Estelle Guitard scite author profile

The G3BP (ras-GTPase-Activating Protein SH3-Domain-Binding Protein) family of proteins has been implicated in both signal transduction and RNA-metabolism. We have previously identified human G3BP-1, G3BP-2, and mouse G3BP-2. Here, we report the cloning of mouse G3BP-1, the discovery of two alternatively spliced isoforms of mouse, and human G3BP-2 (G3BP-2a and G3BP-2b), and the chromosomal localisation of human G3BP-1 and G3BP-2, which map to 5q14.2-5q33.3 and 4q12-4q24 respectively. We mapped the rasGAP(120) interactive region of the G3BP-2 isoforms and show that both G3BP-2a and G3BP-2b use an N-terminal NTF2-like domain for rasGAP(120) binding rather than several available proline-rich (PxxP) motifs found in members of the G3BPs. Furthermore, we have characterized the protein expression of both G3BP-1 and G3BP-2a/b in adult mouse tissues, and show them to be both tissue and isoform specific.

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A Role for Sam68 in Cell Cycle Progression Antagonized by a Spliced Variant within the KH Domain

Barlat¹,

Maurier²,

Duchesne³

et al. 1997

Journal of Biological Chemistry

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Sam68 is the main tyrosine-phosphorylated and Srcassociated protein in mitotic cells. Sam68 exhibits a conserved functional KH (hnRNPK homology) RNA binding domain and binds single strand nucleic acids. Tyrosine phosphorylation mediates the interaction of Sam68 with many SH3-and SH2-containing proteins and negatively regulates its nucleic acid binding properties. But the function and the impact of Sam68 on cell signaling and cell proliferation remains elusive. We report here the identification of a natural isoform of Sam68 with a deletion within the KH domain. This isoform, called Sam68⌬KH, is specifically expressed at growth arrest upon confluency in normal cells. In cells that do not enter quiescence at confluency such as Src-transformed cells, no recruitment of Sam68⌬KH is observed. Transfected Sam68⌬KH inhibits serum-induced DNA synthesis and cyclin D1 expression. Sam68 overcomes these effects, suggesting that isoforms of Sam68 are involved, through KH domain signaling, in cell proliferation, and more precisely in G 1 /S transition.

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G3BP is overexpressed in human tumors and promotes S phase entry.

Guitard

Parker²,

Millon³

et al. 2001

Cancer Letters

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Sam68 Is a Ras-GAP-Associated Protein in Mitosis

Guitard¹,

Barlat²,

Maurier³

et al. 1998

Biochemical and Biophysical Research Communications

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Erratum to “G3BP is overexpressed in human tumors and promotes S phase entry” [Cancer Letters 162 (2001) 213–221]

Guitard

Parker²,

Millon³

et al. 2001

Cancer Letters

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Estelle Guitard

Characterization of G3BPs: Tissue specific expression, chromosomal localisation and rasGAP¹²⁰ binding studies

A Role for Sam68 in Cell Cycle Progression Antagonized by a Spliced Variant within the KH Domain

G3BP is overexpressed in human tumors and promotes S phase entry.

Sam68 Is a Ras-GAP-Associated Protein in Mitosis

Erratum to “G3BP is overexpressed in human tumors and promotes S phase entry” [Cancer Letters 162 (2001) 213–221]

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Estelle Guitard

Characterization of G3BPs: Tissue specific expression, chromosomal localisation and rasGAP120 binding studies

A Role for Sam68 in Cell Cycle Progression Antagonized by a Spliced Variant within the KH Domain

G3BP is overexpressed in human tumors and promotes S phase entry.

Sam68 Is a Ras-GAP-Associated Protein in Mitosis

Erratum to “G3BP is overexpressed in human tumors and promotes S phase entry” [Cancer Letters 162 (2001) 213–221]

Contact Info

Product

Resources

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Characterization of G3BPs: Tissue specific expression, chromosomal localisation and rasGAP¹²⁰ binding studies