Sfur001396.3


Basic Information
Transcription Factor Domain
Sequence Information
Similer Transcription Factors

Basic Information

Insect
Sogatella furcifera
Gene Symbol
lilli
Assembly
GCA_014356515.1
Location
chr12:1421189-1648451[+]

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 7 4.2e-14 1.1e-10 41.6 0.9 4 174 23 199 21 278 0.59
2 7 8 2.1e+04 -9.7 12.2 429 488 329 374 313 388 0.50
3 7 0.00012 0.31 10.5 13.5 393 501 400 528 392 532 0.64
4 7 8 2.1e+04 -6.2 18.1 99 240 757 899 730 924 0.45
5 7 8 2.1e+04 -8.3 20.7 99 245 812 952 779 1002 0.53
6 7 8 2.1e+04 -6.2 14.7 445 501 1195 1251 1174 1262 0.70
7 7 1.3 3.5e+03 -2.9 3.7 109 159 1291 1341 1253 1390 0.48

Sequence Information

Coding Sequence
ATGCTGGGGGATTATTACTCCACAAATGCCAGTAACCCCCTGCTTAAGGGAGCTTTATCAAGCGTGGAGCGGGACAGACTGCGGGAGCGGGAGCGGCAGGCCCGCGCCCAGCGTGCTCAGCAGATGGCCACACAGGAGCGGGATGTCGCACCTCTGTTCGGCGCCATTGTCAAGGTGAACCCCTCCACACACGACAAAGTAAGCCAACAAATTCAAAATCAGCTGGGACCCTACGACTATGTGCGACCACTTTTGGAAGACTCCAAACGCACCATGGTCCTGCTGGGGTCGGACGGCATACCGCCCAGTCCGGCACCCGCCGGTGGGGGGACCACCTCCTCCACGGGGGGGTCCTCGTCGTCGGGAGGACGTGGGGGCAGTAGCAGTCAGGGGGGCGGCAGCAGTGGGGGCGGGGGTGAGTTTAAGCGGCCCCCCGTCTCCAGTGGACAACAACATCGGTCGTCGTCGCATGGATCAACGCATGCGCAAAGTAGAAACGGATTCGTCAAACCGGCCGACAGTAGCAGTAAGTCTTCATCCTCGCAGTACAGGGGCGCCTTCTACCAGGGGGGCGCCCAGAAAGGGGTGCACTCGTCCAGTGGCGGATCTGGCCGTGATGGCATGGGGGGCGCATCCGCCAAGACCTCCTACTTTCCGAGGCCTACCTCGGGCGCCGCGTCTGCACATCCGGCAAGGAAGGCGACCAATCGGCCTATGCTCAATTTCCGGGAGCTGGACCACCATGATGACGCCGCCCTGGGCACACCGAGTCATGCCGATGTCAACGACATTTTAAAGGAAATGGCTGAGTTCAGAGTGATAAAACCGCATGAAAATCTGGCTGCCACACCAAGAGTGGAACAAGACTCAACTTTCAGCTACCTATTTGATAAGGTTGTTTGTCCACCACCCAAGCCGATATCTCCCCCACCCCCCACTCCAGCACCAATGCAGATGGATTCACCACCGTCCTCAACACCACCAAAAAACCAGAGGATATCATCCCCACCACCATCGTTGATCGGTACCTCCTCCTCCTCCTCATCTGCTCTCCTCCTCAACGGCAGTCTATCAGGAGGAGTAGGAGGTGGAAGCAGCAGTTCCTCCTCCTCCTCATCCCATCTGCATCACAGCCACGTTCATGCACCGGTACCGAAAAGTGGAGGGGGCGGTCTGACCGCGCCCACTTCCCTGTCGGCCAATCAGCGCGCGGGACGCCATCTTGTCACTCCGCCCACCACCACACAACCGCCACTGCCTTTATTGGAAAAAGATCTAAGTCTTTCTGAGAGCGAAGATGAGCAGAAGACCTCAGACCACCCAGTTCCTGAAAAGAGTCCATGTTTGCTATCACCTGGCTCTGTACCACTCTCACCATTACCTGATAATCCAATAGTTTCACCGATTCGCGGACCAATGTCGCCCCCTCCGGTGAGCGGCACCCAAGGCGCGGGCCCTACCCTTGCACCCAGCTCCAGCGAGGATGAGGGCGAGGCTTCGGATTCGGCTTCGGAAACGGAGGAATCCGATTCCGATTCAAGTTCGACGCCGACCACACGACAGCCGTCGCCGTTGCCAAGTGCCGCGGCGCCCTTGGCTGCGCCCTCAGCAGCCAGTGTGGGCGCCCCGAATGTTACTGCGCCCCAGGCGCCGCACGCTGAAGCCGAGCCGCCAAGGAACGGATGGAGTTTGAAGAACTTTTTTCCGTCGACGTCGCCGCATCCGGATAAGAAGAGCTCGCCGGACGACGCCCGTTCGAAACAGCGTCACGATGACGACAGTGGCGACTCGGAAGTGGTGTGCGTCAGTAAAAAAGCGCCGGCCCAGATTGGCGCCATCTCGGTGTCCGACTCGGACGGCGACAAAGTGGTGGTGGGCGGCCGAGGCAACGAGAAAGCGGGACAGCCGGCGGCGATGACAAAGCGTCGTCGGTCGAAGCGACGACATTGGGCGCCGAAAAGAGGGGAAGGAGTGAGCACGGATAGTGACTGTAGTACAGAACGCGCGCCAGTTCGCAGGCCGCCCATCTACACTCCACCAATGGCCGACAGCGATTCCGATGACAAAGCTCCGCCCCCCGCCAAGCACCGCCCACCGGCTGGCCCCGCCCCTGCCAGCTCGTTTGACGAGGATGACGATGACGACGCCGACTTTCGTTTCTCAGCGTCTCGTAAACCTCCCCGCACCCCTCCCAGCCCGGCTGTGGTTGGGGGGTCCACCAGGAGACCCCCGCGTACCCCTCCCAGCCCCCCTGCAGCCCCCAGAACGAATGCAAGGTCGCCTGTCAAGGCAGCAGCGGCTGTAACAGAGGTGAAGGCAAAGTCGGGGGGAGGGAGTGGTGGTTCGAAAAGGGGGCCTAAAAGTCATGCGACGGCTAAAGTTAGTGAGAAATCTGCGCATAAGAGCGGGGGACCGACGGCTAGACGAAATTCAAAGGTGGTGGAAAAGGATGAGATGCGAGTGAAGAAGAAACGGGGACGTCCTACCAAAGTGAAACCACCCCGAACTCCATCAGAATCCGAGGAAGAGGTGTCGCCCAAGGTCAAGTTAAAGTCGAAGGAACGCTCAAAGGCACTCAGCTCAGGCTCCGACGACGAGTGGGGCCGATCTAAACAGCGATCACCGCGTAAACGCCGTTCAACCGCCAGTAAAACGCCGACCGAATCTCGATCGTCGGACCGTTCCACGCCCCGAGACTCCTGGGAGGATAAACGACCCTGCCGGCCCGCGGGTCGACCCGTGCGAGCGCTGGCTACTAGCGCTACTAGTAGCGAGGATGATGACGACGATGACGATTTCCAGGATCGTAGAACGGTTGCATCTTCTTCATCCCCCGTAAAACCGGTTACTAGGGTGACCCCAGCCATAGCAGTGAAACGACCTCCGAGGGAGGTATCTCCCTACAGCAGTGATGGTGGTAAAAAAGAGGAAAGCCCACCAAAGTTGGATACGGAGGCTAATAACAAGAAAAAACGTGATACGTTGATGAGACTGTTTTCGAGGAATACTGCTGAAGGTGGTGGAAAAGGTGGTGGAAAAGGTGGGGGGAAAGGGGGTGGTAAGGGTGGTGGTAAGGGTGGTGGGAAAGGGGGGAAGTGTAGGGGGAAGGGAGGCGCAAAAACTCCGGGAGTGGTGAGCGGCTGTGAAGTGGATGAAGGGGAAAGGACACCTTCGTCGTGTCGGAGTGAGGAAGCTCGTTCAACGTTCCGTGGTGAGGAACTTCGTGCACCAACCTCGTTTCGTGGTGAAGAACCTCGTTCGTTACGTGGTGAAGAACCTCGTTCTACGTTACGTGGTGAAGAACCCCGTGTCCCCTCCACCTTTGAACCGCGCGTACCTTCCGCCACGTTCCGTGATGAAGAACCTCGTGTACCCCCAATTTCTCCACACCTCAGCAGTCCGGCTGCACCTCCCACGAGTCTGGCTCCTCCTCAGCAACCTCCTCCCAAACCTTCCCCTTCTCGAAGGTTGCCTCCTTCGATTGTCTGCCGCCTAGATTTGTCGGCTCTGGGCGGACTGTCCGCCGTGCAGCGCCTAATCGACACCAAAAAATGTTCCTCGGAAGAAATCCGTACTCGCACGGAGCTGGCTGATACCAGGCAGGAGATGGAGATCGGTGCAGCTACCTCCTCCTCCTCGTCCTCCTCGTCGAAAAAGGATCGTCAGGGGAGGCAGGAGGTGGGGAAGTCGTCTTCGTCGTCGTCGTCGACCCTGAAGGAGACGAAGCGGAGGAGGTCGCCGGTGCCGGTGGCGGCCGTAGCGCCCCTGCCCAACAAACAGCACAAACAGCCTTATGACGTCATGCGTTTGATGGCGCCCGTCACGCCCCAGCCCAAACCTGAACTAGATGTTACCACTTCAAGTGTTCCAAAGAGAGAACGTAGAGGAAGCTCAAGCTCCGACAGTTCGCCGGAAAGAATAAAAAAGCCTATGAAACGCAGGAGAGGCGAGAGTAGGCATAATAGAGGAGGTGATCTGTCGAATGTTTCCCAAACGAACCACGAGCGGGAGACACAGCAGCGAGGAGCCCCCCCTCCACCGCAGTACGGATTCTCCTATTTTCCACCGCAGAACGACCTCTGCGACCAGGATAATAAGTGCAACTACCTGAACCAAGCTAAACGACTGAAGCATTCGGCTGACAACGAGAGCGATGAGTTCTCGCAGGGTCTCAAATACCTGGAAGCGGTGCTCTACTTTCTGCTGACTGGCAAAACGTTGGAACAGGAGCCCGAGTCGCAGCGAGCCGCCTACCACATGTACAAGGAGACGCAGCAGATTGTTAGATACATATCATCAAAGTTTGTACCAATCAAGAATCAACTCATCAACTTCAATATGCAGACTGATCTACACATCAAACTTGCTATCCTCAGCTTGAGATGTCAGTCGCTGCTTTACCTGAAGCTGTACACCATGAAGCAGCATGAAGCAAAAGATGCTCAGCGTACAATCGGCGAGTACCTTAAGTCGAACCCGCCACCACCCCTAGACCAGTGCCTGGGTCCGGCGGGGGGGCAGGGTACCCCTTCGCAGCCGATGTCGCCCACGCCCTCCCCCGCCGGCAGCGTCGGCTCACAGTCGTCGGGCTACAGCAGCGGCGTGACCGGAAACGGAAGTGGAGTAGGGCAACATCCGGCCATGACGTCACTTCCGGTCGGCGTGCACGCGGCCATCGGCGACTTCTATCACAACTATGTTTGTCTGTCGTCGGCCTTTGATCTGTGGGACCAGGCAAATGCGCTTATCACCAAGGGAAATCATCTTGAATTCTTCACCGATCTGGACAAATCGTGTGGAACACTCATGCTGGAAACCAACATCAATCAGCTGGTCGAGTACGTTCACGAAGGCATCAACAGGTTGAAGGCGAAAGCCAATCAAAGGCTATGA
Protein Sequence
MLGDYYSTNASNPLLKGALSSVERDRLRERERQARAQRAQQMATQERDVAPLFGAIVKVNPSTHDKVSQQIQNQLGPYDYVRPLLEDSKRTMVLLGSDGIPPSPAPAGGGTTSSTGGSSSSGGRGGSSSQGGGSSGGGGEFKRPPVSSGQQHRSSSHGSTHAQSRNGFVKPADSSSKSSSSQYRGAFYQGGAQKGVHSSSGGSGRDGMGGASAKTSYFPRPTSGAASAHPARKATNRPMLNFRELDHHDDAALGTPSHADVNDILKEMAEFRVIKPHENLAATPRVEQDSTFSYLFDKVVCPPPKPISPPPPTPAPMQMDSPPSSTPPKNQRISSPPPSLIGTSSSSSSALLLNGSLSGGVGGGSSSSSSSSSHLHHSHVHAPVPKSGGGGLTAPTSLSANQRAGRHLVTPPTTTQPPLPLLEKDLSLSESEDEQKTSDHPVPEKSPCLLSPGSVPLSPLPDNPIVSPIRGPMSPPPVSGTQGAGPTLAPSSSEDEGEASDSASETEESDSDSSSTPTTRQPSPLPSAAAPLAAPSAASVGAPNVTAPQAPHAEAEPPRNGWSLKNFFPSTSPHPDKKSSPDDARSKQRHDDDSGDSEVVCVSKKAPAQIGAISVSDSDGDKVVVGGRGNEKAGQPAAMTKRRRSKRRHWAPKRGEGVSTDSDCSTERAPVRRPPIYTPPMADSDSDDKAPPPAKHRPPAGPAPASSFDEDDDDDADFRFSASRKPPRTPPSPAVVGGSTRRPPRTPPSPPAAPRTNARSPVKAAAAVTEVKAKSGGGSGGSKRGPKSHATAKVSEKSAHKSGGPTARRNSKVVEKDEMRVKKKRGRPTKVKPPRTPSESEEEVSPKVKLKSKERSKALSSGSDDEWGRSKQRSPRKRRSTASKTPTESRSSDRSTPRDSWEDKRPCRPAGRPVRALATSATSSEDDDDDDDFQDRRTVASSSSPVKPVTRVTPAIAVKRPPREVSPYSSDGGKKEESPPKLDTEANNKKKRDTLMRLFSRNTAEGGGKGGGKGGGKGGGKGGGKGGGKGGKCRGKGGAKTPGVVSGCEVDEGERTPSSCRSEEARSTFRGEELRAPTSFRGEEPRSLRGEEPRSTLRGEEPRVPSTFEPRVPSATFRDEEPRVPPISPHLSSPAAPPTSLAPPQQPPPKPSPSRRLPPSIVCRLDLSALGGLSAVQRLIDTKKCSSEEIRTRTELADTRQEMEIGAATSSSSSSSSKKDRQGRQEVGKSSSSSSSTLKETKRRRSPVPVAAVAPLPNKQHKQPYDVMRLMAPVTPQPKPELDVTTSSVPKRERRGSSSSDSSPERIKKPMKRRRGESRHNRGGDLSNVSQTNHERETQQRGAPPPPQYGFSYFPPQNDLCDQDNKCNYLNQAKRLKHSADNESDEFSQGLKYLEAVLYFLLTGKTLEQEPESQRAAYHMYKETQQIVRYISSKFVPIKNQLINFNMQTDLHIKLAILSLRCQSLLYLKLYTMKQHEAKDAQRTIGEYLKSNPPPPLDQCLGPAGGQGTPSQPMSPTPSPAGSVGSQSSGYSSGVTGNGSGVGQHPAMTSLPVGVHAAIGDFYHNYVCLSSAFDLWDQANALITKGNHLEFFTDLDKSCGTLMLETNINQLVEYVHEGINRLKAKANQRL

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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