Citations for
1G3BP1, G3BP2
Both G3BP1 and G3BP2 contribute to stress granule formation.
Matsuki H, Takahashi M, Higuchi M, Makokha GN, Oie M, Fujii M.
Genes Cells enes Cells. 2012 Dec 26. doi: 10.1111/gtc.12023. [Epub ahead of print] 2012
2G3BP2, PRKCA
PKCα binds G3BP2 and regulates stress granule formation following cellular stress.
Kobayashi T, Winslow S, Sunesson L, Hellman U, Larsson C.
PLoS One 7(4):e35820. doi: 10.1371/journal.pone.0035820. Epub 2012 Apr 20. 2012
3G3BP2, PRKCA
PKC binds G3BP2 and regulates stress granule formation following cellular stress.
Kobayashi T, Winslow S, Sunesson L, Hellman U, Larsson C.
PLoS One 7(4):e35820. doi: 10.1371/journal.pone.0035820. Epub 2012 Apr 20. 2012
4G3BP2
Wnt3a-stimulated LRP6 phosphorylation is dependent upon arginine methylation of G3BP2.
Bikkavilli RK, Malbon CC.
J Cell Sci 125(Pt 10):2446-56. doi: 10.1242/jcs.100933. Epub 2012 Feb 22. 2012
5G3BP1, G3BP2
Modulation of p53 and MDM2 activity by novel interaction with Ras-GAP binding proteins (G3BP).
Kim MM, Wiederschain D, Kennedy D, Hansen E, Yuan ZM.
Oncogene 26(29):4209-15. Epub 2007 Feb 5. 2007
6G3BP1, G3BP2
The expression of Ras-GTPase activating protein SH3 domain-binding proteins, G3BPs, in human breast cancers.
French J, Stirling R, Walsh M, Kennedy HD.
Histochem J 34(5):223-31. 2002
7G3BP1,G3BP2
Human DNA helicase VIII: a DNA and RNA helicase corresponding to the G3BP protein, an element of the ras transduction pathway.
Costa M, et al.
Nucleic Acids Res 27(3):817-21. 1999
8AATK, ACIN1, ACOT11, ACSBG1, ADAMTS4, ADGRV1, AKAP11, ANKLE2, ARHGAP26, ARHGEF2, ASTN2, ATP2C2, ATP9A, BICD2, BZRAP1, C12orf51, CAND2, CEP135, CLASP1, CLASP2, CLUAP1, CLUH, CNOT3, COBL, CPNE3, CRTC1, CRY2, CSTF2T, CUL3, CUL4B, DAAM1, DAGLA, DEPDC5, DNAJC13, DOCK10, DZIP3, FBXW11, FKBP15, G3BP2, HEPH, HIP1R, HIPK1, ICOSLG, KIAA0649, KIAA0652, KIF13B, KIF1C, KIF21A, L3MBTL1, LDB3, MAGI2, MAP4K4, MFAP3L, MGEA5, MRC2, MTMR4, N4BP1, NPHP4, OBSL1, PAN2, PHACTR2, PHF2, PHLDB1, PLXND1, PPFIA3, PTCD1, RAB11FIP3, RBM19, RICH2, RNF40, RNF8, ROCK2, RRP12, SAPS2, SETX, SIN3B, SLC24A1, SMCHD1, SNAP91, SOCS5, SS18L1, SWAP70, TBC1D9B, TELO2, TNRC15, TSC22D2, UBE4B, UHRF1BP1L, ULK2, ZBED4, ZC3H11A, ZNF623
Prediction of the coding sequences of unidentified human genes. X. The complete sequences of 100 new cDNA clones from brain which can code for large proteins in vitro.
Ishikawa K, Nagase T, Suyama M, Miyajima N, Tanaka A, Kotani H, Nomura N,Ohara O.
DNA Res 5(3):169-76. 1998
9G3BP1,G3BP2
Identification of a mouse orthologue of the human ras-GAP-SH3-domain binding protein and structural confirmation that these proteins contain an RNA recognition motif.
Kennedy D, Wood SA, Ramsdale T, Tam PP, Steiner KA, Mattick JS.
Biomed Pept Proteins Nucleic Acids 2(3):93-9. 1996