Basic Information

Insect: Brachyptera risi
Gene Symbol: -
Assembly: GCA_964007535.1
Location: OZ023328.1:26466255-26490822[+]

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 22 0.052 6.7e+02 1.6 1.0 15 38 90 113 83 129 0.72

2 22 1 1.4e+04 -2.6 1.9 14 14 253 253 232 285 0.49

3 22 0.23 3e+03 -0.5 2.3 24 49 266 290 243 298 0.59

4 22 0.48 6.3e+03 -1.5 0.3 24 44 411 431 411 448 0.78

5 22 0.6 7.9e+03 -1.8 0.6 26 49 487 513 472 521 0.53

6 22 0.004 52 5.2 0.1 25 47 577 597 575 603 0.82

7 22 0.11 1.4e+03 0.6 0.3 24 49 724 749 717 757 0.75

8 22 0.008 1e+02 4.2 0.8 15 34 761 780 756 798 0.74

9 22 0.055 7.2e+02 1.5 0.2 22 50 812 841 802 846 0.83

10 22 0.0038 50 5.2 0.0 24 47 854 877 851 883 0.89

11 22 0.00042 5.4 8.3 0.0 23 42 895 914 893 916 0.92

12 22 0.00098 13 7.1 0.0 24 47 934 957 931 963 0.89

13 22 0.00014 1.8 9.8 0.0 23 45 975 997 973 1009 0.86

14 22 0.00021 2.7 9.3 0.1 19 48 1032 1061 1029 1066 0.89

15 22 0.00022 2.8 9.2 0.0 23 47 1078 1102 1076 1108 0.90

16 22 0.00014 1.8 9.8 0.0 23 45 1120 1142 1118 1154 0.86

17 22 0.0011 14 7.0 0.6 19 41 1177 1199 1174 1205 0.85

18 22 0.1 1.3e+03 0.7 2.8 26 49 1236 1257 1234 1260 0.77

19 22 0.095 1.2e+03 0.8 1.4 24 47 1259 1283 1252 1292 0.67

20 22 0.085 1.1e+03 0.9 0.2 14 37 1337 1360 1334 1366 0.65

21 22 2.5 3.2e+04 -3.8 1.0 31 38 1527 1534 1508 1543 0.52

22 22 0.17 2.2e+03 -0.0 0.9 15 31 1582 1598 1579 1602 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	22	0.052	6.7e+02	1.6	1.0	15	38	90	113	83	129	0.72
2	22	1	1.4e+04	-2.6	1.9	14	14	253	253	232	285	0.49
3	22	0.23	3e+03	-0.5	2.3	24	49	266	290	243	298	0.59
4	22	0.48	6.3e+03	-1.5	0.3	24	44	411	431	411	448	0.78
5	22	0.6	7.9e+03	-1.8	0.6	26	49	487	513	472	521	0.53
6	22	0.004	52	5.2	0.1	25	47	577	597	575	603	0.82
7	22	0.11	1.4e+03	0.6	0.3	24	49	724	749	717	757	0.75
8	22	0.008	1e+02	4.2	0.8	15	34	761	780	756	798	0.74
9	22	0.055	7.2e+02	1.5	0.2	22	50	812	841	802	846	0.83
10	22	0.0038	50	5.2	0.0	24	47	854	877	851	883	0.89
11	22	0.00042	5.4	8.3	0.0	23	42	895	914	893	916	0.92
12	22	0.00098	13	7.1	0.0	24	47	934	957	931	963	0.89
13	22	0.00014	1.8	9.8	0.0	23	45	975	997	973	1009	0.86
14	22	0.00021	2.7	9.3	0.1	19	48	1032	1061	1029	1066	0.89
15	22	0.00022	2.8	9.2	0.0	23	47	1078	1102	1076	1108	0.90
16	22	0.00014	1.8	9.8	0.0	23	45	1120	1142	1118	1154	0.86
17	22	0.0011	14	7.0	0.6	19	41	1177	1199	1174	1205	0.85
18	22	0.1	1.3e+03	0.7	2.8	26	49	1236	1257	1234	1260	0.77
19	22	0.095	1.2e+03	0.8	1.4	24	47	1259	1283	1252	1292	0.67
20	22	0.085	1.1e+03	0.9	0.2	14	37	1337	1360	1334	1366	0.65
21	22	2.5	3.2e+04	-3.8	1.0	31	38	1527	1534	1508	1543	0.52
22	22	0.17	2.2e+03	-0.0	0.9	15	31	1582	1598	1579	1602	0.84

Sequence Information

Coding Sequence: ATGTCGTATGTTGGTAAGAAGAACCAGTTATTCCGCGATAAGCCAATGGGAAAAACAGCTGCACTCCAGCGAAAACGTAGTGAAGGCCGCATGAAAAGGATCGAGTCATGCATGGACAACAGGGCTTGGTGCATGGATGAGGAAGAGAGACGAAGATACTTTCTCGAGCTTGTGGCAAATCCACCGATGGGAGGCGATGGCAGTGCCGTGGGGCGGTATGTACCAGTTGGCACTCTCATCGACTCGTTGCAGGCGACTAAGAACTCTCAGATTGATGTGCTCGCACAGCAGGTGGCTGATCTTGAGCAACAATTGGAAGCGTATCGCCAGCTGAACTTGACAGACGAGCAGAAAGCGCAGCTAGAAAAGCTGTTGCAGGATGTGAAAACCTCAAAGAGAGCTCTCGATGACTCCAAAAGGAAGATGCTTTCTCGCATCCCGATTTCAGATTCGGCACCAATTACAGCTCAGGATTCTATCATTACGGATCAGGGTTCGACAATTTCGGGTCAGATTTCGGAACAAATGTCTGCTCAGGATTCAACTCCAATATCAGCTCCTGCTCTGTCAACCCAAGTGTTGTATAAACGTGATCAGGATGGAACCGACAGCTCAGGAGCCGAGTCTGACATGGACGAGAGCGAGTTGAAGAAGTTGCTATTGCGCAAAGAGTCACAGATCATCTCGTTGAAGAACCAACTGGCCGCTAAGATCCAGGAATTAGCGGAGAAAGACAAGGCAATGAAAGCTGCTGTTGAGAGTGTCGAAAATGTTAGCAGCAGAGTTGATGAGAACTCAGACCTCCGCAAGCAGATGGAAAACCATCAGACTGAACTAAATAACATTAAAAATCAGTCATCTGATGAGTGTGAGGCCTTGCGCAGAGAAAAGGATGCGTTGGCAGAAAAGCTCAGCGGTCTTGCCAACATCGAGGCCGCTTACCTCGAGCTGAAGCGCAAGTCCGACAGCATGGATGACGTCATAGCTGAGCGTGACATGTTGCGCATGCGTCTCAAGGATTACGACAATATAGACAACGAGCTAGAAGACCTCAGGTTTCGCGCCAAGGAGGCCGACGTGATGCGCATGGAGCGAGACAGGCTGAAAGATCGCAACAATGTGTTAGCCACATTTGAGACGGCCTATTTGAAGCTACTGGAGGAGACGAAAGATTATGACACGCTCGTGGCTGAGCGAGCGATGAATAGGTCGAAGAACAATGATGGCCGTAAAGAACTTGACCAGGCAAAGAAGGATCTTGAACAAGAGCGAGACACCCTGAAAAGGGATCTGAAAGAGTACGAGTGCGCGATAGCTGACCAAGAGGACGAGATAAAGCGTCTGTTGCTTACGGTGGAGAAACTGACTACGACCACCAACAGCAAGGAGGATCGTATGCAGAAGGGTTTGTCTGAATTGCGCCTCCAGATAGACAACAAAGATGAGCGCATTAGCCTCCTTGAGAACCAGCTGGCTGAGTTGCCAAACCTTGAGGCAGAGATCAAGTTGTTGAAAGATCGGCTGAAGAATACGATTGTCGGTGTTGCTCAAGAGAAAGATCAGCTTGACAATTTGTCCAAGACGGAGAGCAAACTGCGCGCAGACATGGGCACACTCGAGGCCGAACTGCAGAATGAACGTCGACTCAGCAAGTCTCTCAAAGACAAGCTGAACAATCTCAGTTCGAGCAGTGCTCAGCCAGTGAAAACTGGGCAGTTCAGCGAGGAAGAGATGGTGGCGAAGATTAATGCTTTGCAAAACGAGAACGATGCTCTGAAAGCTTCGCTAGAGGCGTTGAAGGGGGCTGCCGGCGGTGGTATTGATCTGGCGGAGGAGCTAGATCGAGAACGAAAGGCTAGGCTGTATGCCGAAGAGATGTGTAGAGAAGCTGTCGACACGTTGGAGAAAATGACAGCCGACAAGGAGAAGGAGTTCAAAGCCAAGCTTGGAGCAGCATCTCCTAGTGAGAAAGAACTCGTACGTCActctgaaaaaaagtttgaggaggagaagaaggaaAAGGAGATGCTTCAAGGAGTGTTGGATTTCACTCAAGACGAGTTAGAAAACGAAAAAGTAGCACGAAGAAAATGTGAGGAGAGGATAAAGCAATTAGAACAAGCCATGTCAATGGACAGTAAGGGATCCGAAGTAAGCAGGAAAGATGCTCTCGACATAGCTAACGAGTTGgaacagctaaaaaaacaaaatgaccTACTCAAGAAGTCAATTGCTGGTAGTCAGACAGATTTGCAGAAAAGtcaatttgaaatgtttgataAAGTCCAAGCGCTGGAGAAACAGATCAAGGAATTACTGGCTGAAAATGCAGAGCTGAGGAAGTCGGATGCCATCCGCGATGAACAGGAAAAGGTACTTCGTTTGCAGTTAGAGAGCATTCAAGATTTGCTGAAAGAAGAACAAAAAAACGCCAAGATTCAAGAACAGTTGAACGATAAAGTGAAATCATTGGAAGCAGTTAATGCAGAATTGAGAAAGGGTCTTCCAACTGATACAACTTCAAAGCCATCAACAACAGGGGCAGACGAAGGAAGATTCAAGGAATTGTTATTGAAAATCAAAGATTTGGAGGTAGAAAATGCAGATTTGAAAAAAGGACTACCGTCAGGTACCACACCAAAGCCTTCAACAACGGGGGCAGGGGCAGATAATAATGTGATTGTCAAAGATTTGGAACAGAAGATCAGAGATTTGGAGACCGAAAatgcaaatttgaaaaaaggacCATTGGGTGCGACTTCAAAGCCATCAACAACAGGGGCAGACGATGGAAGATTCAAGGAATTGTTGATGAAAATCAAAGATTTGGAGGTAGAAAATGCAGACTTGAAAAAAGGACTACCTTCAGGTACCACACCTAAGCCTTCAACAACAGGGGCAGGGGCAGATAATAATGTGATTGTCAAAGATTTGGAGAAGAAAATCAGAGATTTAGAGGCAGAAAATGCAAACTTAAGAAAAGGACTTCCACTAGGAGGAGAAGAAACTATATCACAGGATAAGGCTGCATATGGTCAGTTAGGTGCTGCACCCAAGTCTTCAACAACAGGGCCAGATATAATTATAAAGGATTTAGAAAAGAAAATCGAAGATTCAGAAAAGAAAATCAGAGACTTGGAGGCAGAAAATGCAGACTTGAGAAAAGGACTACCCTCAAGTACCACACCTAAGCCTTCAACAACAGGGGCAGGGGCAGATAACAATGTGATTGTCAAAGATTTGGAGAAGAAAATCAGAGACTTGGAGGCAGAAAATGCAGACTTGAGAAAAGGACTACCCTCAGGTACCACACCTAAGCCTTCAACAACGGGGGCAGGGGCAGATAACAATGTGATTGTCAAAGATTTGGAGAAGAAAATCAGAGATTTAGAGGCAGAAAATGCAAACTTAAGAAAAGGACTTCCACTAGGTGGAGAAGAAACGATATCACAGGATAAGGCTGCATATGGTCAGTTAGGTGCTGCACCCAAGTCTTCAACAACAGGGCCAGATATAATTATAAaggacttggaaaaaaaaatcaaagatttAGAAAAGAAAATCAGAGATTTAGAGGCAGAAGATAGAAATTCGAAAAAAGTACTTTTACCAAGAGGAGAAGAAACTGTTATATCAGCGGATAAGGCTGCGTATGGTCAGCTGGGTGCTGCTCCTAAGGCTTCCTCAGGATTCTCTAATCAAGGCCTAGAGAAACGATTGAAAGAACTGGAAGCTGAGAATTTGAAACTCAAGAATACAAATGAGGAATTGGAAAAAAACCTCAAGAACCGGGCCAACGAACTTCAAGCAGCAAATGATAATCTTAAAAGAATGCAACTCTCTCCTGATGATCGCGCCAAATTTGATAACGAGCTTGATGCCAGAAACAGGGCTGAGAAGGCTGAAATGGAAGCTCTTATTGCACAGCTAGAAGGTCAGGTTAAGTCATTCAAGAACCAAGATTCGAGCAAGTTCACAGAAAGCAGTGGAAAGTCGCCCGGAACAAATGCCGAAATAGATCGCCTGGAAAAGAAATGCGCATTGTTAGAAGCAGAGATTGAAAAACTCAAGAAGGAAAAGACAGGCTTGGTTGATAGTTACGAACACCGTATAGCTGGTCTCAcggaaagttttgaaaaccGTCTCAAAATGAGAACAAAAGAGTCAATGATAAGACTGCATGAAagcattgaaaagttcaaacaAACGTTAAGTCCTGAAGATCACGCAGCCAACATTATAGCAGTAGAAACAAAGAGCGTGAAGAGTATGGCAGCTATGAAAGAagcatatgagaaacgtatcgCAGACATTATTGCTGCCAACTCCAAAGACAAGGAAACAACCAATAAAGTTCACACCTCCAACTTATCTACGTTGAAAGAAACGTATGAACGCGATATTAAAATGTTGAACGAACGTCATAATGCTAGTATAACGCAATTGCAGAGCCTCCACGAAGCGGAAGTACAAGAGATGAATAGCGAGCTTGACTCGGAAGTGAAGAGGCTGTCTTCTTGGGAGATCGAAATGGTGAAGAAGAATCAAGAAGAGATGGTCAAGTCAATGAAGAAGAGACATCAAGAGGAAATGGAAAACCTCCAAAACAAACAGAAAGACTACAAGATGAATGCTGAAGACGACTTTAAACGAGTGACCAGTAACCAATCAGGCTATGACTATAACAGGGCTAAACTGGAGTACGAAGCAGAATTGCAGCGTATGAAAGATAGTAATAAGAATAAGATTGAGGTATTGAAAGTGAAGTATACAGAACTGATGGAGGAAGAGCGAAGAAAGAACAAAGGCAGACTAGGTTCAAAAATCCTAGCGCAATCACGGACAGAAGTGTACGATCTGCGTCCCACAGGTGCAGGTGGCGAGGTGGATAACCAAGTTGATCTGCGCAGCCAGACCCCTTCGGTTCTTGGGGTAGACGACATTCTGCGCAAGGCACTGGCACATGGATTCGAATCTCTGATGTTTGACGAGCTGTCGACCTTGCACGAACGCTGCTGTTCGTCCACGGCCCGAATGATCATGGAGAACCCGGCTTTGAAGTTGGCGCCCATGAAGTTCACGCTGCAGGGTGCCGACAAGCAGCAACTGTGTAGTCGTATTGCGTGTCTTGAGCAGGAAATCGCACGCAGACAGTTTGAAACGCAGAAGAGAGTCAACATGCTTGAGAGCACAGTGAAGCACGAGAAGCGGCGACTCGGTGAGGTGAAGGACGCGCTCACACGCTCGCTGACTCAGGAGCAGCGGCGCTCGCTGGAACTTCACTCGCGGCTCGGCACTCAGACACAGCAACAGGCCGAGATCGAGTCCGAGCGTGACATGCTGCGCCGACAGCTAGCTTACCATGAAGAGAAAGCCAAGACTGCCATCCAACAGCTCGAGAAGGAGAAGTCGAAGAACCGCATCATGTCGGAGGATCTGATTAAGGAGCGTAACAACATCAAACACTTGCAGTCTCTACTCGAGGCCGAACGAACTCGAGCCAAGTCTTCCAACCTGAAAGAGTCGGACCTTATCGAGACGTTGCGCATCAAGCTGGAGACGGCGCTTGACAATGAGGCACGCATGAAGTTCAAGTACGAGAAGCTAGAGGCGCTATACAACAGCTCGCAGGTGCCAACCAACCAACATCGTCCCGTTGGTGGATCCCGTCCCGTGACCTCCTCGTGCGCGGAGTCGTGCCGCGCTCCGTGCAATACCCACTGCAAGGATACTTGCCCGGCGCCGTGCACGGCTGCTCGGCTCCAAGATCTGTATGAGCGACAGGTACATTCAGATAGAGCAGACCTCCAGAAGGGGATATTCATGCAACAGTGCAGTACACATTATAAAAAGAAGTCGAGACATTCAAACTCCTCCAATTGA
Protein Sequence: MSYVGKKNQLFRDKPMGKTAALQRKRSEGRMKRIESCMDNRAWCMDEEERRRYFLELVANPPMGGDGSAVGRYVPVGTLIDSLQATKNSQIDVLAQQVADLEQQLEAYRQLNLTDEQKAQLEKLLQDVKTSKRALDDSKRKMLSRIPISDSAPITAQDSIITDQGSTISGQISEQMSAQDSTPISAPALSTQVLYKRDQDGTDSSGAESDMDESELKKLLLRKESQIISLKNQLAAKIQELAEKDKAMKAAVESVENVSSRVDENSDLRKQMENHQTELNNIKNQSSDECEALRREKDALAEKLSGLANIEAAYLELKRKSDSMDDVIAERDMLRMRLKDYDNIDNELEDLRFRAKEADVMRMERDRLKDRNNVLATFETAYLKLLEETKDYDTLVAERAMNRSKNNDGRKELDQAKKDLEQERDTLKRDLKEYECAIADQEDEIKRLLLTVEKLTTTTNSKEDRMQKGLSELRLQIDNKDERISLLENQLAELPNLEAEIKLLKDRLKNTIVGVAQEKDQLDNLSKTESKLRADMGTLEAELQNERRLSKSLKDKLNNLSSSSAQPVKTGQFSEEEMVAKINALQNENDALKASLEALKGAAGGGIDLAEELDRERKARLYAEEMCREAVDTLEKMTADKEKEFKAKLGAASPSEKELVRHSEKKFEEEKKEKEMLQGVLDFTQDELENEKVARRKCEERIKQLEQAMSMDSKGSEVSRKDALDIANELEQLKKQNDLLKKSIAGSQTDLQKSQFEMFDKVQALEKQIKELLAENAELRKSDAIRDEQEKVLRLQLESIQDLLKEEQKNAKIQEQLNDKVKSLEAVNAELRKGLPTDTTSKPSTTGADEGRFKELLLKIKDLEVENADLKKGLPSGTTPKPSTTGAGADNNVIVKDLEQKIRDLETENANLKKGPLGATSKPSTTGADDGRFKELLMKIKDLEVENADLKKGLPSGTTPKPSTTGAGADNNVIVKDLEKKIRDLEAENANLRKGLPLGGEETISQDKAAYGQLGAAPKSSTTGPDIIIKDLEKKIEDSEKKIRDLEAENADLRKGLPSSTTPKPSTTGAGADNNVIVKDLEKKIRDLEAENADLRKGLPSGTTPKPSTTGAGADNNVIVKDLEKKIRDLEAENANLRKGLPLGGEETISQDKAAYGQLGAAPKSSTTGPDIIIKDLEKKIKDLEKKIRDLEAEDRNSKKVLLPRGEETVISADKAAYGQLGAAPKASSGFSNQGLEKRLKELEAENLKLKNTNEELEKNLKNRANELQAANDNLKRMQLSPDDRAKFDNELDARNRAEKAEMEALIAQLEGQVKSFKNQDSSKFTESSGKSPGTNAEIDRLEKKCALLEAEIEKLKKEKTGLVDSYEHRIAGLTESFENRLKMRTKESMIRLHESIEKFKQTLSPEDHAANIIAVETKSVKSMAAMKEAYEKRIADIIAANSKDKETTNKVHTSNLSTLKETYERDIKMLNERHNASITQLQSLHEAEVQEMNSELDSEVKRLSSWEIEMVKKNQEEMVKSMKKRHQEEMENLQNKQKDYKMNAEDDFKRVTSNQSGYDYNRAKLEYEAELQRMKDSNKNKIEVLKVKYTELMEEERRKNKGRLGSKILAQSRTEVYDLRPTGAGGEVDNQVDLRSQTPSVLGVDDILRKALAHGFESLMFDELSTLHERCCSSTARMIMENPALKLAPMKFTLQGADKQQLCSRIACLEQEIARRQFETQKRVNMLESTVKHEKRRLGEVKDALTRSLTQEQRRSLELHSRLGTQTQQQAEIESERDMLRRQLAYHEEKAKTAIQQLEKEKSKNRIMSEDLIKERNNIKHLQSLLEAERTRAKSSNLKESDLIETLRIKLETALDNEARMKFKYEKLEALYNSSQVPTNQHRPVGGSRPVTSSCAESCRAPCNTHCKDTCPAPCTAARLQDLYERQVHSDRADLQKGIFMQQCSTHYKKKSRHSNSSN

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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