Nuclear PKG localization is regulated by Go alpha and is necessary in the AWB neurons to mediate avoidance in Caenorhabditis elegans

2013 
Abstract Neural circuits interpret sensory information from their environment and use this information to influence behavioral outputs. In Caenorhabditis elegans two bilaterally symmetric cephalic amphid organs each contain the ciliated termini of twelve classes of sensory neurons. Two of these sensory neuron pairs are called the AWB and the AWC neurons. The AWC neurons confer an ability to detect attractive volatile odors such as benzaldehyde, whereas the AWB neurons endow the animal with an ability to detect repulsive volatile odors such as 2-nonanone. Previously, it has been shown that transient nuclear localization of a Protein Kinase G (PKG) called EGL-4 in the AWC neuron facilitates adaptation after sustained odor input, and here we show that constitutively nuclear EGL-4 is required in the AWB neurons for the detection of repellent odors. Furthermore, we show that the G o alpha subunit protein GOA-1 regulates the nuclear localization of EGL-4 in both AWB and AWC neurons. These data reveal novel insight into how the localization of an individual kinase can form a turnout switch to modify output in different neurons to drive opposite sensory behaviors.
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