Biology Reference
In-Depth Information
[49] Reynolds, T., Hartell, N. (2000). An Evaluation Of The Synapse Specificity Of Long-
Term Depression Induced In Rat Cerebellar Slices.
J Physiol
, 527 Pt 3, 563-577.
[50] Wang, S., Khiroug, L., Augustine, G. (2000). Quantification Of Spread Of Cerebellar
Long-Term Depression With Chemical Two-Photon Uncaging Of Glutamate.
Proc Natl
Acad Sci
, USA, 97, 8635-8640.
[51] Hartell, N. (1996). Strong Activation Of Parallel Fibers Produces Localized Calcium
Transients And A Form Of Ltd That Spreads To Distant Synapses.
Neuron
, 16, 601-
610.
[52] Ogasawara, H., Doi, T., Doya, K., Kawato, M. (2007). Nitric Oxide Regulates Input
Specificity Of Long-Term Depression And Context Dependence Of Cerebellar
Learning.
Plos Comput Biol
, 3, E179.
[53] Araki, K., Meguro, H., Kushiya, E., Takayama, C., Inoue, Y., Mishina, M. (1993).
Selective Expression Of The Glutamate Receptor Channel Δ2 Subunit In Cerebellar
Purkinje Cells.
Biochem Biophys Res Commun
, 197, 1267-1276.
[54] Lomeli, H., Sprengel, R., Laurie, D., Köhr, G., Herb, A., Seeburg, P. Et Al. (1993). The
Rat Δ1 And Δ2 Subunits Extend The Excitatory Amino Acid Receptor Family.
Febs
Lett
, 315, 318-322.
[55] Kashiwabuchi, N., Ikeda, K., Araki, K., Hirano, T., Shibuki, K., Takayama, C. Et Al.
(1995). Impairment Of Motor Coordination, Purkinje Cell Synapse Formation, And
Cerebellar Long-Term Depression In Glur Δ2 Mutant Mice.
Cell
, 81, 245-252.
[56] Takayama, C., Nakagawa, S., Watanabe, M., Mishina, M., Inoue, Y. (1995). Light- And
Electron-Microscopic Localization Of The Glutamate Receptor Channel Δ2 Subunit In
The Mouse Purkinje Cell.
Neurosci Lett
, 188, 89-92.
[57] Hashimoto, K., Ichikawa, R., Takechi, H., Inoue, Y., Aiba, A., Sakimura, K. Et Al.
(2001). Roles Of Glutamate Receptor Δ2 Subunit (Glurδ2) And Metabotropic
Glutamate Receptor Subtype 1 (Mglur1) In Climbing Fiber Synapse Elimination
During Postnatal Cerebellar Development.
J Neurosci
, 21, 9701-9712.
[58] Kishimoto, Y., Kawahara, S., Suzuki, M., Mori, H., Mishina, M., Kirino, Y. (2001).
Classical Eyeblink Conditioning In Glutamate Receptor Subunit Δ2 Mutant Mice Is
Impaired In The Delay Paradigm But Not In The Trace Paradigm.
Eur J Neurosci
, 13,
1249-1253.
[59] Yoshida, T., Katoh, A., Ohtsuki, G., Mishina, M., Hirano, T. (2004). Oscillating
Purkinje Neuron Activity Causing Involuntary Eye Movement In A Mutant Mouse
Deficient In The Glutamate Receptor Δ2 Subunit.
J Neurosci
, 24, 2440-2448.
[60] Katoh, A., Yoshida, T., Himeshima, Y., Mishina, M., Hirano, T. (2005). Defective
Control And Adaptation Of Reflex Eye Movements In Mutant Mice Deficient In Either
The Glutamate Receptor Δ2 Subunit Or Purkinje Cells.
Eur J Neurosci
, 21, 1315-1326.
[61] Yuzaki, M. (2003). New Insights Into The Structure And Function Of Glutamate
Receptors: The Orphan Receptor Δ2 Reveals Its Family's Secrets.
Keio J Med
, 52, 92-
99.
[62] Naur, P., Hansen, K., Kristensen, A., Dravid, S., Pickering, D., Olsen, L. Et Al. (2007).
Ionotropic Glutamate-Like Receptor Δ2 Binds D-Serine And Glycine.
Proc Natl Acad
Sci
, USA, 104, 14116-14121.
[63] Yawata, S., Tsuchida, H., Kengaku, M., Hirano, T. (2006). Membrane-Proximal Region
Of Glutamate Receptor Δ2 Subunit Is Critical For Long-Term Depression And
Interaction With Protein Interacting With C Kinase 1 In A Cerebellar Purkinje Neuron.
J Neurosci,
26, 3626-3633.
[64] Kohda, K., Kakegawa, W., Matsuda, S., Nakagami, R., Kakiya, N., Yuzaki, M. (2007).
The Extreme C-Terminus Of Glurδ2 Is Essential For Induction Of Long-Term
Depression In Cerebellar Slices.
Eur J Neurosci,
25, 1357-1362.
