• Anderson W. W. and Collingridge G. L. (2007) Capabilities of the WinLTP data acquisition program extending beyond basic LTP experimental functions. J. Neurosci. Methods 162, 346356.
  • Anderson P. and Kedersha N. (2008) Stress granules: the Tao of RNA triage. Trends Biochem. Sci. 33, 141150.
  • Blackshaw S., Eliasson M. J. L., Sawa A., Watkins C. C., Krug D., Gupta A., Arai T., Ferrante R. J. and Snyder S. H. (2003) Species, strain and developmental variations in hippocampal neuronal and endothelial nitric oxide synthase clarify discrepancies in nitric oxide-dependent synaptic plasticity. Neuroscience 119, 979990.
  • Castellani R. J., Gupta Y., Sheng B. et al. (2011) A novel origin for granulovacuolar degeneration in aging and Alzheimer's disease: parallels to stress granules. Lab. Invest. 91, 17771786.
  • Chen Y., Stevens B., Chang J., Milbrandt J., Barres B. A. and Hell J. W. (2008) xml: re-defined and modified supplement B27 for neuronal cultures. J. Neurosci. Methods 171, 239247.
  • Cheron G., Servais L. and Dan B. (2008) Cerebellar network plasticity: from genes to fast oscillation. Neuroscience 153, 119.
  • Collingridge G. L., Peineau S., Howland J. G. and Wang Y. T. (2010) Long-term depression in the CNS. Nat. Rev. Neurosci. 11, 459473.
  • Dotti C. G., Sullivan C. A. and Banker G. A. (1988) The establishment of polarity by hippocampal neurons in culture. J. Neurosci. 8, 14541468.
  • Grynkiewicz G., Poenie M. and Tsien R. Y. (1985) A new generation of Ca2 +  indicators with greatly improved fluorescence properties. J. Biol. Chem. 260, 34403450.
  • Hajieva P., Kuhlmann C., Luhmann H. J. and Behl C. (2009) Impaired calcium homeostasis in aged hippocampal neurons. Neurosci. Lett. 451, 119123.
  • Joseph S. K., Brownell S. and Khan M. T. (2005) Calcium regulation of inositol 1,4,5-trisphosphate receptors. Cell Calcium 38, 539546.
  • Lamont M. G. and Weber J. T. (2012) The role of calcium in synaptic plasticity and motor learning in the cerebellar cortex. Neurosci. Biobehav. Rev. 36, 11531162.
  • Lüscher C. and Huber K. M. (2010) Group 1 mGluR-dependent synaptic long-term depression: mechanisms and implications for circuitry and disease. Neuron 65, 445459.
  • Maurice T., Duclot F., Meunier J. et al. (2008) Altered memory capacities and response to stress in p300/CBP-associated factor (PCAF) histone acetylase knockout mice. Neuropsychopharmacology 33, 15841602.
  • Mazroui R., Sukarieh R., Bordeleau M.-E., Kaufman R. J., Northcote P., Tanaka J., Gallouzi I. and Pelletier J. (2006) Inhibition of ribosome recruitment induces stress granule formation independently of eukaryotic initiation factor 2alpha phosphorylation. Mol. Biol. Cell 17, 42124219.
  • Nguyen P. V., Duffy S. N. and Young J. Z. (2000) Differential maintenance and frequency-dependent tuning of LTP at hippocampal synapses of specific strains of inbred mice. J. Neurophysiol. 84, 24842493.
  • Rinaldo L. and Hansel C. (2010) Ataxias and cerebellar dysfunction: involvement of synaptic plasticity deficits? Funct. Neurol 25, 135139.
  • Soncini C., Berdo I. and Draetta G. (2001) Ras-GAP SH3 domain binding protein (G3BP) is a modulator of USP10, a novel human ubiquitin specific protease. Oncogene 20, 38693879.
  • Tourrière H., Chebli K., Zekri L., Courselaud B., Blanchard J. M., Bertrand E. and Tazi J. (2003) The RasGAP-associated endoribonuclease G3BP assembles stress granules. J. Cell Biol. 160, 823831.
  • Vanderweyde T., Yu H., Varnum M., Liu-Yesucevitz L., Citro A., Ikezu T., Duff K. and Wolozin B. (2012) Contrasting Pathology of the Stress Granule Proteins TIA-1 and G3BP in Tauopathies. J. Neurosci. 32, 82708283.
  • Zekri L., Chebli K., Tourrière H., Nielsen F. C., Hansen T. V. O., Rami A. and Tazi J. (2005) Control of fetal growth and neonatal survival by the RasGAP-associated endoribonuclease G3BP. Mol. Cell. Biol. 25, 87038716.