Allosteric control of an ionotropic glutamate receptor with an optical switch
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E. Isacoff | R. Kramer | D. Trauner | M. Volgraf | P. Gorostiza | R. Numano
[1] H. Lester,et al. A covalently bound photoisomerizable agonist. Comparison with reversibly bound agonists at electrophorus electroplaques , 1980, The Journal of general physiology.
[2] R. Tsien,et al. A new generation of Ca2+ indicators with greatly improved fluorescence properties. , 1985, The Journal of biological chemistry.
[3] M. Alexander,et al. Principles of Neural Science , 1981 .
[4] J. Das,et al. 7-Oxabicyclo[2.2.1]heptyl carboxylic acids as thromboxane A2 antagonists: aza omega-chain analogues. , 1990, Journal of medicinal chemistry.
[5] M. Mayer,et al. Selective modulation of desensitization at AMPA versus kainate receptors by cyclothiazide and concanavalin A , 1993, Neuron.
[6] B. Sakmann,et al. Determinants of ca2+ permeability in both TM1 and TM2 of high affinity kainate receptor channels: Diversity by RNA editing , 1993, Neuron.
[7] Stereoselective Reactions of Lithium Enolates Derived from N-BOC Protected Pyroglutamic Esters. , 1994 .
[8] J. E. Huettner,et al. Activation and Desensitization of Hippocampal Kainate Receptors , 1997, The Journal of Neuroscience.
[9] M. Lewis,et al. Lac repressor-operator complex. , 1997, Current opinion in structural biology.
[10] Y. Paas. The macro- and microarchitectures of the ligand-binding domain of glutamate receptors , 1998, Trends in Neurosciences.
[11] R. Dingledine,et al. The glutamate receptor ion channels. , 1999, Pharmacological reviews.
[12] E. Gouaux,et al. Mechanisms for Activation and Antagonism of an AMPA-Sensitive Glutamate Receptor Crystal Structures of the GluR2 Ligand Binding Core , 2000, Neuron.
[13] B. Ballyk,et al. 4-Alkyl- and 4-cinnamylglutamic acid analogues are potent GluR5 kainate receptor agonists. , 2000, Journal of medicinal chemistry.
[14] S. Nakanishi,et al. Structural basis of glutamate recognition by a dimeric metabotropic glutamate receptor , 2000, Nature.
[15] I. Willner,et al. Molecular and biomolecular optoelectronics , 2001 .
[16] B. Bassler,et al. Structural identification of a bacterial quorum-sensing signal containing boron , 2002, Nature.
[17] J. Greenwood,et al. Stereostructure-activity studies on agonists at the AMPA and kainate subtypes of ionotropic glutamate receptors. , 2003, Chirality.
[18] L. Prézeau,et al. Evolution, structure, and activation mechanism of family 3/C G-protein-coupled receptors. , 2003, Pharmacology & therapeutics.
[19] M. Mayer,et al. Structural basis for partial agonist action at ionotropic glutamate receptors , 2003, Nature Neuroscience.
[20] Vincenzo Balzani,et al. Molecular Devices and Machines– A Journey into the Nano World , 2003 .
[21] Eric Gouaux,et al. Mechanisms of activation, inhibition and specificity: crystal structures of the NMDA receptor NR1 ligand‐binding core , 2003, The EMBO journal.
[22] S. Traynelis,et al. Glutamate receptor gating. , 2004, Critical reviews in neurobiology.
[23] P. Song,et al. CRC handbook of organic photochemistry and photobiology , 2004 .
[24] H. Hellinga,et al. Periplasmic binding proteins: a versatile superfamily for protein engineering. , 2004, Current opinion in structural biology.
[25] H. Bayley,et al. Functional engineered channels and pores (Review) , 2004, Molecular membrane biology.
[26] T. R. Kelly. Molecular Devices and Machines: A Journey into the Nanoworld By Vincenzo Balzani, Margherita Venturi, and Alberto Credi (Universita di Bologna). Wiley-VCH Verlag GmbH & Co. KGaA: Weinheim, Germany. 2003. xviii + 494 pp. $75.00. ISBN: 3-527-30506-8. , 2004 .
[27] E. Isacoff,et al. Light-activated ion channels for remote control of neuronal firing , 2004, Nature Neuroscience.
[28] M. Mayer,et al. Crystal Structures of the GluR5 and GluR6 Ligand Binding Cores: Molecular Mechanisms Underlying Kainate Receptor Selectivity , 2005, Neuron.
[29] S. Heinemann,et al. Structure of the kainate receptor subunit GluR6 agonist-binding domain complexed with domoic acid. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[30] Xenophon E. Verykios,et al. A Light-Actuated Nanovalve Derived from a Channel Protein , 2005 .
[31] Maurice Goeldner,et al. Dynamic studies in biology : phototriggers, photoswitches and caged biomolecules , 2005 .