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Target Concepts:
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Animals demonstrate flexible behaviors through associative learning based on their experiences. Deciphering the neural mechanisms for sensing and integrating multiple types of sensory information is critical for understanding such behavioral controls. The soil nematode
Caenorhabditis elegans
avoids salt concentrations it has previously experienced under
starvation
conditions. Here, we identify a pair of sensory neurons, the
ASG
neuron pair, which in cooperation with the ASER salt-sensing neuron generate
starvation
-dependent salt avoidance. Animals whose sensory input is restricted to only ASER failed to show learned avoidance due to inappropriately directed navigation behaviors. However, their navigation through a salt concentration gradient was improved by allowing sensory inputs to
ASG
in addition to ASER. Detailed behavioral analyses of these animals revealed that input from
ASG
neurons is required not only for controlling the frequency of initiating a set of sharp turns (called pirouettes) based on detected ambient salt concentrations but also adjusting the migration direction during pirouettes. Optogenetic activation of ASER by ChR2 induced turning behaviors in a salt concentration-dependent manner where presence of intact
ASG
was important for the
starvation
-dependent responses. Calcium imaging of the activity of
ASG
neurons in freely moving worms revealed that
ASG
is activated upon turning behavior. Our results indicate that
ASG
neurons cooperate with the ASER neuron to generate destination-directed reorientation in
starvation
-associated salt concentration avoidance.
...
PMID:Multiple sensory neurons mediate starvation-dependent aversive navigation in
Caenorhabditis elegans
. 3145 35
