Basic Information

Insect: Agonum fuliginosum
Gene Symbol: lilli_1
Assembly: GCA_947534325.1
Location: OX384041.1:32294644-32304082[-]

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 5 5.7e-20 2.9e-15 58.0 16.6 349 513 70 237 57 238 0.76

2 5 1 5.1e+04 -13.6 29.3 132 275 278 429 238 435 0.48

3 5 1 5.1e+04 -6.7 26.6 92 219 433 566 417 580 0.29

4 5 0.02 1e+03 0.1 2.8 73 163 578 669 573 735 0.54

5 5 0.32 1.6e+04 -3.8 24.4 159 267 806 908 758 928 0.47

#	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	5	5.7e-20	2.9e-15	58.0	16.6	349	513	70	237	57	238	0.76
2	5	1	5.1e+04	-13.6	29.3	132	275	278	429	238	435	0.48
3	5	1	5.1e+04	-6.7	26.6	92	219	433	566	417	580	0.29
4	5	0.02	1e+03	0.1	2.8	73	163	578	669	573	735	0.54
5	5	0.32	1.6e+04	-3.8	24.4	159	267	806	908	758	928	0.47

Sequence Information

Coding Sequence: ATGGCGTATCGTCATAAACTCGCCGTGGCGTCGTCAAGTCAGAGATTTATGATGCTCGGAGGTTTTTCCTCGAGAATTTATTACGGCCACTCGAAAAATGTCGCAGAAAGCGAAGGCAATTTTAATAGTCTGGCACAAAGTCAAAGTTCCGGAAGTGGGGGCGGGATCCGGGAGCCGCAGACACCGTCCGGAGCCGGACAACCGGAAGTCGAACACATCCTTAAGGAAATGATTGACGTTGTGCGCACACCGCTCACGGCCATTGCGGCCACCCCTAGGAAGGAGCCGGACAACAAGTTCACGTTCAACCCGGTCCTAGGAAAGCTTACGGAGACGGTCCCTGGACCAGCACCGCCCAAAAAGCAACGCGACCGTCAGCCACCATCCTCGAGACCGTCCACCACAGACCATATTCGGGATGATCTGGACCTATCTGAAGACTCTGATGATGGCGAGGCATCGCAGTCAACGACACATCCAACCATAGAACCTGTGTTGCAGCAGACAGTGCCGGTGATGGTGCCGGTGCCCGTGCCGCAGCTGTCGCCCATGGCCAGCTCGTCGAGCTCGGGCTCGGACTCTGACTCGGACAGCGAGTCCAGCAGCGAGGACTCGGTGGACGAGGCGATCCAGTCCACCAGCACCAAGCCCGCCTCACCAGCGCCGCAGCCGCCGCAGCAGCAGCCGCGCTGGAACCTCGGCTCCTACCTGGACCAGGACAAGCCGCACTCCGCCCCCGCCGACAAGGAGTCCAGCGACTGCAGCGACGAGACCAAGGACATCGACAGTGTCGTCGCCGAGGCCCTCGCCAAACCCGACCCCCTCCTCTCCAGCCTCTCAGACTCTGACTCCGAGAACAGTGATCACGAAACTACTCAAAGACTTCCTATTAATAAAAACAGACCAATGAACCGAGCCAGTCCAAGGAAAAAATCCACGTCGTCTGTAAGTGACTCGGATGACGACAACAAACCTAAAGTGAATAGTGCCAGTGATAGATCTAGAGACAAGAATGACAAGGATAAGAAAAGAAAACCTGGAAGACCGCGCAAAGTTAAAGCATCGACATCTTTAAGTGGATCCGAAACAGAACATCCGAAAGTGAAGAAACGTGGACGACCACCAACTAAGACTCACACAAGCATCAGCGGTTCGGATAATGAAACACGTACAAAGAAACGTGGCAGACCGCGTGCTAGTGCGAAGGCTCCTCCAAGCCCCAGCAGCTCTGAAGACGAGGCTGCGCCCGTGAAGCCGTCGTTCCCTCGCGCACTCTCCCCCAAACGCGCTAGATCCATCAGCGAGTCAGACAATGACCGCTCGCCAGTCAGGCATCACGACAGCTACCGCAAGACAAACATATCTGACACGGAACCATTCAAACTAACACCGAAGCGACCTTCGAAACACAAATCATCAACACCAAGATCAGAAGATGACAAAAAGAAAACAGTCGGCCGCCCGAAAAAGTCTGACCGACAACAGGTAGACTCCGAAGACGATGAATGGGGCAAACAAAACATGAAAATGAAGAAGCAAAAGACAAAAGATAGAGCTAGTGATGCGTCATCCTCGAGAGAGACCACCAGCAAAACGAGTGAAAGTCCTAAAAAGAAAGAGAAACGGCCTAGAAAGAGCAGCAAGAGTACCAACATCAAAAGCCAAGCAAATCTTCCTACAACTACAGATTCCGATTCTGATAAAGACGATCGGCCATCTTGTACTTCTCCAATTGCTAAACCGCTCGCTAGAGTTCCTCCGAATCCACGGGGAAGACCCAAGCGACGCTCAGTGTCCTCCTGCTCTGAAGGAAGAATGAAGTCGTCCGACAGTGAGCGCTCGTACCACCAGACCAGCAGGCCACCGCCGCCCGCCAAAGTCGACAGTCCTGTCAAAGTCGAAACTGAAAGTAAACCAGTGCAGGACAAAAAGAAAAACGACACTCTTAGGAAACTGTTCACGCCGAAAAGAGATTCAGAAGGCGGTAAAGGAGGCGGCAAGGGCGGTGGCAAAGGCGGAAAAGGAGGAAAGGGGAAAGGCGGCGTTATAATTGTTGATGGTGATTATGAAAGAAGCTCTTCCTCAGTCGAAGACGAAACCATGCCGAATATTGTGAATCCTGCATTGTTGTCGCCTTTGCCTACTCATAGTGCCAAGTCCCCTAGCGAAGTGAAACAAGAACTGTTTGCCGACAGTGACCGCGAACCAGTCCGCCTCATGTGCCGCATAGACTTGTGTAGGATCGATCTCTCGCGCTTGACGTGCCTGTCAACCAAGCGGCGCTCGGAAGAAATGCGTGTCAAAGCCGAATTATCTGACACTCGGCCGGAGCCGGAACTCTTCGAGCCCAAGCCCCCGCGCGACGTCGAACACGGTGAAATAGTGGACGTGAAAAGTGAAACCGTCGAACGGACAGCGAACGATGAGTGCGACAGTGACTACAAAAAACAAAAACACAAAACTAAGGACGATGTGAAAGAAAAACATAAAATCAAGGGACACAAACGAAAACGCCACGCGAGTGCTAGTTCTGTTAGTTCTTTATCTACTGTCAGCAGCCTCGTGTCACATTCTAGCCGCCGGAAGGACCACCACAAGTCCAAGGACGGCCACAAGAGTAAGCGAAGGAAACAAGAGGAACAGGACACCGCGGCGGCTTCCTTGGCGCTCACCACAGCTCCGCCGACCAATCACGAGCGGGAAGAAGCTTCTTCGCCGGCTCATTCACAAGCAGCAGAGAGCACTTCATCAGCCTGGCGCGACGCACCCAGGTCTTATTACTCGTACTTTGAAAGAGTTGACGAGGAAGTTTCCGACAGTGAAGAAAGGGATCAAAACCAATACTTATCCGAGGCCAAGCGACTGAAACATGGCGCAGACCGCGAGACGGACGCCACGGCGCAGGGCATGCAGTACCTGGAGGCCGTGCTGTACTTCCTGCTCACCGGCAACGCCATGGAACACGAACACGAGCATGAGAAGGCCGCCTTCACCATGTACAAGGATACGCTCAGTTTAATCAAATACATCTCATCCAAGTTCAGAAGTCAACAAAACAGTTCACCCGTACACAACAAATTAGCCGTATTAAGTTTAAGATGTCAATCGTTACTATTTTTAAAGTTATTCAAGATGAGAAGATCTGAACTAAAAGAGATTCAGAAATGCATCACAGATTACTTTCATAAGTCGAACAACATGACACCGCTGCAGCCGGAGCAGCTGCCGCAGGGGAGTGGCGGACAAGGCACGCCGTCGCCGCTGTCACCGACACCATCGCCAGCCGGGTCCGTGGGGTCGGTGGGCAGCCAGAGCTCGGGCTACGGCTCCGGCGAGCTGGCGCGCACCACCGCCGCAGCCACGCAGCAGCCGCCCGCCGCCACCATGGGGCCCTGCATGCCCATGCCGCTGCCCGTGCACACCGCCATCTCCAAGCAGACCATGTACTTCGGCTACGTTGTCTCGTGCTACGATCTCTGGGATCAGGCTGACTTGCTCGTGAGCCGTGGCAGGCACACAGATTTCTTCATCAAGCTGGATAAAGACTGCAAACCTCTGACAATGCACAGCACGTTGAAAGAGCTCGTCCGGTATGTGCGTACCGGCATCCAAAGGCTGAAGGAAATGTGA
Protein Sequence: MAYRHKLAVASSSQRFMMLGGFSSRIYYGHSKNVAESEGNFNSLAQSQSSGSGGGIREPQTPSGAGQPEVEHILKEMIDVVRTPLTAIAATPRKEPDNKFTFNPVLGKLTETVPGPAPPKKQRDRQPPSSRPSTTDHIRDDLDLSEDSDDGEASQSTTHPTIEPVLQQTVPVMVPVPVPQLSPMASSSSSGSDSDSDSESSSEDSVDEAIQSTSTKPASPAPQPPQQQPRWNLGSYLDQDKPHSAPADKESSDCSDETKDIDSVVAEALAKPDPLLSSLSDSDSENSDHETTQRLPINKNRPMNRASPRKKSTSSVSDSDDDNKPKVNSASDRSRDKNDKDKKRKPGRPRKVKASTSLSGSETEHPKVKKRGRPPTKTHTSISGSDNETRTKKRGRPRASAKAPPSPSSSEDEAAPVKPSFPRALSPKRARSISESDNDRSPVRHHDSYRKTNISDTEPFKLTPKRPSKHKSSTPRSEDDKKKTVGRPKKSDRQQVDSEDDEWGKQNMKMKKQKTKDRASDASSSRETTSKTSESPKKKEKRPRKSSKSTNIKSQANLPTTTDSDSDKDDRPSCTSPIAKPLARVPPNPRGRPKRRSVSSCSEGRMKSSDSERSYHQTSRPPPPAKVDSPVKVETESKPVQDKKKNDTLRKLFTPKRDSEGGKGGGKGGGKGGKGGKGKGGVIIVDGDYERSSSSVEDETMPNIVNPALLSPLPTHSAKSPSEVKQELFADSDREPVRLMCRIDLCRIDLSRLTCLSTKRRSEEMRVKAELSDTRPEPELFEPKPPRDVEHGEIVDVKSETVERTANDECDSDYKKQKHKTKDDVKEKHKIKGHKRKRHASASSVSSLSTVSSLVSHSSRRKDHHKSKDGHKSKRRKQEEQDTAAASLALTTAPPTNHEREEASSPAHSQAAESTSSAWRDAPRSYYSYFERVDEEVSDSEERDQNQYLSEAKRLKHGADRETDATAQGMQYLEAVLYFLLTGNAMEHEHEHEKAAFTMYKDTLSLIKYISSKFRSQQNSSPVHNKLAVLSLRCQSLLFLKLFKMRRSELKEIQKCITDYFHKSNNMTPLQPEQLPQGSGGQGTPSPLSPTPSPAGSVGSVGSQSSGYGSGELARTTAAATQQPPAATMGPCMPMPLPVHTAISKQTMYFGYVVSCYDLWDQADLLVSRGRHTDFFIKLDKDCKPLTMHSTLKELVRYVRTGIQRLKEM

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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