SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3037636358> ?p ?o ?g. }

Showing items 1 to 100 of ±190 with 100 items per page.

W3037636358 endingPage "6006" @default.
W3037636358 startingPage "5990" @default.
W3037636358 abstract "An adaptive transition from exploring the environment in search of vital resources to exploiting these resources once the search was successful is important to all animals. Here we study the neuronal circuitry that allows larval Drosophila melanogaster of either sex to negotiate this exploration-exploitation transition. We do so by combining Pavlovian conditioning with high-resolution behavioral tracking, optogenetic manipulation of individually identified neurons, and EM data-based analyses of synaptic organization. We find that optogenetic activation of the dopaminergic neuron DAN-i1 can both establish memory during training and acutely terminate learned search behavior in a subsequent recall test. Its activation leaves innate behavior unaffected, however. Specifically, DAN-i1 activation can establish associative memories of opposite valence after paired and unpaired training with odor, and its activation during the recall test can terminate the search behavior resulting from either of these memories. Our results further suggest that in its behavioral significance DAN-i1 activation resembles, but does not equal, sugar reward. Dendrogram analyses of all the synaptic connections between DAN-i1 and its two main targets, the Kenyon cells and the mushroom body output neuron MBON-i1, further suggest that the DAN-i1 signals during training and during the recall test could be delivered to the Kenyon cells and to MBON-i1, respectively, within previously unrecognized, locally confined branching structures. This would provide an elegant circuit motif to terminate search on its successful completion.SIGNIFICANCE STATEMENT In the struggle for survival, animals have to explore their environment in search of food. Once food is found, however, it is adaptive to prioritize exploiting it over continuing a search that would now be as pointless as searching for the glasses you are wearing. This exploration-exploitation trade-off is important for animals and humans, as well as for technical search devices. We investigate which of the only 10,000 neurons of a fruit fly larva can tip the balance in this trade-off, and identify a single dopamine neuron called DAN-i1 that can do so. Given the similarities in dopamine neuron function across the animal kingdom, this may reflect a general principle of how search is terminated once it is successful." @default.
W3037636358 created "2020-07-02" @default.
W3037636358 creator A5004444278 @default.
W3037636358 creator A5008423391 @default.
W3037636358 creator A5016241267 @default.
W3037636358 creator A5017415848 @default.
W3037636358 creator A5023430731 @default.
W3037636358 creator A5023873563 @default.
W3037636358 creator A5027603226 @default.
W3037636358 creator A5029459001 @default.
W3037636358 creator A5059140736 @default.
W3037636358 creator A5066532705 @default.
W3037636358 creator A5071540839 @default.
W3037636358 creator A5072002450 @default.
W3037636358 creator A5082811744 @default.
W3037636358 creator A5087244246 @default.
W3037636358 date "2020-06-25" @default.
W3037636358 modified "2023-10-14" @default.
W3037636358 title "Identification of Dopaminergic Neurons That Can Both Establish Associative Memory and Acutely Terminate Its Behavioral Expression" @default.
W3037636358 cites W1523805957 @default.
W3037636358 cites W1944839424 @default.
W3037636358 cites W1978157456 @default.
W3037636358 cites W1997996755 @default.
W3037636358 cites W1999985543 @default.
W3037636358 cites W2000694260 @default.
W3037636358 cites W2001119704 @default.
W3037636358 cites W2021892293 @default.
W3037636358 cites W2034278075 @default.
W3037636358 cites W2040598998 @default.
W3037636358 cites W2040631236 @default.
W3037636358 cites W2040751411 @default.
W3037636358 cites W2055692983 @default.
W3037636358 cites W2061260648 @default.
W3037636358 cites W2064763329 @default.
W3037636358 cites W2072920560 @default.
W3037636358 cites W2083857067 @default.
W3037636358 cites W2091835225 @default.
W3037636358 cites W2095057163 @default.
W3037636358 cites W2105810025 @default.
W3037636358 cites W2110238639 @default.
W3037636358 cites W2112474181 @default.
W3037636358 cites W2117672081 @default.
W3037636358 cites W2117794907 @default.
W3037636358 cites W2118166599 @default.
W3037636358 cites W2127373801 @default.
W3037636358 cites W2129664537 @default.
W3037636358 cites W2132663430 @default.
W3037636358 cites W2137171341 @default.
W3037636358 cites W2140986639 @default.
W3037636358 cites W2162017938 @default.
W3037636358 cites W2163910905 @default.
W3037636358 cites W2166999914 @default.
W3037636358 cites W2173792883 @default.
W3037636358 cites W2187086501 @default.
W3037636358 cites W2192457000 @default.
W3037636358 cites W2219709225 @default.
W3037636358 cites W2253563636 @default.
W3037636358 cites W2345520071 @default.
W3037636358 cites W2404664646 @default.
W3037636358 cites W2488060953 @default.
W3037636358 cites W2536680601 @default.
W3037636358 cites W2544884339 @default.
W3037636358 cites W2576685025 @default.
W3037636358 cites W2587890802 @default.
W3037636358 cites W2606760007 @default.
W3037636358 cites W2606986849 @default.
W3037636358 cites W2615410321 @default.
W3037636358 cites W2619970632 @default.
W3037636358 cites W2737808707 @default.
W3037636358 cites W2739798424 @default.
W3037636358 cites W2746844509 @default.
W3037636358 cites W2774719659 @default.
W3037636358 cites W2793333536 @default.
W3037636358 cites W2810708689 @default.
W3037636358 cites W2811303733 @default.
W3037636358 cites W2886852821 @default.
W3037636358 cites W2887647658 @default.
W3037636358 cites W2888695486 @default.
W3037636358 cites W2891505771 @default.
W3037636358 cites W2898302556 @default.
W3037636358 cites W2920308385 @default.
W3037636358 cites W2944578766 @default.
W3037636358 cites W2949152168 @default.
W3037636358 cites W2952891726 @default.
W3037636358 cites W2981550286 @default.
W3037636358 cites W2987761357 @default.
W3037636358 cites W3003170365 @default.
W3037636358 cites W3012591046 @default.
W3037636358 cites W3014940227 @default.
W3037636358 doi "https://doi.org/10.1523/jneurosci.0290-20.2020" @default.
W3037636358 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7392503" @default.
W3037636358 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32586949" @default.
W3037636358 hasPublicationYear "2020" @default.
W3037636358 type Work @default.
W3037636358 sameAs 3037636358 @default.
W3037636358 citedByCount "21" @default.
W3037636358 countsByYear W30376363582020 @default.
W3037636358 countsByYear W30376363582021 @default.