Transcription Factor

Accessions: Q9VSC2 (JASPAR 2024)
Names: Extra-extra, Q9VSC2_DROME, RE39081p
Organisms: Drosophila melanogaster
Libraries: JASPAR 2024 1
1 Rauluseviciute I, Riudavets-Puig R, Blanc-Mathieu R, Castro-Mondragon JA, Ferenc K, Kumar V, Lemma RB, Lucas J, Cheneby J, Baranasic D, Khan A, Fornes O, Gundersen S, Johansen M, Hovig E, Lenhard B, Sandelin A, Wasserman WW, Parcy F, Mathelier A. JASPAR 2024: 20th anniversary of the open-access database of transcription factor binding profiles. Nucleic Acids Res : (2023). [Pubmed]
Uniprot: Q9VSC2
Length: 525
Pfam Domains: 440-496 Homeobox domain
Sequence:
(in bold interface residues)
1 MSSAQVSQQPPPPPLTASSSTSMPSQLLLSHIQHHSSSLHHQRSHQRSSPPAQDYDQGSN 60
61 QSTLSPRSQITPSPPAASPTHSAATTGSPVSTYTPALSPGGAQDSSQTESGQSSQMPLLV 120
121 APMPVGTGPPHSHPPPPHPRLYVEGFPPPHHVPHPHPALGTYPLPRLPLMLPANPPGVPS 180
181 GAAAPPPVSPQPAANHLSHSGATMATTTLLPPAQSQPKKSFCIDALLAKSQHQSGEPQPI 240
241 IVDDRLAALHYARDQAELNHAFVTASNAAAAAQAAASAAGGISEQEALQRIRDSREYDSP 300
301 SPDGMSRSESPTSSHRSSPPISPGCEDQQQPHGALHPQHLSMRMSDFHDEFKKPIPPHSP 360
361 IRPQDFPLYAGGHPYQLLAQGGSAFHRPLDPSGKPIPIPMGHNFMPSQLQFEFLARAGML 420
421 HHRIPELAAYPHHAILGKTRRPRTAFTSQQLLELEKQFKQNKYLSRPKRFEVASGLMLSE 480
481 TQVKIWFQNRRMKWKRSKKAQQEAKERAKANQQQQQQQQTPSAAS
Interface Residues: 440, 441, 442, 443, 444, 481, 482, 484, 485, 488, 489, 492, 493, 496, 499
3D-footprint Homologues: 1fjl_B, 5zjt_E, 2h1k_B, 1puf_A, 1ig7_A, 6a8r_A, 3cmy_A, 3d1n_M, 5zfz_A, 3lnq_A, 2lkx_A, 1jgg_B, 1nk2_P, 1zq3_P, 6m3d_C, 2ld5_A, 3l1p_A, 4j19_B, 3a01_E, 7psx_B, 1b72_A, 5hod_A, 2hdd_A, 7q3o_C, 5jlw_D, 3rkq_B, 2r5y_A, 1puf_B, 6es3_K, 4xrs_G, 2hos_A, 4cyc_A, 1au7_A, 5flv_I, 1mnm_C, 1le8_A, 7xrc_C, 1e3o_C, 2xsd_C, 1o4x_A, 8g87_X, 4qtr_D, 1du0_A, 1k61_B
Binding Motifs: MA0224.1 bTAATTA
Binding Sites: MA0224.1.5
MA0224.1.11 / MA0224.1.20
MA0224.1.7
MA0224.1.2
MA0224.1.1
MA0224.1.6
MA0224.1.10
MA0224.1.12 / MA0224.1.4
MA0224.1.13
MA0224.1.14
MA0224.1.15
MA0224.1.16
MA0224.1.17
MA0224.1.18
MA0224.1.19
MA0224.1.3
MA0224.1.8
MA0224.1.9
Publications: Noyes M.B, Christensen R.G, Wakabayashi A, Stormo G.D, Brodsky M.H, Wolfe S.A. Analysis of homeodomain specificities allows the family-wide prediction of preferred recognition sites. Cell 133:1277-89 (2008). [Pubmed]
Related annotations: PaperBLAST

Disclaimer and license

These data are available AS IS and at your own risk. The EEAD/CSIC do not give any representation or warranty nor assume any liability or responsibility for the data nor the results posted (whether as to their accuracy, completeness, quality or otherwise). Access to these data is available free of charge for ordinary use in the course of research. Downloaded data have CC-BY-NC-SA license. FootprintDB is also available at RSAT::Plants, part of the INB/ELIXIR-ES resources portfolio.