!!Mario De Bono - Selected Publications
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H-Factor 27 Total citations: ~4300 (without self citations, as much as possible), Source Google Scholar \\
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1. de Bono M, Bargmann CI. (1998) Natural variation in a neuropeptide Y receptor homolog modifies social behavior and food response in C. elegans. Cell 94, 679–689 (782 citations). \\
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2. de Bono M, Tobin DM, Davis MW, Avery L, Bargmann CI (2002) Social feeding in Caenorhabditis elegans is induced by neurons that detect aversive stimuli. Nature 419, 899–903 (280 citations). \\
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3. Coates JC, de Bono M (2002) Antagonistic pathways in neurons exposed to body fluid regulate social feeding in Caenorhabditis elegans. Nature 419, 925–929 (225 citations).\\
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4. Rogers C, Reale V, Kim K, Chatwin H, Li C, Evans P, de Bono M (2003) Inhibition of Caenorhabditis elegans social feeding by FMRFamide-related peptide activation of NPR-1. Nat. Neurosci. 6, 1178–1185 (252 citations). \\
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5. Persson A, Gross E, Laurent P, Busch KE, Bretes H, de Bono M (2009) Natural variation in a neural globin tunes oxygen sensing in wild Caenorhabditis elegans. Nature 458, 1030–3030 (124 citations). \\
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6. Busch KE, Laurent P, Soltesz Z, Murphy RJ, Faivre O, Hedwig B, Thomas M, Smith HL, de Bono M (2012) Tonic signaling from O₂ sensors sets neural circuit activity and behavioral state. Nat. Neurosci. 15, 581–591 (102 citations). \\
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7. Chen C, Itakura E, Nelson GM, Sheng M, Laurent P, Fenk LA, Butcher RA, Hegde RS, de Bono M (2017) IL-17 is a neuromodulator of Caenorhabditis elegans sensory responses. Nature 542, 43–48 (54 citations). \\
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8. Fenk LA, de Bono M (2017) Memory of recent oxygen experience switches pheromone valence in Caenorhabditis elegans. PNAS 114, 4195–4200 (25 citations). \\
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9. Flynn SM, Chen C, Artan M, Barratt S, Crisp A, Nelson GM, Peak-Chew SY, Begum F, Skehel M, de Bono M (2020) MALT-1 mediates IL-17 neural signaling to regulate C. elegans behavior, immunity and longevity. Nat. Commun. 11, 2099 (4 citations).\\
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10. Beets I, Zhang G, Fenk LA, Chen C, Nelson GM, Félix MA, de Bono M (2020) Natural variation in a dendritic scaffold protein remodels experience-dependent plasticity by altering neuropeptide expression. Neuron 105, 106–121.e10 (2 citations).