Basic Information

Insect: Brachyptera putata
Gene Symbol: -
Assembly: GCA_907164805.1
Location: OU015464.1:20174794-20184382[-]

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 20 0.34 4e+03 -1.0 0.5 20 54 16 53 9 56 0.65

2 20 0.87 1e+04 -2.3 0.0 20 46 54 80 49 85 0.68

3 20 0.00043 5 8.3 0.1 25 46 112 131 110 137 0.84

4 20 0.03 3.5e+02 2.4 0.3 23 49 258 284 251 292 0.76

5 20 0.0054 64 4.8 1.2 14 34 295 315 285 323 0.80

6 20 0.0034 40 5.4 0.1 22 48 347 374 319 379 0.89

7 20 0.0029 34 5.6 0.0 24 47 389 412 386 418 0.89

8 20 2e-05 0.23 12.6 0.0 24 46 431 453 428 464 0.84

9 20 2.4e-05 0.28 12.3 0.0 18 45 486 513 483 516 0.90

10 20 0.0029 34 5.6 0.0 24 47 531 554 528 560 0.89

11 20 0.00016 1.8 9.7 0.0 23 42 572 591 570 595 0.91

12 20 0.0029 34 5.6 0.0 24 47 612 635 609 641 0.89

13 20 0.00026 3 9.0 0.0 23 42 653 672 651 676 0.91

14 20 0.0029 34 5.6 0.0 24 47 693 716 690 722 0.89

15 20 0.024 2.9e+02 2.7 0.0 23 44 734 755 732 763 0.90

16 20 0.0039 45 5.2 3.5 25 49 788 810 786 816 0.80

17 20 0.066 7.7e+02 1.3 0.5 24 43 812 831 806 845 0.74

18 20 0.012 1.4e+02 3.7 0.1 13 38 889 914 887 920 0.86

19 20 2.7 3.2e+04 -3.9 3.2 14 40 1063 1089 1061 1098 0.64

20 20 0.12 1.4e+03 0.5 0.6 14 31 1129 1146 1125 1150 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	20	0.34	4e+03	-1.0	0.5	20	54	16	53	9	56	0.65
2	20	0.87	1e+04	-2.3	0.0	20	46	54	80	49	85	0.68
3	20	0.00043	5	8.3	0.1	25	46	112	131	110	137	0.84
4	20	0.03	3.5e+02	2.4	0.3	23	49	258	284	251	292	0.76
5	20	0.0054	64	4.8	1.2	14	34	295	315	285	323	0.80
6	20	0.0034	40	5.4	0.1	22	48	347	374	319	379	0.89
7	20	0.0029	34	5.6	0.0	24	47	389	412	386	418	0.89
8	20	2e-05	0.23	12.6	0.0	24	46	431	453	428	464	0.84
9	20	2.4e-05	0.28	12.3	0.0	18	45	486	513	483	516	0.90
10	20	0.0029	34	5.6	0.0	24	47	531	554	528	560	0.89
11	20	0.00016	1.8	9.7	0.0	23	42	572	591	570	595	0.91
12	20	0.0029	34	5.6	0.0	24	47	612	635	609	641	0.89
13	20	0.00026	3	9.0	0.0	23	42	653	672	651	676	0.91
14	20	0.0029	34	5.6	0.0	24	47	693	716	690	722	0.89
15	20	0.024	2.9e+02	2.7	0.0	23	44	734	755	732	763	0.90
16	20	0.0039	45	5.2	3.5	25	49	788	810	786	816	0.80
17	20	0.066	7.7e+02	1.3	0.5	24	43	812	831	806	845	0.74
18	20	0.012	1.4e+02	3.7	0.1	13	38	889	914	887	920	0.86
19	20	2.7	3.2e+04	-3.9	3.2	14	40	1063	1089	1061	1098	0.64
20	20	0.12	1.4e+03	0.5	0.6	14	31	1129	1146	1125	1150	0.84

Sequence Information

Coding Sequence: ATGCAGAAGGGCTTGTCTGATTTGCGCCTCCAAGTAGACAACAAAGATGAACGCATAAGCCTCCTTGAGAACCAGCTGGCTGAGTTGCCAAACCTCGAGGCAGAAATCAAGTTGTTGAAAGACCGGCTGAAGAATACGATTGTCGGTGTCGCTCAAGAGAAGGATCAACTTGACAATTTGTCCAAGACAGAGAGCAAACTTCGCGCAGATATGGACACACTCGAAGCCGAGCTGCAGAATGAACGTCGCCTTAGCAAGTCGCTCAAAGACAAGCTGAACACCGTCAGTTCGGGCGGTGCTCAGCGAGTGAAAATTGGGCAGTTTAGCGAGGAAGATCTGGTGGCAAAGATTAATGCTTTGCAAAACGAGAACGATACTCTGAAAGCTTCACTCGAGGCGCTGAAGGGAACTGCCGGCGGTGGTATTGATCTGGCAGAGGAGCTGCTTCGAGAGCGAAATGCTAGGCTGTATGCCGAGGATATGTGTAGGGAGGCTGTCGACACGTTGGAGAAAATGACAGCAGACAAGGACAAGGAGCTAAAAGCCAAGCTTGAAGCAGCTTCTCCTAGTGAGAAAGAACTTGTACGTCACTCTGAGAAGAAGTTAGAGGAGGAGAAGAAGGAAAAAGAGATGCTTCAAGGAGTGTTGGATTTCACTCAAGATGAGTTGGAAAATGAAAAAGTTGCTCGACGCAAATGTGAGGAGAGGATAAAGCAGTTAGAACAAGCTATGTTGATGGATAATAAGGGATCTGAAGTAAGCAGGAAGGATGCTCTTGACATAGCTAACGAGATGGAACAGCTGAAAAAACAAAATGACATGCTCAAGAAGTCAATTGCTGGTAGTCAGACAGATTTGCAGAAAAGCCAGTTTGAAATGTATGATAAAGTCCAAGCGCTGGAGAAACAGATCAAGGAGTTACTGTCTGAAAATGCGGAACTGAGGAAGTCGGATGCCATTCGTGACGAGCAGGAAAAGGTACTTCGTTTGCAGTTAGAGAGTATTCAGGATTTGCTAAAAGAAGAACAAAAAAATGCCAAGATTCAAGAACAGTTGAACGATAAAGTGAAATCATTGGAAGCAGAAAATGCAGAATTCAGAAAGGGTCTTCCACCTGGTACAACTCCAAAGCCATCAACTACAGGGGCAGACGATGGAAGATTCAAGGAATTGTTATTGAAAATCAAAGATTTGGAGGTGGAAAATGCAGATTTGAAAAAAGGTCTACCGTCTGGTACTACACCAAAGCCCTCAACAACGGGCGCAGGGGCAGATAATAATGTGATTGTCAATGATTTGGAGAAGAAAATTAGAGATTTAGAGTCAGAAAATGCAAATTTGAGAAAAGGAGTTTCACCGGGAGGAGAAGAAACTATATCACAGGATAAGGCTGCATATGGTCAGTTGGGTACTGCCCCCAAGTCTTCAACAACAGGGCCAGATACAGTTATAAAGGATTTAGAAAAGAAAATCGGAGATTTAGAAAAAAAAGTCGGAGACTTGGAGGCAGAGAATGCAAATTTGAAAAAAGGAGTACCAGTGGGTGCGACTCCAAAGCCATCAGCAACAGGAGCAGATGATGGAAGATTCAAGGAATTGTTATTGAAAATCAAAGATTTGGAGGTAGAAAATGCTGATTTAAAAAAAGGACTACCGTCGGGTACTACTCCAAAGCCCTCAACAACGGGGACAGGGGTCGATAATAATGTGATTGTCAAAGATTTAGAAAATAAAATCAGAAACTTGGAGGCAGAGAATGCAAATTTGAGAAAAGGGCCACCAGTGGGTGCGACTCCAAAGCCATCAGCAACAGGGGCAGATGATGGAAGATTCAAGGAATTGTTATTGAAAATCAAAGATTTGGAGGTAGAAAATGCAGATTTGAAAAAAGGACTACCGTCGGGTACTACTCCAAAGCCCTCAACAACGGGGACAGGGGCCGATAATAATGTGATTGTCAAAGATTTAGAAAACAAAATCAGAGACTTGGAGGCAGAGAATGCAAATTTGAAAAAAGGGCCACCAGTGGGTGCGACTCCAAAGCCATCAGCAACAGGGGCAGATGATGGAAGATTCAAGGAATTGTTATTGAAAATCAAAGATTTGGAGGTAGAAAATGCAGATTTGAAAAAAGGACTACCATCGGGTACTACTCCAAAGCCCTCAACAACGGGCGCAGGGGCCGATAATAATGTGATTGTCAAAGATTTGGAAAAGAAAATCAGAGATTTTGAGGCAGAAGATGCAAATTTGAGAAAAGGACTACCAGTGGGAGAAGAAGAAACTATTATATCAGCGAATAAGGCTGCATATGGTCAGTTGGGTGCTGCTCCTAAGGCTTCGTCAGGATTCTCTAATCAGGATCTAGAGAAACGATTGAAAGAACTTGAAGCTGAGAATTCAAAACTCAAGAACACGAACGATGAACTGGAGAAGAACCTCAAGAACCGGGCCAACGAACTCCAAGCAGCAAATGATAATCTTAAAAGAATTCAACTCTCTCCTGACGATCGCGCCAAATTTGATGACGAGCTTGATGCCAGAAACAGGGCTGAGAAGGCTGAAATGGAAGCTCTTATTGCACAGCTAGAAGGTCAGGTCAAGTCATTCAAGAACCAAGATTCAGGCAAGACAGCGGACAGAAGTGGACAGTCGGCCGGAACAAATGCCGAAATAGATCGCTTGCAGAAGAAGTGCGCCTCGTTAGAAGCAGAGATTGAGAGACTCAAGAAGGAAAAGACAGGCTTGGTTGATAGTTACGAACACCGAATAGCTGGTCTCACAGAGAGTTTTGAAAACCGTCTGAAAATGAAAACAAAAGAGTCCATGATGAGACTACAGGAGAGCATTGAAAAGTTTAAGCAAACGTTAAGTCCTGAAGATCACGCAGCTAACATAATAGCAGTAGAAACGAAGAGCGTAAAGAGTATGGCAGTAATGAAAGAAGCATATGAGAAACGTATCGCAGACATTATCGCTGCCAACTCCAAAGACAAGGAAGCAACCAATAAAGTGTACAGCTCCAACTTATCGACGTTGAAAGAAACGTATGAACGCGATATCAAGATGTTGAATGAGCGTCACAACGCTAGTATTACGCAACTGCAGAGCCTCCACGAAGAGGAGGTTCAAGAAATGAATAGCGATCTTGATTCTGAAGTAAAGAGGCTGTCTTTTTGGGAGATTGAAGAGGTAAAGAAGAATCAAGAAGAGATGGTCAAGACGATGAAAAAAAGACATCAAGAGGAAATGGAAAACCTTCAAAAGAAACAGAAAGACTACAAGATGAATGCTGAAGACGACTTCAAACGAGAGATCAGTACGCATGAGATGACTAAAGTGGAGTATGAAGCAGAATTGCAGCGTATGAAAAATAGTAATAAAAATAAGATTGAGGTATTGAAAGTGAAGTATGCAGAACTGATGGAGGAAGAGCGTAGAAAGAACAAAGGCAGATTAGGTTCGAAAATCCTAGCACAATCGGGGACAGAAGTGTATGATCTGCATCCCACAGGTGGCGAGGTGGATAACCAAGTTGGTCTGCCCGGTCAGAGCCCCTCGGTTCTTGGCGTAGAAGATATTCTACGCAAGGCACTGGCACACGGATTCGAATCGCTGACATTTGACGAGCTGTCGTCCTTGCACGAGCGCTGCTGTTCGTCCACGGCCCGAATGATTATGGAGAACCCCGCTCTGAAGTTGGCGCCCATGAAGTTCTCGCTGCAGGGTGCCGACAAGCAGCAGCTGTGTAGCCGTATTGCGTGCCTTGAGCAAGAAATAGCACGCAGACAGTTTGAAACGCAGAAGAGAGTCAACACGCTTGAGAGCACGGTGAAGCACGAGAAGCGGCGACTCGGCGAGGTGAAGGACGCGCTCACACGCTCGTTGACTCAGGAGCAGCGACGCTCGCTGGAACTACACTCGCGGCTCGGCACTCAGACGCAGCAGCAGGCCGAGATTGAGTCCGAGCGTGACATGCTGCGCCGACAGCTAGCTTATCACGAGGAGAAAGCCAAGACTGCCATCCAACAGCTAGAGAAGGAGAAGTCGAAGAACCGCATCATGTCGGAGGATTTGCACAAGGAGCGTAACAACATCAGACACTTGCAGTCTCTACTCGAGGCTGAACGAACTCGAGTAAAGTCTTCCAACTTGAAAGAGTCGGACCTTATCGAGACGTTGCGCATCAAGCTGGAGACCGCGCTTGACAACGAGGCACGCATGAAGTTCAAGTACGAGAAACTAGAGGCACTATACAACAGCTCGCAGGTGCCAACCAACCAACGCCGTTCCGTTAGCGGCTCCCGTCCTGTGTCCTCCCCGTGTGCGGAGTCGTGCCACGCTCCTTGTAATAGCAAGTGCAAGGATACTTCACCGGCGCCGCGCAAGGCTGCCCGGCTTGAAGATCCGTATGAGCAGCAGGTACATTCAAGTAGAGCGGACCTCCAGAAGGGGATATTCATGCAACAGTGCAGTACGCGGTATAAGAAGAAGTCGAGATATTCAGACTCCTCCAATTGA
Protein Sequence: MQKGLSDLRLQVDNKDERISLLENQLAELPNLEAEIKLLKDRLKNTIVGVAQEKDQLDNLSKTESKLRADMDTLEAELQNERRLSKSLKDKLNTVSSGGAQRVKIGQFSEEDLVAKINALQNENDTLKASLEALKGTAGGGIDLAEELLRERNARLYAEDMCREAVDTLEKMTADKDKELKAKLEAASPSEKELVRHSEKKLEEEKKEKEMLQGVLDFTQDELENEKVARRKCEERIKQLEQAMLMDNKGSEVSRKDALDIANEMEQLKKQNDMLKKSIAGSQTDLQKSQFEMYDKVQALEKQIKELLSENAELRKSDAIRDEQEKVLRLQLESIQDLLKEEQKNAKIQEQLNDKVKSLEAENAEFRKGLPPGTTPKPSTTGADDGRFKELLLKIKDLEVENADLKKGLPSGTTPKPSTTGAGADNNVIVNDLEKKIRDLESENANLRKGVSPGGEETISQDKAAYGQLGTAPKSSTTGPDTVIKDLEKKIGDLEKKVGDLEAENANLKKGVPVGATPKPSATGADDGRFKELLLKIKDLEVENADLKKGLPSGTTPKPSTTGTGVDNNVIVKDLENKIRNLEAENANLRKGPPVGATPKPSATGADDGRFKELLLKIKDLEVENADLKKGLPSGTTPKPSTTGTGADNNVIVKDLENKIRDLEAENANLKKGPPVGATPKPSATGADDGRFKELLLKIKDLEVENADLKKGLPSGTTPKPSTTGAGADNNVIVKDLEKKIRDFEAEDANLRKGLPVGEEETIISANKAAYGQLGAAPKASSGFSNQDLEKRLKELEAENSKLKNTNDELEKNLKNRANELQAANDNLKRIQLSPDDRAKFDDELDARNRAEKAEMEALIAQLEGQVKSFKNQDSGKTADRSGQSAGTNAEIDRLQKKCASLEAEIERLKKEKTGLVDSYEHRIAGLTESFENRLKMKTKESMMRLQESIEKFKQTLSPEDHAANIIAVETKSVKSMAVMKEAYEKRIADIIAANSKDKEATNKVYSSNLSTLKETYERDIKMLNERHNASITQLQSLHEEEVQEMNSDLDSEVKRLSFWEIEEVKKNQEEMVKTMKKRHQEEMENLQKKQKDYKMNAEDDFKREISTHEMTKVEYEAELQRMKNSNKNKIEVLKVKYAELMEEERRKNKGRLGSKILAQSGTEVYDLHPTGGEVDNQVGLPGQSPSVLGVEDILRKALAHGFESLTFDELSSLHERCCSSTARMIMENPALKLAPMKFSLQGADKQQLCSRIACLEQEIARRQFETQKRVNTLESTVKHEKRRLGEVKDALTRSLTQEQRRSLELHSRLGTQTQQQAEIESERDMLRRQLAYHEEKAKTAIQQLEKEKSKNRIMSEDLHKERNNIRHLQSLLEAERTRVKSSNLKESDLIETLRIKLETALDNEARMKFKYEKLEALYNSSQVPTNQRRSVSGSRPVSSPCAESCHAPCNSKCKDTSPAPRKAARLEDPYEQQVHSSRADLQKGIFMQQCSTRYKKKSRYSDSSN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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