Basic Information

Insect: Xylophagus ater
Gene Symbol: lilli
Assembly: GCA_963422695.1
Location: OY730484.1:14069254-14077842[+]

Transcription Factor Domain

TF Family: AF-4
Domain: AF-4 domain
PFAM: PF05110
TF Group: Unclassified Structure
Description: This family consists of AF4 (Proto-oncogene AF4) and FMR2 (Fragile X syndrome) nuclear proteins. These proteins have been linked to human diseases such as acute lymphoblastic leukaemia and mental disabilities [1]. The family also contains a Drosophila AF4 protein homologue Lilliputian which contains an AT-hook domain. Lilliputian represents a novel pair-rule gene that acts in cytoskeleton regulation, segmentation and morphogenesis in Drosophila [2].
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 9 2.5e-07 0.0082 16.3 1.7 12 120 10 110 4 233 0.63

2 9 2.3e-09 7.5e-05 23.0 11.3 348 466 292 407 265 424 0.70

3 9 1 3.3e+04 -8.0 19.4 95 257 440 597 411 609 0.33

4 9 1 3.3e+04 -8.8 28.2 69 284 482 686 468 689 0.35

5 9 1 3.3e+04 -13.9 27.5 80 235 611 759 595 794 0.52

6 9 1 3.3e+04 -13.9 37.5 377 490 714 840 705 852 0.58

7 9 0.042 1.4e+03 -0.9 21.1 129 267 883 1018 866 1026 0.48

8 9 0.018 6.1e+02 0.2 7.0 404 469 1281 1352 1258 1355 0.57

9 9 0.24 8e+03 -3.4 0.7 164 213 1523 1567 1477 1578 0.37

#	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	9	2.5e-07	0.0082	16.3	1.7	12	120	10	110	4	233	0.63
2	9	2.3e-09	7.5e-05	23.0	11.3	348	466	292	407	265	424	0.70
3	9	1	3.3e+04	-8.0	19.4	95	257	440	597	411	609	0.33
4	9	1	3.3e+04	-8.8	28.2	69	284	482	686	468	689	0.35
5	9	1	3.3e+04	-13.9	27.5	80	235	611	759	595	794	0.52
6	9	1	3.3e+04	-13.9	37.5	377	490	714	840	705	852	0.58
7	9	0.042	1.4e+03	-0.9	21.1	129	267	883	1018	866	1026	0.48
8	9	0.018	6.1e+02	0.2	7.0	404	469	1281	1352	1258	1355	0.57
9	9	0.24	8e+03	-3.4	0.7	164	213	1523	1567	1477	1578	0.37

Sequence Information

Coding Sequence: ATGGATTATGCAGATTATGAACGTATGGAAAGAAGAGAAAGAGATAAATTGGCTAGACAACAGGTACAAAATCCAGATCCAGAATTACCATTATTTTCAGCACCAGTTCGTTTAAGTCCATCTGAAGGTGATTCTAGAATACAATCAAAATTAGGAGATTATTCTATTGTAAAACGATTAATTAACGAACCAAAACGTGTTATTGGAATAACAACATCACGACAGCAGCAACCACAAACTGTATCAAGTTCTTTATCATCAGTGGCTGCATCAGCCACATCTGTGGGATCATCATCTTCCCAACCGTCAGGATCAATTATAGGATCAACGGTGCCAAATAATAGAAATTCTGTTCCTCCACCATCGCAACCATCGCATCATTATCATCCACCTCAATATCCGCCGTTATTACCACCGCAACAACCCTCTCGTGTTGGTGGTAGCAGTAGTAAcagtaatattattaataataataatataattggCGGAATAGGAAGTGGTAACAGTGTTATTGGtagtagtaataataataatactggAACCTATATTAAACCACTTGATAATAAACCAACGTATAATGGGCGTGGTAGTTATCCAGGACAATCAGCTAAATCCGATTTACATTCAAGTGGAATTGTATTAGCTAATAAAGGACAATCGtctacttcttcttcttcaatatCGTCAATAAATTCAATGATGCCAAACGGTAGATTAAATGATAAGCCATCAGTAGGTGGTGGTGGTGTTGGAGGTCCACCAATAATACCGAATGGCCGATTTCAAGTTCCTCttccaaaaatacaaaaattttcacaagatAGTATGGATATTTCCAGTGTATTACCTTCTACACCGTTATCAGCGAATGGTGATGTTGAACATATTCTTAAAGAAATGACTATGCCTAGTTATACACCTTTAACTGAAATTGCAGCGACACCACGAAAAGaaatggaaagtaaattttcATTTGGTCAACAAAATCCTCATAAATATGCCGAGTTACCACCATTATTTAAAGCTCCAATTAATAAACAAAGGGAACGAATTATTATACCTAAACCAACGGAATTAGAAAATGATTTAGATTTATCTGAAAGTGATGATGAACGAAAAAAGCATACGTCCGTTGATCGtttGTCACCGGCAAATGATATGTCAAGTGAAAGTTCTGAATCGGCCTCAAGTGAATCGGGAAGTGAAGAGTCAAATGATCGTACCAAAGGCGAGATTTCTAAtcAACCTAGTAAATggaatttaagtaaattttttaaaccTCCCCCAACCCAAAGTGCAACATTACCACATCATCATTCAGCACAGGACGGTTCACAATTGActgaaacaaatattaaaaatgaaccAATAACGACATTAGAAGATGTTAATTTATCACCTTCAATATcctatagaaataataatctaattaatagtaaaattaataataataatagtaatagtaatagtaatgtTTTAACATCGAGAGAAATCAAACAAGaagtaaatcataaaaataaaatgattgaaCTACAACCAGATCAAATCAAAAGTGAGGCATTTGATAAAAGTCCAGAGAAAATATCAGATACCGTCGAATCTGATCAAATTGAAAGTTTTTTAGCTGAAACAAAAGGTTTAGCTGAACTTAAACCAGTATCAGAAATTGGTACAAGTTCGGaggaagaaaaacaacaaaaagaaaaaaagaaaccaaaacgTAAAAAATCACCAAGTAAAAAACCAGTTAAACGTCGACGAAAAGTACCCAAAGATAAAGTAACAGCTGCTGCAACAGCAAATGATTCTAGTGATGAAGATGAATTTTCAAGTGCTAATACATCATCTAGAAGAAGCAGATCAAAATCAGTTGATCAAGAGAAAAAAGCTAGAGGTAGACCAAGAAAAAATGCTACTACAACTACTACAGTTTCTTCTATTGTCGGAAGTGGTAACACAAGTTCaacttcaattaaaaattccgTATTACCGACAATAATACCACCGGCACCGGCACAAAATAGTAAAAAAGAGATAATTACGAAGAAAGCAACGGCACGAAGAAGAGTATCACGACAAAACTCAACAGTCAAAAGTCGTGAAATGTTAGATACAACTGATTCATCAACGGATGATGATAATTCTCGTAAAGTTAAAAAAGGTTCAGCTACAAAAGGAtctacaaaacaacaacaacaaccattGCCTACGCCCACATCAACAGCAAAATCAGATGCATCGAATAGCCGAATATTATTACAAATTCAAAAAGGTGCACCTAATAATGACGATGATGACGATGATAATTCATCAAATTCATCACTACCCACTGGAGAAGAtCGTTTATCATCACCCCATCTTGATACTACATCGTTAGCAACAAGACAACAATACTCATCACCTGCTGGTGGTCATCGATCATCTGCAAGAAGTAAactttcatcatcatcatcatcttcatcgtCATCATCTAGTGATGATCATTCCGATAGCGGTAGTGATGATTTAAGGGAAGATAAGAAAATTCGAGATAAAACAAAAAGTGATAAGAATAAAAGTGATACATTACGTAAACTAtttgtttttggtttaaataaagGAGAAGGTGGAGCAAAGGGTAAAGGTCAAGTTGTTATCATAGATCAATCAGAGGAATCACAGaaCCAATCTAAAGATACGTCAACACATCATGAAAAATTACTGTCACCAATCGCCtttaaacataataataataataataataataataataataataataataataataataataataataataatagtaatagtaataatagtaataataataataattcagaTACAATTCaagcaaataatttaaatacgaatagtaataatagtaacaCCAATTTAGTAACCACAACAAAATCACCAAGAAATTCAGTTAGCAATAGTAATAACAATATAACAAGAACACCAGAAAGAAATTGTGTAACatcaaataaaatacaaataattaacaataatactagtaataataataatactaataataatagtaatagtaataatagtagtCGTAATTTTACAACAATTATATGTAAAATTGATTTATCACGTTTAATACATATTCCAGCGGAATGGTATCATAATTCTTATGTAATACGTGATAGAAGTCCACGtgataatcaaaatttaataacaaattttccgGACAATGATAGAATTCCTAATAAAAGTCCAATATTATCGcgtaataataaaatcaatgatATTATTATTGGTAATTCTACGAAAACattaaataatcataataatattagtaataattCAAGACTGTGTAATAATGATATAGGAAATCTAAATATATCGCACAATCGTCGTATTGGagcaataaataataataataatttaataaatcgtgatttaaataatgaaacctctttaataaataataataataataataataatagtaatgaaACGACGAGTGgtaaattattaacaaataattataattcgaaaaataatttagatcatttaaataaacaacaagaacaacaatcaataattaataataattttggtgGTATTCGAACACCAAATTGTCATAATATTATTCAATCACCAAAATTAGATGATCAACAACATCAACGGATTACCggaaatttaataatatcatCGCCAATTAAAAATTGTGGTAATATTGTTAAAcatgaaacaaatattaaaaccGAATTTATGAATGATGATTATTATACaacaacatcaaaaataaataatttacaaacggatgataaatataatttatataataatacaaaattaaccaataataataataataataatccggTTAAACAGGAAtgtattaaaaatgaatataaacaaCAATTAACGATACCAACAATTGTACCGAATGATTTAATAAATGATAATATGTTATCACAATCAAATTCTAAACAACAACAATTGATAGCATCAACAACAGGAACTATAAATAATGTTGTTAGTCCAATATCAAATACAAAATCGGATGAATACGTTGCAAAAAGTCGACGAAAACGTAGCTCAAGTTCGAGTAGTAGTCCGTTTAAAGAGAAGAAACGGAAAAAAGTATCACAAttacaaaatgaaattatagaaCAATTACCACCAACCAATCATAATCGATTATTAGAGAAAGTTATattaccaccaccaccaccaacaACACAACCAATTATACCAAAAGTTTATAGATCATACTTTGAACGAAGTAATGATGATCTTATTAAAGAAGattattgGGACCAAACACGATTTTTAGAAGAAGCAAAACGTCTTAAACATGCTGCCGATAAAGAAACCGATCATTTCGATCAGGTAATGCTTTATTTAGAAGCGGTTTTATACTTTTTGTTATCTGGTGCTGCGATGGAAGAAGATAAACGTACAACTGCATCGGCATTTACAATGTACAAAGATACACTGGCATTAATAAAGTTTATATCAACCAAATTTCGGAATCAACAGACGGCCTCAGAGCAAGCAGATAATCATAATAAAGTTGCAATTTTAAGTTTGCGTTGTCAATCATTgatttcttgtaaattatataAGATGAAACGTCATGAAAGTAAAGATGCAACAAAAATTTGTaatgaattttttcataaaagcGGAAATGAATTACAAAATGGTAATACACCATCATCTATATCACCGACAAATTCTGTTTGTTCTCAGGGTTCCGGTTCAAATACACCGCCTTGTCAAATGGTCCCACTTCAAGTTCACATTgcattaaaacaacaaaatttatattttaattatttagcTAGTTCTCATGATTTATGGGAACAAGCTGacacattaattaaaaaagggAATCATACAGATTTTTTCATAGCCCTGGACCAAGGAAATGGACCATTAACATTACATAGCTCATTATATGACGTATTTAAGTATGTACAGGCTGGCTtacaaaaacttaaagaaatgtaa
Protein Sequence: MDYADYERMERRERDKLARQQVQNPDPELPLFSAPVRLSPSEGDSRIQSKLGDYSIVKRLINEPKRVIGITTSRQQQPQTVSSSLSSVAASATSVGSSSSQPSGSIIGSTVPNNRNSVPPPSQPSHHYHPPQYPPLLPPQQPSRVGGSSSNSNIINNNNIIGGIGSGNSVIGSSNNNNTGTYIKPLDNKPTYNGRGSYPGQSAKSDLHSSGIVLANKGQSSTSSSSISSINSMMPNGRLNDKPSVGGGGVGGPPIIPNGRFQVPLPKIQKFSQDSMDISSVLPSTPLSANGDVEHILKEMTMPSYTPLTEIAATPRKEMESKFSFGQQNPHKYAELPPLFKAPINKQRERIIIPKPTELENDLDLSESDDERKKHTSVDRLSPANDMSSESSESASSESGSEESNDRTKGEISNQPSKWNLSKFFKPPPTQSATLPHHHSAQDGSQLTETNIKNEPITTLEDVNLSPSISYRNNNLINSKINNNNSNSNSNVLTSREIKQEVNHKNKMIELQPDQIKSEAFDKSPEKISDTVESDQIESFLAETKGLAELKPVSEIGTSSEEEKQQKEKKKPKRKKSPSKKPVKRRRKVPKDKVTAAATANDSSDEDEFSSANTSSRRSRSKSVDQEKKARGRPRKNATTTTTVSSIVGSGNTSSTSIKNSVLPTIIPPAPAQNSKKEIITKKATARRRVSRQNSTVKSREMLDTTDSSTDDDNSRKVKKGSATKGSTKQQQQPLPTPTSTAKSDASNSRILLQIQKGAPNNDDDDDDNSSNSSLPTGEDRLSSPHLDTTSLATRQQYSSPAGGHRSSARSKLSSSSSSSSSSSSDDHSDSGSDDLREDKKIRDKTKSDKNKSDTLRKLFVFGLNKGEGGAKGKGQVVIIDQSEESQNQSKDTSTHHEKLLSPIAFKHNNNNNNNNNNNNNNNNNNNNNSNSNNSNNNNNSDTIQANNLNTNSNNSNTNLVTTTKSPRNSVSNSNNNITRTPERNCVTSNKIQIINNNTSNNNNTNNNSNSNNSSRNFTTIICKIDLSRLIHIPAEWYHNSYVIRDRSPRDNQNLITNFPDNDRIPNKSPILSRNNKINDIIIGNSTKTLNNHNNISNNSRLCNNDIGNLNISHNRRIGAINNNNNLINRDLNNETSLINNNNNNNNSNETTSGKLLTNNYNSKNNLDHLNKQQEQQSIINNNFGGIRTPNCHNIIQSPKLDDQQHQRITGNLIISSPIKNCGNIVKHETNIKTEFMNDDYYTTTSKINNLQTDDKYNLYNNTKLTNNNNNNNPVKQECIKNEYKQQLTIPTIVPNDLINDNMLSQSNSKQQQLIASTTGTINNVVSPISNTKSDEYVAKSRRKRSSSSSSSPFKEKKRKKVSQLQNEIIEQLPPTNHNRLLEKVILPPPPPTTQPIIPKVYRSYFERSNDDLIKEDYWDQTRFLEEAKRLKHAADKETDHFDQVMLYLEAVLYFLLSGAAMEEDKRTTASAFTMYKDTLALIKFISTKFRNQQTASEQADNHNKVAILSLRCQSLISCKLYKMKRHESKDATKICNEFFHKSGNELQNGNTPSSISPTNSVCSQGSGSNTPPCQMVPLQVHIALKQQNLYFNYLASSHDLWEQADTLIKKGNHTDFFIALDQGNGPLTLHSSLYDVFKYVQAGLQKLKEM

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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