Basic Information

Insect: Brachyptera putata
Gene Symbol: -
Assembly: GCA_907164805.1
Location: OU015464.1:20156936-20173439[-]

Transcription Factor Domain

TF Family: TSC22
Domain: TSC22 domain
PFAM: PF01166
TF Group: Basic Domians group
Description: These proteins are highly similar in a region of about 50 residues that include a conserved leucine-zipper domain most probably involved in homo- or hetero-dimerisation. Drosophila protein bunched [1] (gene bun) (also known as shortsighted), a probable transcription factor required for peripheral nervous system morphogenesis, eye development and oogenesis.
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 39 0.15 1.8e+03 0.1 1.0 22 52 90 121 85 126 0.66

2 39 0.64 7.5e+03 -1.9 0.2 25 41 271 287 259 295 0.63

3 39 0.81 9.5e+03 -2.2 0.6 26 50 480 507 465 514 0.53

4 39 0.004 47 5.2 0.0 25 47 570 590 568 596 0.83

5 39 0.16 1.8e+03 0.1 0.2 24 49 717 742 710 750 0.74

6 39 0.0068 79 4.5 1.2 14 35 753 774 743 782 0.87

7 39 0.0048 56 4.9 0.1 22 48 805 832 795 838 0.85

8 39 8.4e-05 0.98 10.6 0.0 22 47 845 870 843 872 0.91

9 39 7.4e-05 0.86 10.7 0.1 23 47 886 910 884 918 0.91

10 39 0.00078 9.1 7.5 0.1 21 51 922 952 914 956 0.85

11 39 0.00015 1.7 9.8 0.0 21 45 961 985 960 991 0.89

12 39 8e-05 0.93 10.6 0.0 23 46 1003 1026 1001 1031 0.91

13 39 0.00028 3.2 8.9 0.1 21 45 1039 1063 1038 1069 0.89

14 39 6.8e-05 0.79 10.9 0.0 21 45 1078 1102 1077 1108 0.89

15 39 7.8e-05 0.91 10.7 0.0 23 46 1120 1143 1118 1149 0.91

16 39 4.3e-07 0.005 17.9 0.3 18 48 1160 1190 1156 1196 0.92

17 39 0.00013 1.5 9.9 0.0 21 45 1202 1226 1201 1229 0.90

18 39 7.8e-05 0.91 10.7 0.0 23 46 1244 1267 1242 1273 0.91

19 39 3.4e-06 0.039 15.0 0.0 21 48 1280 1307 1279 1314 0.91

20 39 9.7e-05 1.1 10.4 0.0 21 45 1319 1343 1318 1349 0.89

21 39 7.8e-05 0.91 10.7 0.0 23 46 1361 1384 1359 1390 0.91

22 39 4.9e-07 0.0058 17.7 0.3 18 49 1401 1432 1397 1438 0.89

23 39 9.7e-05 1.1 10.4 0.0 21 45 1443 1467 1442 1473 0.89

24 39 7.8e-05 0.91 10.7 0.0 23 46 1485 1508 1483 1514 0.91

25 39 1.3e-06 0.016 16.3 0.0 21 48 1521 1548 1520 1554 0.91

26 39 0.0005 5.9 8.1 0.0 21 45 1560 1584 1559 1592 0.89

27 39 7.4e-05 0.87 10.7 0.1 23 47 1602 1626 1600 1634 0.91

28 39 2.9e-05 0.34 12.1 0.2 21 46 1638 1663 1631 1668 0.92

29 39 0.016 1.9e+02 3.2 0.0 22 50 1677 1705 1671 1710 0.87

30 39 1.2e-06 0.014 16.5 0.1 21 50 1714 1743 1713 1750 0.91

31 39 6.9e-07 0.0081 17.2 0.3 21 48 1752 1779 1746 1783 0.93

32 39 0.00025 3 9.0 0.2 21 44 1789 1812 1788 1824 0.88

33 39 0.077 9e+02 1.1 0.1 19 34 1826 1841 1824 1846 0.82

34 39 0.15 1.8e+03 0.1 0.7 27 41 1856 1870 1853 1885 0.71

35 39 0.23 2.7e+03 -0.4 0.2 26 48 1880 1903 1874 1911 0.71

36 39 0.049 5.7e+02 1.7 0.1 15 37 1985 2007 1980 2013 0.67

37 39 1.9 2.2e+04 -3.4 0.0 26 43 2137 2154 2135 2167 0.75

38 39 1 1.2e+04 -2.5 2.6 15 43 2169 2200 2163 2210 0.60

39 39 0.61 7.1e+03 -1.8 0.4 15 31 2241 2257 2239 2261 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	39	0.15	1.8e+03	0.1	1.0	22	52	90	121	85	126	0.66
2	39	0.64	7.5e+03	-1.9	0.2	25	41	271	287	259	295	0.63
3	39	0.81	9.5e+03	-2.2	0.6	26	50	480	507	465	514	0.53
4	39	0.004	47	5.2	0.0	25	47	570	590	568	596	0.83
5	39	0.16	1.8e+03	0.1	0.2	24	49	717	742	710	750	0.74
6	39	0.0068	79	4.5	1.2	14	35	753	774	743	782	0.87
7	39	0.0048	56	4.9	0.1	22	48	805	832	795	838	0.85
8	39	8.4e-05	0.98	10.6	0.0	22	47	845	870	843	872	0.91
9	39	7.4e-05	0.86	10.7	0.1	23	47	886	910	884	918	0.91
10	39	0.00078	9.1	7.5	0.1	21	51	922	952	914	956	0.85
11	39	0.00015	1.7	9.8	0.0	21	45	961	985	960	991	0.89
12	39	8e-05	0.93	10.6	0.0	23	46	1003	1026	1001	1031	0.91
13	39	0.00028	3.2	8.9	0.1	21	45	1039	1063	1038	1069	0.89
14	39	6.8e-05	0.79	10.9	0.0	21	45	1078	1102	1077	1108	0.89
15	39	7.8e-05	0.91	10.7	0.0	23	46	1120	1143	1118	1149	0.91
16	39	4.3e-07	0.005	17.9	0.3	18	48	1160	1190	1156	1196	0.92
17	39	0.00013	1.5	9.9	0.0	21	45	1202	1226	1201	1229	0.90
18	39	7.8e-05	0.91	10.7	0.0	23	46	1244	1267	1242	1273	0.91
19	39	3.4e-06	0.039	15.0	0.0	21	48	1280	1307	1279	1314	0.91
20	39	9.7e-05	1.1	10.4	0.0	21	45	1319	1343	1318	1349	0.89
21	39	7.8e-05	0.91	10.7	0.0	23	46	1361	1384	1359	1390	0.91
22	39	4.9e-07	0.0058	17.7	0.3	18	49	1401	1432	1397	1438	0.89
23	39	9.7e-05	1.1	10.4	0.0	21	45	1443	1467	1442	1473	0.89
24	39	7.8e-05	0.91	10.7	0.0	23	46	1485	1508	1483	1514	0.91
25	39	1.3e-06	0.016	16.3	0.0	21	48	1521	1548	1520	1554	0.91
26	39	0.0005	5.9	8.1	0.0	21	45	1560	1584	1559	1592	0.89
27	39	7.4e-05	0.87	10.7	0.1	23	47	1602	1626	1600	1634	0.91
28	39	2.9e-05	0.34	12.1	0.2	21	46	1638	1663	1631	1668	0.92
29	39	0.016	1.9e+02	3.2	0.0	22	50	1677	1705	1671	1710	0.87
30	39	1.2e-06	0.014	16.5	0.1	21	50	1714	1743	1713	1750	0.91
31	39	6.9e-07	0.0081	17.2	0.3	21	48	1752	1779	1746	1783	0.93
32	39	0.00025	3	9.0	0.2	21	44	1789	1812	1788	1824	0.88
33	39	0.077	9e+02	1.1	0.1	19	34	1826	1841	1824	1846	0.82
34	39	0.15	1.8e+03	0.1	0.7	27	41	1856	1870	1853	1885	0.71
35	39	0.23	2.7e+03	-0.4	0.2	26	48	1880	1903	1874	1911	0.71
36	39	0.049	5.7e+02	1.7	0.1	15	37	1985	2007	1980	2013	0.67
37	39	1.9	2.2e+04	-3.4	0.0	26	43	2137	2154	2135	2167	0.75
38	39	1	1.2e+04	-2.5	2.6	15	43	2169	2200	2163	2210	0.60
39	39	0.61	7.1e+03	-1.8	0.4	15	31	2241	2257	2239	2261	0.84

Sequence Information

Coding Sequence: ATGTCTTACGTTGGTAAGAAGAATCAGTTGTTCCGGGATAAGCCGATCGGAGAAGCGGCTGCACTCCAGCGAAAACGTAGCGAAGGCCGTATGAAAAGGATCGAGTCATGCATAGACAACAGGGCTTGGTGTATGGACGACGAAGAGAGACGAAAATACTTGCTCGAGCTTGTGGCAAATCCACCGATGGGAGGCGATTGCAGCGCATTGGGACGTTATGTCCCAGTTAGCGCTCTCATCGACTCGTTGCAGGCGACTAAGAATGCTCAGATTGATGCGCTTACACAACAGATGGCCGATCTTGAGCAACAATTGGAAGCGTATCGCCAGCTGAACTTAACGGACGAACAGAAAGCACAGCTAGATAAGTTGTTACAGGGTGTGAAAACCTCAAAGAAAGCTCTCGATGACTCCAAAAGGAAGAGGCCTTCTCGCATCCCAATTTCAGTTTCGGCGCCAATTACAGTTCCGATGACAGCTCAGGGTTCGACAATTTCGGGTCAGGTTTCCGCTAACGTTTCAACTCCAATGTCGGCTCAGGTTTCGACTCCAATATCGGCTCCTGCTCCGTCAACCCAAGTGTTGTACAAACGTGATCAGGATGGGGCCGACAGCTCGGGAGCCGATTCTGACGTGGACGAAAGCGAGTTGAAAAAGTTGCTGTTGAGCAAAGAGTCACAGATCGCCTCGCTGAAGAACCAACTTGCTGCTAAGATCCATGAATTATCGGAGAAAGACAAGGCAATGAATGCTGCTATGAAGGGTGTGGACAACGCTGACCTTTGCAAACAAATGGAAAAATATCAGTCTGATCTAAATAACGTCAAAAGTCAGTCATCTGATGAATGTGAGGCCTTACGCAGAGAAAGAGATGCGCTAGCAGAAAAGCTCGGCAGTCTTGCCAACGTCGAGGCCGCCAACCTCGAGCTGAAGCGCAAGTCCGACAGCATGGATGACATCATAGCCGAGCGTGACATGTTGCGCATGCGCCTCAAGGACTACGAGAAAAAAGATGCCGACCTAGACAACCTCAAGTTTCGCGCCAAGGAGGCTGATGTTATGCGTATGGAGCGAGACAGGCTGAAAGATCGTAACGACGAGTTAGCCACCATTGAGACGGCTTATTTGAAGCTATTGGAGGAGACGAAAGATTATGAAACGCTCGCAGCTGAACGAGAGATGTATAGGTCGAAGAAGAATGATGGCCGCAAAGGACTTGACCAGGCGATGAAGGATCTCGAACAAGAGCGAGACACCCTGAACAGAGACCTGAAAGAGTACGAGTGCGCGATAGCGGATCAAGAGGACGAGATAAAGCGTCTGTTGCTGATGGTGGAGAAACTGAGCACGACCACCAATAGCAAGGAGGATCGTATGCAGAAGGGCTTGTCTGAATTGCGCCTCCAAATAGACAACAAAGATGAACGCATTAGCCTCCTTGAGAACCAGCTGGCTGAGTTGCCAAACCTTGAGGCAGAAATCAAGTTGTTGAAAGACCGGCTGAAGAATACAATTATTGGTGTCGCTCAAGAGAAGAATCAGCTTGACAATTTGTCCAAGACAGAGAGCAAACTTCGCGCAGATATGGGCACACTCGAAGCTGAGCTGCAGAATGAACGTCGCCTTAGCAAGTCGCTCAAAGACAAGCTGAACACCGTCAGTTCGGGCGGTGCTCAGCCAGTGAAAACTGGACAGTTCAGCGAGGAAGATCTGGTGGGAAAGATTAATGCTATGCAAAACGAGAATGATGCTCTGAAAGCTTCGCTAGAGGCGCTCAAGGGGGCTGCCGGCGGTAGTATTGATCTGGCGGAGGAGCTGGTTCGAGAGCGAAAGGCTAGGCTGTATGCCGAGGATATGTGTAGGGAGGCTGTCGACACGTTGGAGAAAATGACAGCAGACAAGGACAAGGAGCTGAAAGCCAAGCTTGAAACAGCTTCTCCCAGTGAGAAAGAACTGGTACGTCACTGTGAGAAGAAGTTAGAGGAGGTGAAGAAGGACAAGGAGATGCTTCAAGGCGTGTTGGATTTCACTCAAGATGAGTTAGAAAATGAAAAAGTTGCGCGACGGAAATGTGAGGAGAGGATAAAGCAGTTAGAACAAGCCATGTCTATGGATAGTAAGGGATCCGAAGTAAGCAGGAAGGATGCTCTTGACATAGCTAATGAGTTGGAACAGCTAAAGAAACAAAATGACATGCTCAAAAAGTCAATTGCTGGTAGTCAAACAGATTTGCAGAAAAGCCAATTTGAAATGTTCGATGAAGTCCAAGCGCTGGAGAAACGAATCAAAGAGTTACTGGCTGAAAATGCGGAACTGAGGAAGTCGGATGCCATTCGCGACGAGCAGGAGAAGGTACTTCGTTTGCAGTTAGAAAGCATTCAGGATTTGCTAAAAGAAGAACAAAAAAACGCCAAGATTCAAGAACAATTGAACGATAAAGTGAAATCATTGGAAGCAGAAAATGCAGAATTTAGAAAGGTTCTTCCACCTGGTACAACTCCAAAGCCATCAACAACAGGGCAAGACGACAACAGAGTGAGAGAATTGTTGATGAAAATCCAACAGTTGGAAACAGAAAATGCAGACTTGAAAAAAGGAGTTCCAGCTGATTCATCTCCAAAACCTTTGACGACCGGTGTAGATAACAGTTATATTATAAAAGAGTTGGAAATGAAAATCAAAGATTTAGAAGTAGAAAACACAGATTTGAAAAAGGGCTTACCATCAGGTACAACCCCTAAGCCTTCAGTGACAGTGACAGATAAAAAAATGAAAGATTTGGAAGAGAAAATAAAAGATTTAGAGGCACAAAATGCAAACTTGAAGAAAGGCTTACTTCCTGGTACGATTACGAAGCCATCATCGACAGGTCCAGATGACAATAGAGTGAAGGATTTGTTGATGAAAATTCAAGACTTGGAAGCAGAAAATGCAAACTTGAAGAAAGGAGTACCAGCTGGTACAACTCCAAAACCTTCGATGACCGGTCCAGATAATAGTTATATTATAAAAGAGTTGGAAATGAAAATCAAAGATTTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCCTCAGGTACGACCCCTAAGCCTTCAATGGTAGGGGCAGATAATAAAATGAAGGAGTTAGAAAATAAAATAAAAGATTTGGAGGCAGAAAATGCAGACTTGAAGAAAGGCTTACCAGCTAGTGCAAGTTCAAAGCCATCATCGACAAGCCCAGATGACAATAGAGTGAAGGATTTGCTGATGAAAATCCAAAACTTGGAAGCAGAAAATTCAAACTTGAAGAAAGGAATACCGGCTGGTACAACACCAAAACCTTCGATGACCGGTCCAGATAATAGTTATATTATAAAAGAGTTGGAAATGAAAATCAAAGATTTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCATCAGGTACAACCCCCAAACCTTCAGTCACAGGGGCAGATAACAAAATGAAGGAGTTAGAAAATAAAATAAAGGAGTTGGAAAATAAAATAAAAGATTTGGAGGCAGAAAATTCAGCATTCAAAAAAGGATTACCGGCAGATACGACTCCAGAACCATCATCGACTAGCCCGGATGACAATAGAGTGAAGGAATTGTTGATGAAAATCCAAGACTTGGAAGCAGAAAATGCAAACTTGAAGAAAGGAGTACCAGCTGGTAAAACGCCAAAACCTTCGATGACCAGTCCAGATAATAGTTACATCATAAAAGAGTTGGAAATGAAAATCAAAGATCTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCGTCCGGTACAACACCTAAGCCTTCAATGACAGGGGCAGATAACAAAATAAAAGAATTGGAGAAGAAAATAAAAGATTTGGAGGCAGAAAATTCAGCATTCAAAAAAGGATTACCGGCAGATACGACTCCAAAGCCATCATCAACAGGGGCAGATGACAATAGAGTGAAGGAATTGTTAATGAAAATTCAAGACTTGGAAGCAGAAAATGCAAACTTGAAGAAAGGAGTACCAGCTGGTACAACGCCAAAACCTTCGATGACCGGTCCAGATAATAGTTACATCATAAAAGAGTTGGAAATGAAAATCAAAGATTTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCGTCAGGTACGACCCCTAAGCCTTCAGTCACAGGGGCGGATAACAAAATGAAGGAGTTAGAAAATAAAATAAAGGAGTTGGAAAAGAAAATAAAGGATTCGGAGGCAGAAAATGCAAACTTGAAGAAAGGATTACCTCCTGGTACGACTACGAAGCCATCATCGACAGGTCCAGATGACAATAGAGTGAAGGAATTGTTGATGAAAATCCAAGACTTGGAAGCAGAAAATGCAAACTTGAAGAAAGGAGTACCAGCTGGTACAACGCCAAAACCTTCGATGACCGGTCCAGATAATAGTTACATTATAAAAGAGTTGGAAATGAAAATCAAAGATCTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCGTCCGGTACAACACCTAAGCCTTCAATGACAGGGGCAGATAACAAAATAAAGGAATTGGAGAAGAAAATAAAAGATTTGGAGGCAGAAAATGCAAACTTGAAGAAAGGATTACCTCCTGGAACGACTCTAAAGCCATCATCGACAGGTCCAGATGACAATAGAGTGAAAGATTTGTTGATGAAAATTCAAGACTTGGAAGCAGAAAATGCAGATTTGAAGAAAGGAGTACCAGCTGGTACAACGCCAAAACCATCAAAAACTGGTGCAGATAACAGTTATATTATAAAAGAGTTAGAAATGAAAATCAAAGATTTAGAAGTAGAAAATACAGATTTGAAGAAAGGCTTACCGTCAGGTACGACCCCCAAGCCGTCAGTCACAGGGGCGGATAACAAAATGAAGGAATTGGAAAAGAAAATAAAAGATCTTGAGGCAGAAAATGCAAACTTGAAGAAAGGCTTACCTCCTAGTGCAGCCCCAAAGCCTTCAGTCACAGAGGGAGATGACAAAATGAAGGAGTGTGAAAAGAAAATAAAAGATTTGGAGGCCGAAATTGCAAACTTGAAGAAAGGCTTACCTCCTAGTACGGCCGCAAAGCCTTCAGTCACAGGGGGAGATGACAAAATAAGAGAGTTGGAAAAGAAAATTAAAGATTTAGAGGCAGAAAATGCAAACCTGAAGAAAGGCTTACCTCCTAGTACGACTGCAAAGCCTTCAGTCACAGGGGCAGATAACAAAATAAAAGAGTTGGAAAATAAAATAAAAGACTTGGAGGCAGAAAATGCAAACTTGAAGAAAAGCTTACCACCAGGTACGACCCCTAAGCCATCAATGGTAGGGGCAGATAAAATGAAGGAGTTGGAAAAGAAAATAAGAGATTTGGAGGCAGAAAATGATGGACTGAAAAAAGCCCAGTCCGGTTCAAAGACCGATATATCGAATAAGTTCATTGCTTTAGAAAAGAAAATCAAAGATTTGGAGGCTCAGAATGCTGAATTGAGAGCTGCACAAGGAACTAAACAAGTCACCGGACGTCAGGACTCAGAGAAGCGAATGAAAGAATTGGAAGCTGAAAATGCGAAACTGCTGAAAATGAGTGAAGATCTTGAAAAGACTCTCAAGAACCGGGCCAATGAACTTCAAACAGCAAATGATAATCTTAAAAGAATACAACTCTCACCAGATGAACGTGCCAAATTCGATGAAGAGCTTGATGCTAGGAACAAGGCCGAAAAAGCCAAAATGGAGTCTATTATAGAGCAGCTAGAAGGTCAAGTCAAGTCATTCAAGAACAAAGACATGGACAAATCAACCTACAGCCAAGGACTGTCAAAGTCTGATGACGATAAAAAACGCATCAAGCAACTTGAAGATGAGGTAGCACTGTTCCGTTCTGGTGATAAGTCAGGAGTTTCAGCCGCAGCGTACACAGAGATAGATCGTCTGGAGAAAAAATGTGCCAAGCTAGAAGCAGAGATTGAGAAACTCAAAATGGAAAAGACAGGTTTGGTGGATAGTTACGAACATCATATAGCTGGTCTTACGGCAAGTTTTGAAAACCGTCTCCGAATGAAAACAAAAGAGTCGATGTTAAAACTGCAGGAGAGCATTGAAAAGTTCAAACAAACGCTAAGTCCTGAGGATCACGCAGCCAACATGAAAGCAGTCGAAGTGAAAAGTGTAAAGAAGTTGGCAACAATGAAAGAAGAATATGAGAAACGTATCGCTGACATCATCGCTGCCAACTCCAAAGAAAAGGAAACTACTAATAAGGTATACAATGGCAACTTATCGACATTGAAAGAAACGTATGAACGTGATATGAGAGCATTGCACGAGCGTCACAATGTTAGTGTAACGCGATTGCAGGGCATTCATGAAGAAGAAGTACAAAAGATTAACAGCGATTACGAATCAGAACTGCAGATCTTGAAAAATAGTCAGGATGGAGTGATAAGCGAAGTGATGAAGCAGTCAGACTCGGAGATCGAAAAGTTGAAGAAGAATCACGATGATGTGGTCAACTCAATCATGAAAAGACATCAAGAGGAGACGGAAAATCTTCAAAAAAAACAGAATGAGAGCGTGGCAAATATTGAGAAAAACTTCAAGCGAGAGACAGGTTTAGACGATGACTTTGACAGGGCAAAACTTGAGTATGAAGCAGAATTGCAGCGTATGAAAGATAGTAATAAAAAAAAAATAGAGGTTTTAAAAGTGAGGTATGCAGAACTGATGGAAGATGAGCGTAGAAAGAACAATGGGGAAGTAGGCAGATTAGGCACGACGAGAAACTTGGAGCAATCACGGACAGAAGTATACGAGTTACGTTCCACAGGTGGCGAGTTTGACAAGCAGGTCGAACTGCACGGTACGGGCGTTTCTGGTCTCAGCCTTGAAGGAATCCTACGCAAGGCACTGGCACATGGATTCGAATCGTTGACGTTCGATGAACTCTCGCTCTTACACGAACGCTGCTGTTCGTCCACGGCCCGAATGATTATGGAGAACCCCGCATTGCAATTAGCGCCCATGAAGTTCACGCTGCAGGGTGCCGACAAGCAGCAGCTGTGTAGTCGTATTGCGTGCCTTGAGCAGGAGATTTCGCGCAGACAGTTTGAAACGCAGAAGAGAGTATGTGCACTCGAGGGCTTGGTGAAACATGAGAAACGACGTCTCAGCGAGGTGAAGGACGCGCTGACACAGTCGCTGACTCAGGAGCAGCGGCGCTCGCTGGAACTCCACTCGCGGCTTGGCACTCAGACGCAGCAGCAGGCCGAGATCGAGTCCGAGCGTGACATGCTGCGCCAACAGCTCGCTTACCTTGAGGGGAAGGCTAAGATTGCAATTCCGGAGCTCGAGAAAGAGAAAAAGAAAAACCGCATCATGTTAGAGGACCTAAACAAAGAGCGTAACAACATCAAACACCTGCAGTCTCTACTTTCAGCTGAACGCATTCGAGCCAAAACTTCCAACCTGAAAGAGTCAGATCTTATCGAGTCATTGCGCATCAAGCTGGAGACCGCGCTAGACAACGAGGCACGCATGAAGTTCAAGTTCGAAAAGTTGGAGGAGCTATACAACAGCTCGCAAGTGCCAACAAACCAACGCCGTCCCGGTACCACTTCTCGTCCCGGTACCGCTTCCCGTCCTGGGTCCTCGTCATGTTCAGAGTCGTGTCCCGCTCCGTGCAATACCCGACGCATGGACACTTCCTCTGCGCCATGCCAACCTACCCGGCTGCAAGATCCATACCAGCTGCTGGTATGA
Protein Sequence: MSYVGKKNQLFRDKPIGEAAALQRKRSEGRMKRIESCIDNRAWCMDDEERRKYLLELVANPPMGGDCSALGRYVPVSALIDSLQATKNAQIDALTQQMADLEQQLEAYRQLNLTDEQKAQLDKLLQGVKTSKKALDDSKRKRPSRIPISVSAPITVPMTAQGSTISGQVSANVSTPMSAQVSTPISAPAPSTQVLYKRDQDGADSSGADSDVDESELKKLLLSKESQIASLKNQLAAKIHELSEKDKAMNAAMKGVDNADLCKQMEKYQSDLNNVKSQSSDECEALRRERDALAEKLGSLANVEAANLELKRKSDSMDDIIAERDMLRMRLKDYEKKDADLDNLKFRAKEADVMRMERDRLKDRNDELATIETAYLKLLEETKDYETLAAEREMYRSKKNDGRKGLDQAMKDLEQERDTLNRDLKEYECAIADQEDEIKRLLLMVEKLSTTTNSKEDRMQKGLSELRLQIDNKDERISLLENQLAELPNLEAEIKLLKDRLKNTIIGVAQEKNQLDNLSKTESKLRADMGTLEAELQNERRLSKSLKDKLNTVSSGGAQPVKTGQFSEEDLVGKINAMQNENDALKASLEALKGAAGGSIDLAEELVRERKARLYAEDMCREAVDTLEKMTADKDKELKAKLETASPSEKELVRHCEKKLEEVKKDKEMLQGVLDFTQDELENEKVARRKCEERIKQLEQAMSMDSKGSEVSRKDALDIANELEQLKKQNDMLKKSIAGSQTDLQKSQFEMFDEVQALEKRIKELLAENAELRKSDAIRDEQEKVLRLQLESIQDLLKEEQKNAKIQEQLNDKVKSLEAENAEFRKVLPPGTTPKPSTTGQDDNRVRELLMKIQQLETENADLKKGVPADSSPKPLTTGVDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSVTVTDKKMKDLEEKIKDLEAQNANLKKGLLPGTITKPSSTGPDDNRVKDLLMKIQDLEAENANLKKGVPAGTTPKPSMTGPDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSMVGADNKMKELENKIKDLEAENADLKKGLPASASSKPSSTSPDDNRVKDLLMKIQNLEAENSNLKKGIPAGTTPKPSMTGPDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSVTGADNKMKELENKIKELENKIKDLEAENSAFKKGLPADTTPEPSSTSPDDNRVKELLMKIQDLEAENANLKKGVPAGKTPKPSMTSPDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSMTGADNKIKELEKKIKDLEAENSAFKKGLPADTTPKPSSTGADDNRVKELLMKIQDLEAENANLKKGVPAGTTPKPSMTGPDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSVTGADNKMKELENKIKELEKKIKDSEAENANLKKGLPPGTTTKPSSTGPDDNRVKELLMKIQDLEAENANLKKGVPAGTTPKPSMTGPDNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSMTGADNKIKELEKKIKDLEAENANLKKGLPPGTTLKPSSTGPDDNRVKDLLMKIQDLEAENADLKKGVPAGTTPKPSKTGADNSYIIKELEMKIKDLEVENTDLKKGLPSGTTPKPSVTGADNKMKELEKKIKDLEAENANLKKGLPPSAAPKPSVTEGDDKMKECEKKIKDLEAEIANLKKGLPPSTAAKPSVTGGDDKIRELEKKIKDLEAENANLKKGLPPSTTAKPSVTGADNKIKELENKIKDLEAENANLKKSLPPGTTPKPSMVGADKMKELEKKIRDLEAENDGLKKAQSGSKTDISNKFIALEKKIKDLEAQNAELRAAQGTKQVTGRQDSEKRMKELEAENAKLLKMSEDLEKTLKNRANELQTANDNLKRIQLSPDERAKFDEELDARNKAEKAKMESIIEQLEGQVKSFKNKDMDKSTYSQGLSKSDDDKKRIKQLEDEVALFRSGDKSGVSAAAYTEIDRLEKKCAKLEAEIEKLKMEKTGLVDSYEHHIAGLTASFENRLRMKTKESMLKLQESIEKFKQTLSPEDHAANMKAVEVKSVKKLATMKEEYEKRIADIIAANSKEKETTNKVYNGNLSTLKETYERDMRALHERHNVSVTRLQGIHEEEVQKINSDYESELQILKNSQDGVISEVMKQSDSEIEKLKKNHDDVVNSIMKRHQEETENLQKKQNESVANIEKNFKRETGLDDDFDRAKLEYEAELQRMKDSNKKKIEVLKVRYAELMEDERRKNNGEVGRLGTTRNLEQSRTEVYELRSTGGEFDKQVELHGTGVSGLSLEGILRKALAHGFESLTFDELSLLHERCCSSTARMIMENPALQLAPMKFTLQGADKQQLCSRIACLEQEISRRQFETQKRVCALEGLVKHEKRRLSEVKDALTQSLTQEQRRSLELHSRLGTQTQQQAEIESERDMLRQQLAYLEGKAKIAIPELEKEKKKNRIMLEDLNKERNNIKHLQSLLSAERIRAKTSNLKESDLIESLRIKLETALDNEARMKFKFEKLEELYNSSQVPTNQRRPGTTSRPGTASRPGSSSCSESCPAPCNTRRMDTSSAPCQPTRLQDPYQLLV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00242911;
90% Identity: -
80% Identity: -