| human | Q5 |
| P496 | ORCID iD | 0000-0001-9048-873X |
| P1416 | affiliation | Vanderbilt Department of Biological Sciences | Q78041310 |
| Vanderbilt Department of Cell and Developmental Biology | Q89953912 | ||
| P166 | award received | Fellow of the American Association for the Advancement of Science | Q5442484 |
| P69 | educated at | University of Southern Mississippi | Q624090 |
| Rice University | Q842909 | ||
| P108 | employer | Vanderbilt University | Q29052 |
| Duke University | Q168751 | ||
| North Carolina State University | Q1132346 | ||
| Vanderbilt University School of Medicine | Q7914466 | ||
| P734 | family name | Miller | Q1605060 |
| Miller | Q1605060 | ||
| Miller | Q1605060 | ||
| P735 | given name | David | Q18057751 |
| David | Q18057751 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | male | Q6581097 |
| Q24793234 | A gene expression fingerprint of C. elegans embryonic motor neurons |
| Q42588671 | A spatial and temporal map of C. elegans gene expression |
| Q35588119 | A transcriptional program promotes remodeling of GABAergic synapses in Caenorhabditis elegans |
| Q92901715 | Actin assembly and non-muscle myosin activity drive dendrite retraction in an UNC-6/Netrin dependent self-avoidance response |
| Q27312196 | An integrated strategy to study muscle development and myofilament structure in Caenorhabditis elegans |
| Q30497858 | C. elegans multi-dendritic sensory neurons: morphology and function |
| Q39269905 | Ca2+ permeability and Na+ conductance in cellular toxicity caused by hyperactive DEG/ENaC channels |
| Q112710278 | Caenorhabditis elegans ETR-1/CELF has broad effects on the muscle cell transcriptome, including genes that regulate translation and neuroblast migration |
| Q36570593 | Cell-specific microarray profiling experiments reveal a comprehensive picture of gene expression in the C. elegans nervous system |
| Q30496117 | Coenzyme Q protects Caenorhabditis elegans GABA neurons from calcium-dependent degeneration |
| Q34139425 | Comparative analysis of the transcriptome across distant species |
| Q33320351 | Complementary RNA amplification methods enhance microarray identification of transcripts expressed in the C. elegans nervous system |
| Q42317465 | Correction: Neuroendocrine modulation sustains the C. elegans forward motor state |
| Q91990896 | Epidermal Growth Factor Signaling Promotes Sleep through a Combined Series and Parallel Neural Circuit |
| Q88471126 | Functional features of the "finger" domain of the DEG/ENaC channels MEC-4 and UNC-8 |
| Q35772934 | Glial Expression of the Caenorhabditis elegans Gene swip-10 Supports Glutamate Dependent Control of Extrasynaptic Dopamine Signaling |
| Q37814485 | Homologs of genes expressed in Caenorhabditis elegans GABAergic neurons are also found in the developing mouse forebrain |
| Q28822538 | Inhibiting poly(ADP-ribosylation) improves axon regeneration |
| Q28301622 | Integrative analysis of the Caenorhabditis elegans genome by the modENCODE project |
| Q35396163 | Isolation of specific neurons from C. elegans larvae for gene expression profiling |
| Q90029098 | Mechanisms that regulate morphogenesis of a highly branched neuron in C. elegans |
| Q92884589 | NATF (Native and Tissue-Specific Fluorescence): A Strategy for Bright, Tissue-Specific GFP Labeling of Native Proteins in Caenorhabditis elegans |
| Q24632608 | Netrin (UNC-6) mediates dendritic self-avoidance |
| Q52926659 | Neurodevelopment: Three's a Crowd, Four Is a Receptor Complex. |
| Q30369071 | Neuroendocrine modulation sustains the C. elegans forward motor state. |
| Q37055480 | Neurotoxic unc-8 mutants encode constitutively active DEG/ENaC channels that are blocked by divalent cations |
| Q30476174 | Neurotoxin-induced degeneration of dopamine neurons in Caenorhabditis elegans |
| Q33777987 | Prediction and characterization of noncoding RNAs in C. elegans by integrating conservation, secondary structure, and high-throughput sequencing and array data |
| Q34472107 | Receptor-type guanylate cyclase is required for carbon dioxide sensation by Caenorhabditis elegans |
| Q37226697 | Sensory neuron fates are distinguished by a transcriptional switch that regulates dendrite branch stabilization. |
| Q47653350 | Separate transcriptionally regulated pathways specify distinct classes of sister dendrites in a nociceptive neuron |
| Q34284827 | Specific roles for DEG/ENaC and TRP channels in touch and thermosensation in C. elegans nociceptors |
| Q38429066 | The Atypical MAP Kinase SWIP-13/ERK8 Regulates Dopamine Transporters Through a Rho-Dependent Mechanism. |
| Q43893243 | The C. elegans even-skipped homologue, vab-7, specifies DB motoneurone identity and axon trajectory |
| Q37165659 | The DEG/ENaC cation channel protein UNC-8 drives activity-dependent synapse removal in remodeling GABAergic neurons |
| Q36643272 | The embryonic muscle transcriptome of Caenorhabditis elegans |
| Q36402754 | The motor circuit |
| Q30495974 | Time-lapse imaging and cell-specific expression profiling reveal dynamic branching and molecular determinants of a multi-dendritic nociceptor in C. elegans |
| Q36132859 | Transcriptional Control of Synaptic Remodeling through Regulated Expression of an Immunoglobulin Superfamily Protein |
| Q35978913 | UNC-4 antagonizes Wnt signaling to regulate synaptic choice in the C. elegans motor circuit |
| Q35615975 | UNC-4 represses CEH-12/HB9 to specify synaptic inputs to VA motor neurons in C. elegans |
| Q40419662 | acr-16 encodes an essential subunit of the levamisole-resistant nicotinic receptor at the Caenorhabditis elegans neuromuscular junction |
| Q83227749 | neurons have functional dendritic spines |
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