Basic Information

Insect: Pseudococcus longispinus
Gene Symbol: lilli
Assembly: GCA_900064475.1
Location: FIZU01027474.1:4585-15848[-]

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 1.7e-10 4e-06 26.7 11.7 4 160 86 242 84 330 0.52

2 7 3.2e-10 7.4e-06 25.9 17.2 335 513 335 549 296 550 0.67

3 7 0.84 2e+04 -5.2 6.5 441 483 555 597 548 605 0.48

4 7 1 2.4e+04 -5.9 6.5 405 452 803 851 750 923 0.38

5 7 0.062 1.5e+03 -1.5 7.1 104 143 1245 1284 1141 1299 0.53

6 7 0.088 2.1e+03 -2.0 5.4 438 483 1301 1349 1288 1367 0.72

7 7 0.94 2.2e+04 -5.4 5.1 453 478 1417 1443 1387 1458 0.59

#	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	1.7e-10	4e-06	26.7	11.7	4	160	86	242	84	330	0.52
2	7	3.2e-10	7.4e-06	25.9	17.2	335	513	335	549	296	550	0.67
3	7	0.84	2e+04	-5.2	6.5	441	483	555	597	548	605	0.48
4	7	1	2.4e+04	-5.9	6.5	405	452	803	851	750	923	0.38
5	7	0.062	1.5e+03	-1.5	7.1	104	143	1245	1284	1141	1299	0.53
6	7	0.088	2.1e+03	-2.0	5.4	438	483	1301	1349	1288	1367	0.72
7	7	0.94	2.2e+04	-5.4	5.1	453	478	1417	1443	1387	1458	0.59

Sequence Information

Coding Sequence: ATGTGCGCATTTGAGCAGTTGCTCGTAGCTAGCATCTCCGATGATGTAGGATGGCGTAACACTTCTTTGCAGCGTAAAGATGTACGgtGTACGCGCCGATGCTTTACGCGAGCCGTTGTCGCGTTACGTCCAATTACGCAGCAACGTAATCTCGTTTCAAACAAGGCTCAAACGCTAGATGATCGAGTCGTGATTATGAAATCCGGCAATTATTCGATGAAAACGGTACCGGATTTCAGTTCCAAGTCGTCtttCGAACGCGAACGTTTGAGGGAACGCGAGAGAGAAGCTCGAGCTCAAATGACTTTCGAAGCGGATCAACGATTGTCTCAAGACGTAATGAATTCAGCGCCCTTGTTCGGAGAAATAGTTCGCGTGAATCCGAAATCTAACGACAAAGAAAGGCAACAAATCGAACGTAAATTGGGCCGATTCGAAGACGTTAAGCATTTGTTAGCAGATCAAGATGTTACAAACCTGTTCGGCGTCGACGGTCAGCCTCCGCCCAGTCCCGCACCTAATGTCTCTTCTagctcgtcgtcgtcgtcgtcgtcgatcGTCAGTCACGAATTCAAGAAACCGAACGCTTGCCTTCAATCGCATCCGACTAAATCATCCCACCACCATCACCATCATCATCACCACTCTAGCAACGCTCAAAGGAACGCGTTCGCCAAGCCCAACGATGGTAAATCGACGTACGCGAGTCGCGGTAGTTTATACGGCGGTCCGTCGTCGAAACACTGCAACGTACCTCCAACTTTGTCGGCGAAAACAGGCGGAAATTTAACGACGAATTCGTCGTCGTACGGTGTCGGCGGTAGTATGGGTAGTAGTAACAGCTGCGGTAGCGGCAACTCAACGACGACGGCCAATTATCATTACGGTTCGACGTCGAATAAAGCTTCGTCTTCGATTCACGATTACGCCGTTAGGATTCAGCAGTCGGCGGCCAAAAATTTGCCCAAAATTAATTGCGAGCTGCGAGATTCCGCGCGCGGTTCGGATTGTAGCGACGGCAGCGCGTCCGTTTCCCTAACCAacgtagaaaatattttagacGAAATGACGTCCGGCCTCAGAACGCCACTTACCGCCATCGCAGCAACGCCGCGCAAAGAAGTGGAGTCTAAATTCACATTCAATCCGATTTCTGGAAAGGTGGAGTCGTTGCTGCCGTTACCTAGAACGTCCGTCGACAAAGCCTACAAAACAAACGCTCCGAATAATATATTGGGAGCCGGCGGTCGCGGTACCTTAAATTCGTCGGCTTTTCGAGGCGATCGAAGCGACGAATCGACCAACGTACTGCAGCAGTTTCCCGCTACTTTGTTGTCCGCCACTGGCGGTGGCAATACCGTTTCGAGAAGCGGCTCCGGTTACGCATATGCGGTACCCGTTGCCGAAACGACTTCGTCGTCCGCCGGCAAGGAGAAAAACGAATCGACTACGTTGCCTTTGCGAAAATGCGAAGCTGTCACCACGAGCGAAGTTAGAAATACATCGTCTAGCGACGATAGCGACTCGGATTCCGGTTCGGAGAGCGAAGATTCGAGCAGCGATTCGCCTTCGCCGCCGTCGTTACCTCTACCGGTGGTTACCGAACAGGAAGAAAGCAAACATcgttggaatttgaaaaattttctaccgcCGTCCGCGCATAACTCTCAAAATtgcgaaaaactgaaaactgacgATTCGGATAGTTCGACGGGTAGCGGCGCGAGAAGAAAATCCAGATTAACTTCGTGCAGTACGTCGGATTCGGATAACGACGGCGAGAAATCGCGCGCTCCGTCGCGCAGACTCGCCGTCGACGCGGCCAAAAGCGGAGGTAACAACGCCAGCCTGACCTCGACCACAACCACCAGCGCAACCGGCTGCAACGCGGCGGCCGTTACGGCCGGACCCAACGACGACGGCACGCGGTCAAACAATTTAATGGGCGCAGCTTCGTCGGCCGCCAATTCTTCGAGTTGCGCGAATAACTTCGCGACTAACGTGACGGGCGCCGCTAACAATAACGGCTGCGGCGGCGGAGGCGTGACGGTTGTGGGTGTCGTGAGGCCGCATCAAAGGAAACCACCGTCGCCGCAGATTTTCCATCATAACGGCAGAGGTCGTAACGCTggtggcggcggcggcggcggcggttTACGCGATCTATCTCCCGCCGCCAACGAAGACCGGTATACGACGTTCGTTCCGCAACGTGCGCTGCATTTAGGAGGCGGCGGTGCGGGCGTCCAGGCGTCCGAGCCGCAGTGCGACCTATCCTCTAGCCGCGCCGAAAGCggtatgattttgaaaaacgtgaACAGAGCTTTGATTACCGATCACTACCAACAGCAGGctcCGAACGCTCCCTCTAAAGCGCgccgaaaatcaaaatcgccAGCTTCGGCTTGTAACGATTCTCCGGTCAAGAAGAAAAGAGGACGCAAGCGAACTATCAAAGTGCCCGAATTATCGGACAGCGACGAAGACGCGCCAAAGACGAAAGCGGCTCCGGAAAAGAAAAGACCCGGTCGACCTCCTCTTAAACGCAACGACGCCGCAGCCGCGGCCGCGGCCGAAGATGCGGATTGGAATTCGAGTTCGAGGCGTAAAATGACGGAGAAGTTTGCGAGCTCGGCGGCCAACGTTTGGTGCGATCGCGAAAGACGTAGAAGTAGTTTACGAATGAGCAGTTTTACGACGGTGGATTCGGATAGcgagatggaaattttaaccgcGACCGTTAAGCCTACGGCTCGCGTAATGCCGGCTGTCAAGAGGAAAGAGGGAGGTGGCGGAAGCGTTCGAGTGAATCGCGATTCGAGTTGCGAATCGATAAGAAACGACGGCGATTTCAACGTCATTTCGGACGGCATCAAAAGCGTGGGTGGTGGTGGCGGCGGCGGTGGCGGCGTCCTGGCTAAATCGCAAGAAAGTCCGCCCAAATTGGACGTCGAATGCATAGCCgttcaagataaaaaaaagagcGACACTTTGAGAAAGTTATTTTCGCGTCGAGAAGAAGGCGGCGGTAAAACGGGTGGCAAAGGAAAAGGCGGCAAGGGCAAGTGCGGCGTCATAGTGATGGAATCGGAAGCCGAGCGCAAACTTTTGCAACatcGCGTTCCGGACATGACGCACGTTGCCATATCTTCGCCAAATTCGCAATCGAACGACGCGGACGACCGCCGGTATTCGGAAATTTCTCGTATTTCTTCGGCAGCGAATAGAGGTCACGCCGCTTCGGTCAAGAATGCCGACAGCAATAAtagcggcggcggcggcggcggagTCGAACTCATTCCCAAATTAACGTACAACGAAGCGGGCAGACCTTCGTTAATGTGTAAAATCGATTTGTCCAAGATTCCGTATATTTTGGCTAAGAAGCGTTCGGAAGAAATTCGAATTAAATGCGAGTTATCGGACACCAGGCAGTCGTCGACCAACCCGATGCTGGACGGCGGCGCCGTCAAAATCGTATCCGCGGCGGCGGCAGCGACATCGGCATCGGCGTCCTCCGCTAATACGGTCAACGTGCCTTTGGTCGAACCTTTATCGGATCGTCGTCGCAACAACGGTGGAAATGGCGCGTCGATGAACACGATGGCGGCGATGACTACAACGTCCGTCGGTAACGGCGGCGGTAATGCCAACGCCGCCGCCGATGTAGGTGttgcggcggcggcggcggcggccaCCGAACACGGCGACCTTTATCACGATCGTAGTAAACCGCAGCCGTCGACGCCGCATCAAAGATTAGGACCGCCGTCCGCGTCGCCGTTATCGTCGTCTTCGCGCACGCGTAAGAAGCATTCGTCCAAGAAAGCAAAAAACAGCAAACGCAAACATTACGCGAACGAACCGCGAGCGGTAGCGGTAGCGGTGTCGCCGACGCCGACGCCGCCGGCCCCCGAATCCGTATCGGTCGAAGAAGACGAACACGCTTCGATATTCGCGGCCGCTTCCACCGTCCATACGCCTTCCGTAGATACCGCGGACATGGATTCTTCGTTGTCGAGCGATTCGGAAGCGAGAAAACAGTCGGCCGCCGTCGTCGCCGTCGCAGGCCTCGCGCCGCGCTCCGGCAGTAAAAACAAGAAAAGACCGACAATGGCGACGGCGACGCTGCCGCCGCCGCCGAATAGCGCGTCGCTCGCTTCCGCAACCGCATCCGATTCCGTTCGTAACAATTTGATGACGCCGTGTTACGCTATCGGTTTGAACCACGTCCAGCGGCAGAATGTCAACGACGTCGTCGATCAGAGTTCCGCCGACGACGAATCGTGGAACAACAGTTCGGAAAGCAGTTGCGGTAGTAACTGTTCGGCGTCGTCTACCCCTCGTCACGGCGGCGACCCCGCCGGTGACAAATACTTTAAAATCGGCAAACGATCGTCGCAGTATCGAACTTGCGGCGGCAAgaagacgaagaaaaaaataagaaacgaACATTCGCAACGTCATTCCGCTTTGAGCGATTGCGGCGTGGGCGGCGCGGCGAATTTGATTCATATACCGAACGCCGCCGGTCACGAAAGAAATAGTATTTCGGATTCGGCGACAACGTTCAACGGCTATCACCAAGTCGCCATCAGCGATCTGGTTCGGCCCACGGTGCCTTCGCATCACGGTATCTATTACTCTTATTTGGAACATAAAGCGTCCGAAGAAAATAACTCCGAGTCCGACAACGTCAGCCCGAATTTATATTTGATGGAAGCTAAACGTCTGAAGCACGCCGCCGATACGGAGAGAGATTCGGTAGCGCAAGGAATGCAGTATTTGGAAGCGATTCTGTCCTTCGTACTGACCGGACACGTTTTGGAAAGGAAAAATCAAATGGACACCGCGTTCAATATGTACAGCGAAACTTTGAAGCTTATCGTGTATATCTCGAAGAAGTTTCGTACCCTGTGCACTAACGTTACGCCATCCAGCATACCGAATAAAATCGCTATTCTAAGCTTGCGATGCGAAtccattttgaacttgaagctGTATACGATGCGAGAAAATGAAGTCAGAGACGTACACAACACGGTCGCCGAATATTTCAGCAAGCCGGTTGCGGTTGAAGCGTGCTTGATATCTAACGCGGCCGGGATTCCTAGTCCGCATTCGCCAACGCCTTCGCCGGCCAGCTCTATCGGAAGTAATTCGTCCGGCTACAGTAGCGGCGATCGCGTACCGCAAGGCATCGCGGTTCCTGTACACCTTCACGTCGCCTTGCAGAAACAGcataatttttactcgaacCTGATCGCGTCTTTCAGCTACTGGGAAGAAGCGGATAAACTCATATTTTCCGGCGGAAATAAAGattttttcatagaattgGACAGGTTTTGCGGGCCGCTTACTTTGCATAGTTCTTTGAAAGATTTGGTTCATTACGTACGCGTCGGTATACAGAGATTGAAAGCCATCATAAGTCATAATCACGGAGTATAA
Protein Sequence: MCAFEQLLVASISDDVGWRNTSLQRKDVRCTRRCFTRAVVALRPITQQRNLVSNKAQTLDDRVVIMKSGNYSMKTVPDFSSKSSFERERLREREREARAQMTFEADQRLSQDVMNSAPLFGEIVRVNPKSNDKERQQIERKLGRFEDVKHLLADQDVTNLFGVDGQPPPSPAPNVSSSSSSSSSSIVSHEFKKPNACLQSHPTKSSHHHHHHHHHSSNAQRNAFAKPNDGKSTYASRGSLYGGPSSKHCNVPPTLSAKTGGNLTTNSSSYGVGGSMGSSNSCGSGNSTTTANYHYGSTSNKASSSIHDYAVRIQQSAAKNLPKINCELRDSARGSDCSDGSASVSLTNVENILDEMTSGLRTPLTAIAATPRKEVESKFTFNPISGKVESLLPLPRTSVDKAYKTNAPNNILGAGGRGTLNSSAFRGDRSDESTNVLQQFPATLLSATGGGNTVSRSGSGYAYAVPVAETTSSSAGKEKNESTTLPLRKCEAVTTSEVRNTSSSDDSDSDSGSESEDSSSDSPSPPSLPLPVVTEQEESKHRWNLKNFLPPSAHNSQNCEKLKTDDSDSSTGSGARRKSRLTSCSTSDSDNDGEKSRAPSRRLAVDAAKSGGNNASLTSTTTTSATGCNAAAVTAGPNDDGTRSNNLMGAASSAANSSSCANNFATNVTGAANNNGCGGGGVTVVGVVRPHQRKPPSPQIFHHNGRGRNAGGGGGGGGLRDLSPAANEDRYTTFVPQRALHLGGGGAGVQASEPQCDLSSSRAESGMILKNVNRALITDHYQQQAPNAPSKARRKSKSPASACNDSPVKKKRGRKRTIKVPELSDSDEDAPKTKAAPEKKRPGRPPLKRNDAAAAAAAEDADWNSSSRRKMTEKFASSAANVWCDRERRRSSLRMSSFTTVDSDSEMEILTATVKPTARVMPAVKRKEGGGGSVRVNRDSSCESIRNDGDFNVISDGIKSVGGGGGGGGGVLAKSQESPPKLDVECIAVQDKKKSDTLRKLFSRREEGGGKTGGKGKGGKGKCGVIVMESEAERKLLQHRVPDMTHVAISSPNSQSNDADDRRYSEISRISSAANRGHAASVKNADSNNSGGGGGGVELIPKLTYNEAGRPSLMCKIDLSKIPYILAKKRSEEIRIKCELSDTRQSSTNPMLDGGAVKIVSAAAAATSASASSANTVNVPLVEPLSDRRRNNGGNGASMNTMAAMTTTSVGNGGGNANAAADVGVAAAAAAATEHGDLYHDRSKPQPSTPHQRLGPPSASPLSSSSRTRKKHSSKKAKNSKRKHYANEPRAVAVAVSPTPTPPAPESVSVEEDEHASIFAAASTVHTPSVDTADMDSSLSSDSEARKQSAAVVAVAGLAPRSGSKNKKRPTMATATLPPPPNSASLASATASDSVRNNLMTPCYAIGLNHVQRQNVNDVVDQSSADDESWNNSSESSCGSNCSASSTPRHGGDPAGDKYFKIGKRSSQYRTCGGKKTKKKIRNEHSQRHSALSDCGVGGAANLIHIPNAAGHERNSISDSATTFNGYHQVAISDLVRPTVPSHHGIYYSYLEHKASEENNSESDNVSPNLYLMEAKRLKHAADTERDSVAQGMQYLEAILSFVLTGHVLERKNQMDTAFNMYSETLKLIVYISKKFRTLCTNVTPSSIPNKIAILSLRCESILNLKLYTMRENEVRDVHNTVAEYFSKPVAVEACLISNAAGIPSPHSPTPSPASSIGSNSSGYSSGDRVPQGIAVPVHLHVALQKQHNFYSNLIASFSYWEEADKLIFSGGNKDFFIELDRFCGPLTLHSSLKDLVHYVRVGIQRLKAIISHNHGV

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

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