATCAGGGAAGAAGGTTGCGAATCAAGCAGAAGCAGCACACAAGTAGAAGCCTCTTCCAACTGCGCTAAAAATCTAGGAAGAAAATTTGAAATGTATTACAGAACTCGAAATAATCATTCAGCAACTTGTAAAATTTGTTTGAGACCGGTGTGTTACAACAGAAAAACACTCATTTCTCATCTGTACAAGGAACATAAAAAAGTATTTTCAAAAAAGTATCCAACATATTGGCATTTAGCAAGGTTCTTCAGTAATAATTCTTCAACGTTAGTATCGACCAAAGTAAAATTCTCCTCTGATGAACGTTCACCCACTCAACAAAATATGACGGACGTTTCTGGTCCCTCTGAACCATCTCGGAAATGTTTGTCGTATAGTCAGAATTTTGCAGGAAACTTTTTGAATATTGATGGGAACAAAGCAAAGTGCATGTTCTGTTCCAAATGCTTGTCCTTTTCAGGAGATACAAGTATTCTTGAGAAGCATATTCTTGAAGATCATAAAACAGCTTTTGTACAAAAGATTTTGGAAGAGATGGTGTTTACTAATACAAATACTAGTGAAAATGCAACAGGCAAGCGTGCAATCGACGTATCTGCTAGAAGTGAAACGCAGAAATTATTGAACGAGGATGTTTTATCATACTTTAAGCCACTGGGGAATCATCAATTTGAATGTAAACTCTGCTCTAAATTGTTGAGTTTGGAGAACGATGAGAGTCTCAATCAATTAGCCGAACATGTTTGGTGTACACATATGAGTAAGACATTCCGATCGATTGTGTTCCTCCAGTCTTATGGTATCTCATGTACAAGTAAAGAAGAAGACCATTCAAATTCTGAAAGCACTACTTGTCAGAAGAGTGAAAAACAGCTCCATAGTGCAATATTGAGAACAATCAAGTGGGTTAAACCTGTAGGTAAATTGAGCGACGTATGGAAATATTTTCTCACTGCAGATCCCAAATTGGCCCTACCTTATGCTAAATGTAGGTTGTGTAACCATGTTCTCTCAATTAAATCATTAAACACCAGTAACTTGGCCCGACATTTAAATACGAAACACAATGGTGTGCTTCAAGTCAATTTGAATATGCTTTATGAAAATGGGCGAATGTTTTCTATTAGTAATAGGAGGAGAATTGCAACCAACTATTTGAGAAAAGAACTTCGTAAATCCGTGAAGAAAAAGTGTGTTCCTAAAGTTTTGCCAAATAAGAATTCATCTCGTATCAAATGCAAACTTTGTTGTGAGTATCTTTCCCATTCCGATCGTGAAACGTGTGCAAAACACATGAAAGAACAACATATAAATACCTATAATATGGGAGTAACGTTTGAACAATACAAGGAAAATCAAATGACCATTATGACTATAAAAGAAAAGGCAGATGAACTGGAATCATGTTCGAAATTGAGAGAAACAGCTCTGAAAGATGATTCTCATTTGATTACTTTTTTTTGTAAATCGGCATCCAGCTATGCAAAATGCAAACTTTGTAGAAAACTCATTTCGAAAAGTATACATTGTCGTCATAGAGTGCCAATGATTTTTTCCGTTTCTTCTAGTATCAAGTCCTTGAAAAAATTGAAGAAATCGCCCACTGATGGTAGAAAATCAGTTAAGATTTCCTCTCGTATTTATTGTAGTTCTTTGAACATAGTCAAGAATTATTGTGATATTTGTTTGAAGAACCCTATGAGTTTGATTTGTCGATGCGTACTAAGAAGGCAATTTGTCATACCAAATTTGTTGTATTCAAAACCAAATGAAAATTGCTTGAGCACACTTTATCTCCAGGATATGCCAAAATCTGAGAGGCAAGTTTATGCAATATTGTTATCCATTAATAACTTTGAAAAATCGTGTTGTCTCTTGTGCCCAAAAGTATTACAGGGCTCAAACTTACGATCATGCTTGGATAATTTCTGGTTCAAACATAGATTTCTGGTAAAAACGTTTATCAAGTTGAGTAAATCAGTTGAAAAGAAAAGAAGATTGATTGATGAAGTTGAGGCTAAAGCATATTTTGATACTCCATTGGGCCTGAAGTGGCAACGTCCAATTGAAACTAGCGCTAATAGTGAACAGCCCACAATGACCGTGAACTTTGTTAGTGCCAGTCAACCATCGGCAAGCGAAAATTCTGTATCCTGTTTTGAAGAAATTCCTGAAAGTCTCTCATCTAGTTTTAATGTCATGAGTGAAAGAGACACAGCAACTACTTTTGATTTTAACAATGAGAATCCCTCATCGAACTTGGCTGTTGTTGATGAGAATCAAACTTTGATTTTGGATGCTATTAGCATTGGAAATTCGAGCTTGAATGCTGGCACTGGGAAAACACATTCGTCAATGTTGGCCATTGCTAGTAAAGATCAAGACTTGAATGAATCTAGAGAAGTGGAAATAATTCCGGAAAATAAGCAACCTACTCATGGAAAGCGTCGTAACGTGAGTCTTATATGGAAGTTTTTCACTAGAGTTGGTGCAAATACAGCTTATTGTAATGCTTGTGGACGAATTGCAAAAACTTCCACTTTAAATAACTTGAAAAGACATTTGATAAATAAGCATCCCAGGCTTGCTCAGTTATTAAAACAAGAAATATTCAGAAATCGTTCATCATTAAGCATAAAGAGTACTATAAATGAAACGGATGGTAGATGGATGCATTATAAAAAGTTGAATGATGAATGGGCCGAATGCAACAATTGTAAACGGCTAATTGCAATAAAGAATGGATGCACCTCTAATCTGGTCAGACATCTGAGATCCAAGAAATGTGTTAATAAAGAATCTGACAAAGAATTTTTATTTCAATTGGCAAACGAACCTACTGTTGCTACGAAAAAGTCGGGCAACATTTGGCATTACTTTCAAAGGAAGTCTGTCGATAACGCACTGTGTATCATGTGCCAACAAGTTATTTCTATAAAGAACAATAACATAAGCAATTTATCTCGTCATCTGCGAACTATCCATAAAGTGTACATTGTCCCAAATTCGAAAGTTAATCCTCAAGTGATAGATCTTCCAGCTGCACCAGACTTGACTACTGTCAAATATAAATATATTTTAGATGAAGATTTGAATATTACAGAAGTTGCTAACAACGACTCTCAAACTTTTATCAAAACAGCCATCGTTGAGTCTGGTAATCAAAACAGCTGTGAAAACTTTCTGCTTGAAGAGACCTTTCCGTCTTATATTGCTGAAGAAGTAGTTGGTGTTCTCGAACCTATTCAGACAAACGAGTCTGATGATCAGGATAATACCAATCTGGATAATTTGATGAAAAAAGTGCATCGAAGTCCATCATGGCAGTATTTCACGAAGCTGCCCGATGCTAGAGTCAAGTGTACACTGTGCGATGTGACTCTAGCATTCAAAAGTAGCAAATGCATCAACAACTTGTCACGGCATCTGAAGACGAAGCACGCTTCTGCAATCGGATCAGCCTTTTCTGAGCCAAACAACGACAAATCTGTCATCATGGAGGAAAGCAGTGCCACGGATCCATTGGACATTCAGAAGGAGGAAGATGAAAGCCCATCCTTTGAACAACTCTCGGAAAAAGGTAATTCAAGCACTCAACTTGATCCAGATGACTGTTCAAGTACACACAAAGGGGACAAATCTTCTAGCGATATTTCATTGAGTGTTGGTGATGTAAACCTTCCATCCTCGTCAAAATTGTCAACCGACCAGAAAAAGGATTCGACTGAATCCGCCAACGCAGACAATGATTTGCAACGGAATAGTTCAACTAACAACACAAGAGTGAGTTCGGCTCCTGCTTCTCAAAATGGAAATAATGATCAAAACATTGAAGAGAGTCTTAAAACAGATTCAGAAAATGATAAAGATGTAAATTCAGATAAAAGCCGGGGCTCTTTTTATCAAGAATCAGCTGAAGATCATGAAGAATCAACAGATAATGTTTTTGAGGAATCAGATAATGTTCATGAGAAATCAGGTAATGTTCTGGAAGAATCAGAAAATGTTGTAGAAGAATTTTTAACTTTGAAAATGCCGCAGGACACATCTTCAAACTCGTGTGATGAAAGTTCAAAATCCACAACTGTAGAAGATCGAAACTCTCTTAAAGTCTCTTCTGAAAACTCAGGAAGAAACGAAGATGCAAATACATCAAATGATGATATAGCTAGTCAGCTCTTATTTGGAAATGATGATATTGAGGCATATAAAAAGTCATCGTCCAATTTTGAAGAAAATGAAAAAAGTAAAAATGATTATATTGTCCCTCAAAATAACCAAAAAAAAGGTAGAATTTCAGATAATTCTACAGAAGATTCCAGTGCAGCAACTACTAATGTGGAGAGAGATATGTGTGCGTTATTTTCTGAGTTAGCTGAAAGTGACAAACGTGAAACTCCGATTACAAGTAAAAATAAAAGCAATAAAACGGCGAATGAAAAACAAAACTGTTCTAAAACTATTGGATCGGAAGTTGGAGATGCAATCTCTCCTAAAGGTAAAGTGTCTGGATCGAATGCTCTATTAGAGGATGAAAATACTGACTTTAACACTAATCGGATAGAAATAAAGGAAGAAATCGAATCAATTGAGAACGATAATAGTATGCCGGGTTTTGATAATGATGATACCTACTCTTCAGACCATCTGCAAGAAAGTTTAATTGAAGCGTGCAAACGAGAATGCTCTGTTGTTCTTGAAAGATGTGACGCATCTTTGTTGAATGACACCAATCCTTATCAGTCTGACATGAAAATAGTATCTGTAGAGTCTCTATCTTCTATGAATTACGATAAAAAACATGGCATTGTTTGGTCGTATTTTATTAAAAAGACGCCTACATTGGCAGAGTGTAAGATTTGTGGTCGAGCTTTACTGCATAAGAGATTGTCTAATCTAACTCGACACTTGCAGACAGTCCATGACCATGAGAAGAGAAATCCTGAATTGGATAAGCCTTCAGTGAAGCCCGGCCGGGAATCTACTAATTTCAAGAAAATCAAAGATCACACCTTTAAAAATCAGCCTTTAAATTATTTCTCATTTATCAACTCACAAACGGCTAGGTGTAAATTGTGCTTTCAATATATGCCATACAGATGTCTAGATGATCTTCAAATTCTAAAATCGCATTTACTCCATAAACACGGTGAAGAAGAGCTCGCAGACAAAGTCCAAAAGAAGCCTGCTAGAAACATCAAAGCTGTCGCAGATGAAGAAGAAAAAGAAGAGGAGGAAGATGAGGAAGATGGAGACGATGAAGATAAAGATAAGGATTACGAAGGTGAGTCGAACGGAGAAACTTCCGATGTTGGTGAAAATGTTAGTGAAAGAAAGCCTCGCCAACGTACCTGGTCGTATTTCACAAAATTGGAAAGAGGCTTGGCTCAGTGTAACGAATGCCTCAAGTGCTTTTCATACAGCAGTGGAAATTTACAGAGCCTTACAAGGCATCTGAGAATGTCACACAATGCTAAAAGGTCTGCCAATCAATCTAGCCAGAAGTCGGCTCCACCTCAAAAGAGGCAAAAGCTCGAATTGCCGAAGAAAGCTGAACAAAAGCTTGAATTGCCGAAGAAAGCTAAACACAGGTTCATATTGCCGAAGAAAGCTGAATCAAACTCCCAATCTACTAACAAAACTAATTCACAGACTATCACTTCAACTACATCGCCAACTGGACAACAATTTTTGAAGTACTATTCATTTTTAAGATCCGAAAATGCGTTGTGTAAGAGATGCAACACGAAAGTATCCTACAATAACAAGAACACAAAGAGTTTGCTCGACCATTATAACCAATGTTCTGCCCAACCGCAATTGGATGATGTGACTAAAAAGAATGCTAAGCCTGGTCGACCAAGAAAGATCTTGAAAGACGAAAGTATTAGGGACCCTGATTTTGTGACACCAGATATTCTTGAAAATGATGAACATCCTTATCCAAACAAGCATAAAACACAACTGATGGCAGCCGTACAATTGTCGCCTAAAGACAAAGATTGGAAACACTTCAAGAAAATAAATGGCTTTTGGGCAAGATGTGTGCACTGTTCAAAGACAGTTAGTCACAGAGGTGATTCATCGCAAATAGAGCACCATCTGAAGATTTGCAACAAATATGCCGCCAGCCTGGATGCCAGCTTGGATGATATTCCTTTGAATTTCCGGCTCAAGAATCAAACCAAGCCTTATACATTGGGTGACTGTTACTATCGTAAAAAACTTGAATACAATCTTAGTGAAATAAGGAGATTTTTCAGGAGGTTGAGTGATGATAGATTGATGTGTAAGCTGTGTTTGAAAAATATCCAATGTAGCGACACTCTAACTGAGATATTGATGTCTCATATTCTACAAGAGCATGTTAGAAAACTTTTCAAACCAAAAGCAGGCTCCAATGAAGGAAACCTGCCAGAAACAAGTGAGAGTCCAGTGTGCACAACGCCACCCAATAACACCAACGCCACCCTGATGTCGTCGCCGCCTCAATCCAATGTTCGTCCGTTATCCATACAAAAGGTGCAGGCTCAGTCAACGCCACTGCCCACTAGGAGAAGAAGGGCTGCTGCTGCTAAACCCAATGTCCCAATAGCCAAACTCCAGCCAAATGCAGATAAGAATGAGGATCAAATTCTATCCAAATGCAGCTTCACCTTGAAATATTACCTCGAATTCTCTGCCAACCGGCAGCAATGTAAGCTCTGCAATAAACAGTTTGTTGGTAACAAATCAGCAAATTTGATGTTTCTCTCACAACATCTGCTTGACTGTCATTTGGGTAAAGTTATTGATGATGAAACGCGTTTATCAAATTCGGAAGAAAATGATCAGAGAAAAGCTATAATGAGGTGTACAAGGCGTAGAATTGTCAATCAATTTTCAAAAATTGACGGTACAAAAGTGTCATGCAAAATGTGTACTATTCATCTTGAAAAAAATGATTTTGAAACTATGAAGACTCATTTATTGACAAAACATCAAGACTATCTGAAAACTATTTTGAAAGAAGTCAAAAGAATTGAGAATTACAAGTGCTCAGATATGAGAACACTCAAGAGACTACTGACTATACGCAAAAAGCGTAACTTGCAAGCCAAATGTTCATTGTGCTCCCGTGAAGTTTATTATAGAATAGGAAATACCAAACCACTTCGCAATCATTTATTGAAATTGCACAAAAAAACAATTGGTAAAAGCTCAGTTTCTAAAGTTAGTGTGTGGAAACATTTCACAAAACAGGATGTATTGAAAAGCAAGTGTGAAATTTGTTACAAGTTCATCTCAACAAAAGTTCATTGTAATCACAAAGTTCCAAAATTGGTTAGCTTATCAACTGGGTTGAGATTGAAAAAAGATACAACCAAGTCAGAACCTGAAAACAAATCAACTGAGCTCACATTGAAAAACTCAAGTTCAAGTACACAAGACTCAATTAAGAAACAGTGTTACTACTTTTCCGCTTTGAAACGGTATAATAACGTATGCATATTCTGTTCACCATCTCTAAAAAATGCAAACAAAATAATTTGTAAAATCGCATGTCGTTTTAACCATGGGAATGAATATATTAACTGGCTATACAAAAATGATCCAGTGGATCAAACATTTATTACAGCCAATCAAACCGATTGTCCCCAGAAAACACTTTCACTCCTAGAGATGTTTGACGAACTCAAAAATAAGAAAATGAATTCTATCAAGTTGTGCTATTCCGAATTTTCAAACAAATATCATTGCAATCTCTGCTGTGAGAGTATAAGTGCAAACTATCTGAGATTCAGTTTGCATTTCGACCATGCACTAGTGAAACACAAAGGGTTGCTGAGTATGCACAGAGCTATCAAAGGAGCTATCAACGCAGCAGCAGCTGATCGGCCAACTGCGAGTGCGCGGCCTCAACCACCGCAAACCACCAAATCACCCATGCAAACCACCAAATCACCCATGCAAACACCGTCGCCAAAAAATACAAAATTAGTCAAAGTAAAACTATGGCAACACTTCAAAGTGGTTGGATCAGAATTGGCGAGCTGCAATTTCTGTAAGTTGAACTTCAAATACTCATCTAAAAACGTTGACACTTTGGCCAGTCATCTACGAGCAATGCATCTAAGTGACCTTCTGAAACTGAGCAATAAGAGTCAACCGTATCATCAGCCACTGAAAAACACCACTCCTAGAAACGCCCTGCAAAACACCACTCCTAGAAACGCCCTGCAAAACACCACTCCTAGAAACGCCCTGCAAAGCACCACTCCTAGTAATGCCTTCACCACTAGTAGTAGTACTGATGAAAGTGTGAAATATGCTAACACCTGGAAGTATTTCACTGAGATTGATAAAGGAGCCAAGTGCAAGCTGTGTGCAAAACAGTTTCTTTTCAGCGATAAAACTCACGTGGCTCCCTTGACCAGGCATCTCCAAACAGTACACAAAATCACGCCGGCAGTAGGAGTATCGAGCCCTGTCCCGCTCCCGGTCCCGGTCCCGACCCAGAATAAAGTGACCTCTGAGCAGCCGACACTCGCACAGACAAAATGGGCGTGGCAGCATTTCGAGAAAGACGGGTCGCGACCTCAAACAGCCAAATGCAAGCTGTGCTTAATCTATTGCAGTTGTACAGCTGAAGATGGCGATCTTTCGGTCGTTCTGCTCAAACACCTTCGCATCGTTCATAACAAGTGGCTGGTCAATGTTGGAAATAAACTAATGCAAAACAATATGACACCAAAAAGATCAGCTGATACTGAGGTGGCAGTCAAACAACCTCAGAAGAAAGTCAAGTTCGACGATGAAATCAGTGAAGACAACAACAACTCACCCTCACCCCCTCCCAACCCCTCGCCAGCCAAGTCCAACCCCTCACCAACCAAGTCCATCCCCTCCTCCTCGCCTGCCCCTTCTGTTTCAAGCGATCAATTATCAGAAGTTTCGAAGAAAGCAACATTAACTACTCCCAAAGCCAAAGCCAAGAAATCGTTGAAACATTTCCAAGACCTAGAAAAAACGAAGACCAAGAAGAGCTTAGTTTGGACTTATTTCACACCAATTGACGGTCAGCCTGATTTCTCAAGGTGTAATGTTTGCTCGAAAAGTATATCCAGTAAATTTGGTATCAGCATTTTACGAACACATCTGCGTGTCAAACATAATATCCTGATTGTCAACATGAATCAATACTCTGAATTGAAAAAAACCATAGGTGACACCGCAGCAGCCGTCAATCTTGCAGATGTCAATCCGGCTGGAAAAATAAATACCACTTTGCCATCCGGTGATGGGCAAGTCAGTCCACTCAAAGCCGATCAAAAGATGTTGAATGAAAACATCACTACTCCAACCAATACAACTTCAACTTCATTGGAGTCGAAATTTGAGAAGAGACATCCTGTTTGGTCTTACTTCAAACAAGAGAAAAATAGTAATCTGTTGAAGTGCAATCTGTGCTCAGTTTACCTGTCATGCAAGAGTGGGCAAATAAGTGGCTTGCAAAACCATCTAAGTGCAAAGCATAACATTGTGTTTTTAGAAGGTTTCGAAGGATTGAAGCCACCGGCGTCTGGAGGAGAAAAAAGTTCGCCTGTCAAGGCATCCTTGCCCACCAATCCAACAATTGAAAAGTCCCCGGTTGAAAAACCGAAACCACTCCAGGAATCTCCAAAAACGGCAAAAGAACTGTATGAAACGACCTCTGTCGAAGAATCTGTCGTCGATAATGAAGTGTTTTATACGTCAGAAGACAATCTGGTGACGGTGACCCCTAGACTCGACTCAGGCGCAGTGCATTATGAAATCGTGGAAACGACTGAGATTCCCGAAGTGGAATCGGCCGACATTGTGAAGGTGATCAGTGATTTGCTACCCAATTACAGTGTGGGTATTTCGGATGACGTGAATGCCACAGAAATATCGCCACAAGAATCCGAGTTGATTTCGAACATAGTGACTTCGCTGGGTGAGCAGGGCGCCACCTCCGAAGAAGGCGTTCACCTGGACGGTGACCAGGTGAAGAGCATAGCAGTCCTGACCGGTGAGACGCAGGATGCCTCCTTGACGTGGGACTTCTACGTCAAATTGTCCGACAATAAGGTCAAGTGCGACGTCTGCTCTCAGGTGCTCACCTATGACAGCGATGAAGCGCCAAATCTAGCTGAACATGTTCAGCTCAACCATCCTGCCGAACTGGCGCAGTACAAACTTTCTAGGTTAGGATTCAGTGATTCATGTATTATAGTAGTCAAAAACTCATAA
Protein Sequence: MSLRPVRRKTMPVNLADDYEIDVKIDESSSRGSRKKQPKSSKQRKKTSGIWRYFKLVVNNKYECVLCSGRLNYVGNSTSNFYRHLRLKHPSESASPKKRKRNSHLERYADPDIIILSPHPSVEQDQEEMQEDLEELSKVPLNQSNRHSSVPLSRLQKPTENVVIEFEGENESNSVGKNEEKTCSKEVATLKAHDTSYDASQPWRFFDISSGNAACRLCFRSLIYKSVDDLHVLLDHLESEHSVSLHKPDSAEMVIREEGCESSRSSTQVEASSNCAKNLGRKFEMYYRTRNNHSATCKICLRPVCYNRKTLISHLYKEHKKVFSKKYPTYWHLARFFSNNSSTLVSTKVKFSSDERSPTQQNMTDVSGPSEPSRKCLSYSQNFAGNFLNIDGNKAKCMFCSKCLSFSGDTSILEKHILEDHKTAFVQKILEEMVFTNTNTSENATGKRAIDVSARSETQKLLNEDVLSYFKPLGNHQFECKLCSKLLSLENDESLNQLAEHVWCTHMSKTFRSIVFLQSYGISCTSKEEDHSNSESTTCQKSEKQLHSAILRTIKWVKPVGKLSDVWKYFLTADPKLALPYAKCRLCNHVLSIKSLNTSNLARHLNTKHNGVLQVNLNMLYENGRMFSISNRRRIATNYLRKELRKSVKKKCVPKVLPNKNSSRIKCKLCCEYLSHSDRETCAKHMKEQHINTYNMGVTFEQYKENQMTIMTIKEKADELESCSKLRETALKDDSHLITFFCKSASSYAKCKLCRKLISKSIHCRHRVPMIFSVSSSIKSLKKLKKSPTDGRKSVKISSRIYCSSLNIVKNYCDICLKNPMSLICRCVLRRQFVIPNLLYSKPNENCLSTLYLQDMPKSERQVYAILLSINNFEKSCCLLCPKVLQGSNLRSCLDNFWFKHRFLVKTFIKLSKSVEKKRRLIDEVEAKAYFDTPLGLKWQRPIETSANSEQPTMTVNFVSASQPSASENSVSCFEEIPESLSSSFNVMSERDTATTFDFNNENPSSNLAVVDENQTLILDAISIGNSSLNAGTGKTHSSMLAIASKDQDLNESREVEIIPENKQPTHGKRRNVSLIWKFFTRVGANTAYCNACGRIAKTSTLNNLKRHLINKHPRLAQLLKQEIFRNRSSLSIKSTINETDGRWMHYKKLNDEWAECNNCKRLIAIKNGCTSNLVRHLRSKKCVNKESDKEFLFQLANEPTVATKKSGNIWHYFQRKSVDNALCIMCQQVISIKNNNISNLSRHLRTIHKVYIVPNSKVNPQVIDLPAAPDLTTVKYKYILDEDLNITEVANNDSQTFIKTAIVESGNQNSCENFLLEETFPSYIAEEVVGVLEPIQTNESDDQDNTNLDNLMKKVHRSPSWQYFTKLPDARVKCTLCDVTLAFKSSKCINNLSRHLKTKHASAIGSAFSEPNNDKSVIMEESSATDPLDIQKEEDESPSFEQLSEKGNSSTQLDPDDCSSTHKGDKSSSDISLSVGDVNLPSSSKLSTDQKKDSTESANADNDLQRNSSTNNTRVSSAPASQNGNNDQNIEESLKTDSENDKDVNSDKSRGSFYQESAEDHEESTDNVFEESDNVHEKSGNVLEESENVVEEFLTLKMPQDTSSNSCDESSKSTTVEDRNSLKVSSENSGRNEDANTSNDDIASQLLFGNDDIEAYKKSSSNFEENEKSKNDYIVPQNNQKKGRISDNSTEDSSAATTNVERDMCALFSELAESDKRETPITSKNKSNKTANEKQNCSKTIGSEVGDAISPKGKVSGSNALLEDENTDFNTNRIEIKEEIESIENDNSMPGFDNDDTYSSDHLQESLIEACKRECSVVLERCDASLLNDTNPYQSDMKIVSVESLSSMNYDKKHGIVWSYFIKKTPTLAECKICGRALLHKRLSNLTRHLQTVHDHEKRNPELDKPSVKPGRESTNFKKIKDHTFKNQPLNYFSFINSQTARCKLCFQYMPYRCLDDLQILKSHLLHKHGEEELADKVQKKPARNIKAVADEEEKEEEEDEEDGDDEDKDKDYEGESNGETSDVGENVSERKPRQRTWSYFTKLERGLAQCNECLKCFSYSSGNLQSLTRHLRMSHNAKRSANQSSQKSAPPQKRQKLELPKKAEQKLELPKKAKHRFILPKKAESNSQSTNKTNSQTITSTTSPTGQQFLKYYSFLRSENALCKRCNTKVSYNNKNTKSLLDHYNQCSAQPQLDDVTKKNAKPGRPRKILKDESIRDPDFVTPDILENDEHPYPNKHKTQLMAAVQLSPKDKDWKHFKKINGFWARCVHCSKTVSHRGDSSQIEHHLKICNKYAASLDASLDDIPLNFRLKNQTKPYTLGDCYYRKKLEYNLSEIRRFFRRLSDDRLMCKLCLKNIQCSDTLTEILMSHILQEHVRKLFKPKAGSNEGNLPETSESPVCTTPPNNTNATLMSSPPQSNVRPLSIQKVQAQSTPLPTRRRRAAAAKPNVPIAKLQPNADKNEDQILSKCSFTLKYYLEFSANRQQCKLCNKQFVGNKSANLMFLSQHLLDCHLGKVIDDETRLSNSEENDQRKAIMRCTRRRIVNQFSKIDGTKVSCKMCTIHLEKNDFETMKTHLLTKHQDYLKTILKEVKRIENYKCSDMRTLKRLLTIRKKRNLQAKCSLCSREVYYRIGNTKPLRNHLLKLHKKTIGKSSVSKVSVWKHFTKQDVLKSKCEICYKFISTKVHCNHKVPKLVSLSTGLRLKKDTTKSEPENKSTELTLKNSSSSTQDSIKKQCYYFSALKRYNNVCIFCSPSLKNANKIICKIACRFNHGNEYINWLYKNDPVDQTFITANQTDCPQKTLSLLEMFDELKNKKMNSIKLCYSEFSNKYHCNLCCESISANYLRFSLHFDHALVKHKGLLSMHRAIKGAINAAAADRPTASARPQPPQTTKSPMQTTKSPMQTPSPKNTKLVKVKLWQHFKVVGSELASCNFCKLNFKYSSKNVDTLASHLRAMHLSDLLKLSNKSQPYHQPLKNTTPRNALQNTTPRNALQNTTPRNALQSTTPSNAFTTSSSTDESVKYANTWKYFTEIDKGAKCKLCAKQFLFSDKTHVAPLTRHLQTVHKITPAVGVSSPVPLPVPVPTQNKVTSEQPTLAQTKWAWQHFEKDGSRPQTAKCKLCLIYCSCTAEDGDLSVVLLKHLRIVHNKWLVNVGNKLMQNNMTPKRSADTEVAVKQPQKKVKFDDEISEDNNNSPSPPPNPSPAKSNPSPTKSIPSSSPAPSVSSDQLSEVSKKATLTTPKAKAKKSLKHFQDLEKTKTKKSLVWTYFTPIDGQPDFSRCNVCSKSISSKFGISILRTHLRVKHNILIVNMNQYSELKKTIGDTAAAVNLADVNPAGKINTTLPSGDGQVSPLKADQKMLNENITTPTNTTSTSLESKFEKRHPVWSYFKQEKNSNLLKCNLCSVYLSCKSGQISGLQNHLSAKHNIVFLEGFEGLKPPASGGEKSSPVKASLPTNPTIEKSPVEKPKPLQESPKTAKELYETTSVEESVVDNEVFYTSEDNLVTVTPRLDSGAVHYEIVETTEIPEVESADIVKVISDLLPNYSVGISDDVNATEISPQESELISNIVTSLGEQGATSEEGVHLDGDQVKSIAVLTGETQDASLTWDFYVKLSDNKVKCDVCSQVLTYDSDEAPNLAEHVQLNHPAELAQYKLSRLGFSDSCIIVVKNS

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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