Robert D. Roorda scite author profile

Three classes of neurons form synapses in the antennal lobe of Drosophila, the insect counterpart of the vertebrate olfactory bulb: olfactory receptor neurons, projection neurons, and inhibitory local interneurons. We have targeted a genetically encoded optical reporter of synaptic transmission to each of these classes of neurons and visualized population responses to natural odors. The activation of an odor-specific ensemble of olfactory receptor neurons leads to the activation of a symmetric ensemble of projection neurons across the glomerular synaptic relay. Virtually all excited glomeruli receive inhibitory input from local interneurons. The extent, odor specificity, and partly interglomerular origin of this input suggest that inhibitory circuits assemble combinatorially during odor presentations. These circuits may serve as dynamic templates that extract higher order features from afferent activity patterns.

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Writing Memories with Light-Addressable Reinforcement Circuitry

Claridge‐Chang

Roorda

Vrontou

et al. 2009

Cell

455

361

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Dopaminergic neurons are thought to drive learning by signaling changes in the expectations of salient events, such as rewards or punishments. Olfactory conditioning in Drosophila requires direct dopamine action on intrinsic mushroom body neurons, the likely storage sites of olfactory memories. Neither the cellular sources of the conditioning dopamine nor its precise postsynaptic targets are known. By optically controlling genetically circumscribed subsets of dopaminergic neurons in the behaving fly, we have mapped the origin of aversive reinforcement signals to the PPL1 cluster of 12 dopaminergic cells. PPL1 projections target restricted domains in the vertical lobes and heel of the mushroom body. Artificially evoked activity in a small number of identifiable cells thus suffices for programming behaviorally meaningful memories. The delineation of core reinforcement circuitry is an essential first step in dissecting the neural mechanisms that compute and represent valuations, store associations, and guide actions.

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Writing Memories with Light-Addressable Reinforcement Circuitry

Claridge‐Chang¹,

Roorda²,

Vrontou³

et al. 2009

Cell

170

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In the above article, Figure 2A is stated to summarize data from Figures 1A and 1B; however, we inadvertently displayed a plot of a different data set that was collected with a similar but slightly different experimental design. The data in Figures 1A and 1B are from an experiment in which one group of flies underwent mock conditioning and an independent group was conditioned with electric shock, whereas the data in Figure 2A were from an experiment in which the same population of flies sequentially underwent mock conditioning and actual conditioning.We provide here a corrected graph for Figure 2A plotting the data from Figure 1. The new plot does not affect the description of the results in the paper or the conclusions drawn. We apologize for any inconvenience caused by this error.

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Multiphoton Imaging Can Be Used for Microscopic Examination of Intact Human Gastrointestinal Mucosa Ex Vivo

Rogart

Nagata

Loeser

et al. 2008

Clinical Gastroenterology and Hepatology

111

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Video-Rate Nonlinear Microscopy of Neuronal Membrane Dynamics With Genetically Encoded Probes

Roorda

Hohl²,

Toledo-Crow³

et al. 2004

Journal of Neurophysiology

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Biological membranes decorated with suitable contrast agents give rise to nonlinear optical signals such as two-photon fluorescence and harmonic up-conversion when illuminated with ultra-short, high-intensity pulses of infrared laser light. Microscopic images based on these nonlinear contrasts were acquired at video or higher frame rates by scanning a focused illuminating spot rapidly across neural tissues. The scan engine relied on an acousto-optic deflector (AOD) to produce a fast horizontal raster and on corrective prisms to offset the AOD-induced dispersion of the ultra-short excitation light pulses in space and time. Two membrane-bound derivatives of the green fluorescent protein (GFP) were tested as nonlinear contrast agents. Synapto-pHluorin, a pH-sensitive GFP variant fused to a synaptic vesicle membrane protein, provided a time-resolved fluorescent read-out of neurotransmitter release at genetically specified synaptic terminals in the intact brain. Arrays of dually lipidated GFP molecules at the plasma membrane generated intense two-photon fluorescence but no detectable second-harmonic power. Comparison with second-harmonic generation by membranes stained with a synthetic styryl dye suggested that the genetically encoded chromophore arrangement lacked the orientational anisotropy and/or dipole density required for efficient coherent scattering of the incident optical field.

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Robert D. Roorda

Transmission of Olfactory Information between Three Populations of Neurons in the Antennal Lobe of the Fly

Writing Memories with Light-Addressable Reinforcement Circuitry

Writing Memories with Light-Addressable Reinforcement Circuitry

Multiphoton Imaging Can Be Used for Microscopic Examination of Intact Human Gastrointestinal Mucosa Ex Vivo

Video-Rate Nonlinear Microscopy of Neuronal Membrane Dynamics With Genetically Encoded Probes

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