Publications
PDFs
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A muscle-epidermis-glia signaling axis sustains synaptic specificity during allometric growth in Caenorhabditis elegans.
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The Journey of the Synaptic Autophagosome: A Cell Biological Perspective.
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A specific ATG-4 isoform is required for autophagic maturation and clearance in C. elegans neurons.
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Transforming the development and dissemination of cutting-edge microscopy and computation.
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Isotropic Light-Sheet Microscopy and Automated Cell Lineage Analyses to Catalogue Caenorhabditis elegans Embryogenesis with Subcellular Resolution.
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Maturation and Clearance of Autophagosomes in Neurons Depends on a Specific Cysteine Protease Isoform, ATG-4.2.
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ASICs Mediate Food Responses in an Enteric Serotonergic Neuron that Controls Foraging Behaviors.
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Statements of Mentorship.
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Integration of Plasticity Mechanisms within a Single Sensory Neuron of C. elegans Actuates a Memory.
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Clarinet (CLA-1), a novel active zone protein required for synaptic vesicle clustering and release.
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Visualizing Calcium Flux in Freely Moving Nematode Embryos.
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The need to connect on the cell biology of synapses, behaviors, and networks in science.
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Using Stage- and Slit-Scanning to Improve Contrast and Optical Sectioning in Dual-View Inverted Light Sheet Microscopy (diSPIM).
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KIF1A/UNC-104 Transports ATG-9 to Regulate Neurodevelopment and Autophagy at Synapses.
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Glycolytic Enzymes Localize to Synapses under Energy Stress to Support Synaptic Function.
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Untwisting the Caenorhabditis elegans embryo.
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WormGUIDES: an interactive single cell developmental atlas and tool for collaborative multidimensional data exploration.
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An imaging and analysis toolset for the study of Caenorhabditis elegans neurodevelopment.
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Dual-view plane illumination microscopy for rapid and spatially isotropic imaging.
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Dynamic Encoding of Perception, Memory, and Movement in a C. elegans Chemotaxis Circuit.
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Bidirectional thermotaxis in Caenorhabditis elegans is mediated by distinct sensorimotor strategies driven by the AFD thermosensory neurons.
- The LIM and POU homeobox genes ttx-3 and unc-86 act as terminal selectors in distinct cholinergic and serotonergic neuron types
- The cell biology of synaptic specificity during development.
- Advanced optical imaging techniques for neurodevelopment.
- Supporting diversity in science through social networking
- Daniel Colón-Ramos: Observing and making connections
- Spatially isotropic four-dimensional imaging with dual-view plane illumination microscopy.
- Synapse Location during Growth Depends on Glia Location.
- The actin cytoskeleton in presynaptic assembly.
- Serotonergic Neurosecretory Synapse Targeting Is Controlled by Netrin-Releasing Guidepost Neurons in Caenorhabditis elegans.
- Synaptic vesicle clustering requires a distinct MIG-10/Lamellipodin isoform and ABI-1 downstream from Netrin
- Netrin instructs synaptic vesicle clustering through Rac GTPase, MIG-10, and the actin cytoskeleton
- Netrin (UNC-6) mediates dendritic self-avoidance
- A conserved PTEN/FOXO pathway regulates neuronal morphology during C. elegans development.
- Inverted selective plane illumination microscopy (iSPIM) enables coupled cell identity lineaging and neurodevelopmental imaging in Caenorhabditis elegans.
- Nanoscopy in a living multicellular organism expressing GFP.
- FISH and immunofluorescence staining in Chlamydomonas.
- Functional organization of a neural network for aversive olfactory learning in Caenorhabditis elegans.
- Synapse formation in developing neural circuits.
- Cellular conductors: glial cells as guideposts during neural circuit development.
- Glia promote local synaptogenesis through UNC-6 (netrin) signaling in C. elegans.
- Direct ribosomal binding by a cellular inhibitor of translation.
- Inhibition of translation and induction of apoptosis by Bunyaviral nonstructural proteins bearing sequence similarity to reaper.
- A GH3-like domain in reaper is required for mitochondrial localization and induction of IAP degradation.
- Asymmetric distribution of nuclear pore complexes and the cytoplasmic localization of beta2-tubulin mRNA in Chlamydomonas reinhardtii.
- Reaper eliminates IAP proteins through stimulated IAP degradation and generalized translational inhibition.