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W3038575087 abstract "Animals exhibit innate and learned preferences for temperature and humidity-conditions critical for their survival and reproduction. Leveraging a whole-brain electron microscopy volume, we studied the adult Drosophila melanogaster circuitry associated with antennal thermo- and hygrosensory neurons. We have identified two new target glomeruli in the antennal lobe, in addition to the five known ones, and the ventroposterior projection neurons (VP PNs) that relay thermo- and hygrosensory information to higher brain centers, including the mushroom body and lateral horn, seats of learned and innate behavior. We present the first connectome of a thermo- and hygrosensory neuropil, the lateral accessory calyx (lACA), by reconstructing neurons downstream of heating- and cooling-responsive VP PNs. A few mushroom body-intrinsic neurons solely receive thermosensory input from the lACA, while most receive additional olfactory and thermo- and/or hygrosensory PN inputs. Furthermore, several classes of lACA-associated neurons form a local network with outputs to other brain neuropils, suggesting that the lACA serves as a hub for thermo- and hygrosensory circuitry. For example, DN1a neurons link thermosensory PNs in the lACA to the circadian clock via the accessory medulla. Finally, we survey strongly connected downstream partners of VP PNs across the protocerebrum; these include a descending neuron targeted by dry-responsive VP PNs, meaning that just two synapses might separate hygrosensory inputs from motor circuits. These data provide a comprehensive first- and second-order layer analysis of Drosophila thermo- and hygrosensory systems and an initial survey of third-order neurons that could directly modulate behavior." @default.
W3038575087 created "2020-07-10" @default.
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W3038575087 date "2020-08-01" @default.
W3038575087 modified "2023-10-13" @default.
W3038575087 title "Connectomics Analysis Reveals First-, Second-, and Third-Order Thermosensory and Hygrosensory Neurons in the Adult Drosophila Brain" @default.
W3038575087 cites W1571815557 @default.
W3038575087 cites W1965521453 @default.
W3038575087 cites W1968548713 @default.
W3038575087 cites W1973078582 @default.
W3038575087 cites W1977477867 @default.
W3038575087 cites W1979639373 @default.
W3038575087 cites W1984912966 @default.
W3038575087 cites W1986083229 @default.
W3038575087 cites W1998356880 @default.
W3038575087 cites W2000117023 @default.
W3038575087 cites W2005735307 @default.
W3038575087 cites W2007613723 @default.
W3038575087 cites W2009494681 @default.
W3038575087 cites W2010478553 @default.
W3038575087 cites W2025654941 @default.
W3038575087 cites W2035505151 @default.
W3038575087 cites W2035789116 @default.
W3038575087 cites W2052289243 @default.
W3038575087 cites W2054944848 @default.
W3038575087 cites W2055083409 @default.
W3038575087 cites W2059721573 @default.
W3038575087 cites W2061282622 @default.
W3038575087 cites W2062956758 @default.
W3038575087 cites W2074915488 @default.
W3038575087 cites W2074985004 @default.
W3038575087 cites W2075611267 @default.
W3038575087 cites W2076018768 @default.
W3038575087 cites W2083113484 @default.
W3038575087 cites W2089166645 @default.
W3038575087 cites W2091701866 @default.
W3038575087 cites W2092098765 @default.
W3038575087 cites W2093419082 @default.
W3038575087 cites W2108055061 @default.
W3038575087 cites W2117794907 @default.
W3038575087 cites W2121639331 @default.
W3038575087 cites W2126358279 @default.
W3038575087 cites W2135823825 @default.
W3038575087 cites W2155720250 @default.
W3038575087 cites W2163314583 @default.
W3038575087 cites W2169331639 @default.
W3038575087 cites W2261263381 @default.
W3038575087 cites W2336443951 @default.
W3038575087 cites W2341225023 @default.
W3038575087 cites W2342780178 @default.
W3038575087 cites W2347072380 @default.
W3038575087 cites W2414998203 @default.
W3038575087 cites W2467868026 @default.
W3038575087 cites W2468800575 @default.
W3038575087 cites W2522315145 @default.
W3038575087 cites W2625496813 @default.
W3038575087 cites W2738968467 @default.
W3038575087 cites W2884409672 @default.
W3038575087 cites W2908806612 @default.
W3038575087 cites W2942020216 @default.
W3038575087 cites W2946807361 @default.
W3038575087 cites W2949808130 @default.
W3038575087 cites W2950291885 @default.
W3038575087 cites W2951976236 @default.
W3038575087 cites W2952625560 @default.
W3038575087 cites W2952723908 @default.
W3038575087 cites W2995579772 @default.
W3038575087 cites W3038854314 @default.
W3038575087 doi "https://doi.org/10.1016/j.cub.2020.06.028" @default.
W3038575087 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7443704" @default.
W3038575087 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32619476" @default.
W3038575087 hasPublicationYear "2020" @default.
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