Dr Ingo Greger
Dr Ingo Greger is pleased to consider applications from prospective PhD students.
Information transfer in the brain occurs at synapses where chemical transmitters are released from presynaptic terminals and are received by postsynaptic receptors. Glutamate is a major neurotransmitter and glutamate receptors are key to synaptic transmission and plasticity. Our research focuses on these receptors, in particular on the AMPA-type (AMPAR).
AMPARs are the first to respond to glutamate and initiate synaptic signaling by depolarizing the postsynaptic membrane. AMPARs are unique as their rapid kinetics permit faithful decoding of high-frequency nerve impulses. Moreover, AMPAR are mobile and their trafficking is a major determinant of synaptic plasticity.
Our ultimate aim is to understand how regulation of these receptors underlies learning and information storage at synapses. Towards this goal we are utilizing a variety of experimental approaches at different levels of complexity, ranging from the atomic structure of the receptor to its operation in neural networks.
cryo electron microscopy (cryo-EM)
Electrophysiological recording techniques
Field potential recording
Whole cell patch clamp
Associated News Items
Herguedas B, Garcia-Nafria J, Cais O, Fernandez-Leiro R, Krieger J, Ho Ho, Greger IH. (2016), “Structure and organization of heteromeric AMPA-type glutamate receptors” Science doi: 10.1126/Science.aad3873
Greger IH, Watson JF, Cull-Candy S (2017), “Structural and functional architecture of AMPA-type glutamate receptors and their auxiliary proteins” Neuron 94:713-730
Watson JF, Ho H, Greger IH (2017), “Synaptic transmission and plasticity require AMPA receptor anchoring via its N-terminal domain” eLife
Dutta A, Krieger J, Lee JY, Garcia-Nafria J, Greger IH, Bahar I (2015), “Cooperative Dynamics of Intact AMPA and NMDA Glutamate Receptors: Similarities and Subfamily-Specific Differences” Structure
Garcia-Nafria J, Hergueda B, Watson J, Greger IH (in press), “Structural dynamics of synaptic AMPA receptors” J. Physiol.
Krieger J, Bahar I, Greger IH (2015), “Structure, Dynamics, and Allosteric Potential of Ionotropic Glutamate Receptor N-Terminal Domains” Biophys. J
Cais O, Herguedas B, Krol K, Cull-Candy SG, Farrant M, Greger IH (2014), “Mapping the interaction sites between AMPA receptors and TARPs reveals a role for the receptor N-terminal domain in channel gating” Cell Reports 9, 728-40. PDF
Shanks NF, Cais O, Maruo T, Savas JN, Zaika EI, Azumaya CM, Yates JR 3rd, Greger I, Nakagawa T (2014), “Molecular dissection of the interaction between the AMPA receptor and cornichon homolog-3.” J Neurosci 34(36):12104-20 Details
Balik A, Penn AC, Nemoda Z, Greger IH (2013), “Activity-regulated RNA editing in select neuronal subfields in hippocampus.” Nucleic Acids Res 41(2):1124-34 Details
Penn AC, Balik A, Greger IH (2013), “Reciprocal regulation of A-to-I RNA editing and the vertebrate nervous system.” Front Neurosci 7:61 Details
Penn AC, Balik A, Greger IH (2013), “Steric antisense inhibition of AMPA receptor Q/R editing reveals tight coupling to intronic editing sites and splicing.” Nucleic Acids Res 41(2):1113-23 Details
Dutta A, Shrivastava IH, Sukumaran M, Greger IH, Bahar I (2012), “Comparative dynamics of NMDA- and AMPA-glutamate receptor N-terminal domains.” Structure 20(11):1838-49 Details
Penn AC, Balik A, Wozny C, Cais O, Greger IH (2012), “Activity-mediated AMPA receptor remodeling, driven by alternative splicing in the ligand-binding domain.” Neuron 76(3):503-10 Details
Shanks NF, Savas JN, Maruo T, Cais O, Hirao A, Oe S, Ghosh A, Noda Y, Greger IH, Yates JR 3rd, Nakagawa T (2012), “Differences in AMPA and kainate receptor interactomes facilitate identification of AMPA receptor auxiliary subunit GSG1L.” Cell Rep 1(6):590-8 Details
Jensen MH, Sukumaran M, Johnson CM, Greger IH, Neuweiler H (2011), “Intrinsic motions in the N-terminal domain of an ionotropic glutamate receptor detected by fluorescence correlation spectroscopy.” J Mol Biol 414(1):96-105 Details
Rossmann M, Sukumaran M, Penn AC, Veprintsev DB, Babu MM, Greger IH (2011), “Subunit-selective N-terminal domain associations organize the formation of AMPA receptor heteromers.” EMBO J 30(5):959-71 Details
Sukumaran M, Rossmann M, Shrivastava I, Dutta A, Bahar I, Greger IH (2011), “Dynamics and allosteric potential of the AMPA receptor N-terminal domain.” EMBO J 30(5):972-82 Details
Penn AC, Williams SR, Greger IH (2008), “Gating motions underlie AMPA receptor secretion from the endoplasmic reticulum.” EMBO J 27(22):3056-68 Details
Greger IH, Esteban JA (2007), “AMPA receptor biogenesis and trafficking.” Curr Opin Neurobiol 17(3):289-97 Details
Greger IH, Akamine P, Khatri L, Ziff EB (2006), “Developmentally regulated, combinatorial RNA processing modulates AMPA receptor biogenesis.” Neuron 51(1):85-97 Details
Greger IH, Khatri L, Kong X, Ziff EB (2003), “AMPA receptor tetramerization is mediated by Q/R editing” Neuron 40:763-774
Greger IH, Khatri L, Kong X, Ziff EB (2003), “AMPA receptor tetramerization is mediated by Q/R editing.” Neuron 40(4):763-74 Details
Greger IH, Khatri L, Ziff EB (2002), “RNA editing at Arg607 controls AMPA receptor exit from the endoplasmic reticulum” Neuron 34:759-772