AI Article Synopsis
- Drosophila responds to linearly polarized light, aligning with its electric field vector, and this behavior varies based on whether the light comes from above or below.
- The research identifies specific photoreceptors in the eye that are responsible for these two types of responses: dorsal responses involve inner photoreceptors R7 and R8, while ventral responses are mediated by both outer and inner photoreceptors.
- This study lays the groundwork for future genetic research into how Drosophila processes polarized light and will help unravel the neural circuits involved in their polarization vision.
Article Abstract
Background: Linearly polarized light originates from atmospheric scattering or surface reflections and is perceived by insects, spiders, cephalopods, crustaceans, and some vertebrates. Thus, the neural basis underlying how this fundamental quality of light is detected is of broad interest. Morphologically unique, polarization-sensitive ommatidia exist in the dorsal periphery of many insect retinas, forming the dorsal rim area (DRA). However, much less is known about the retinal substrates of behavioral responses to polarized reflections.
Summary: Drosophila exhibits polarotactic behavior, spontaneously aligning with the e-vector of linearly polarized light, when stimuli are presented either dorsally or ventrally. By combining behavioral experiments with genetic dissection and ultrastructural analyses, we show that distinct photoreceptors mediate the two behaviors: inner photoreceptors R7+R8 of DRA ommatidia are necessary and sufficient for dorsal polarotaxis, whereas ventral responses are mediated by combinations of outer and inner photoreceptors, both of which manifest previously unknown features that render them polarization sensitive.
Conclusions: Drosophila uses separate retinal pathways for the detection of linearly polarized light emanating from the sky or from shiny surfaces. This work establishes a behavioral paradigm that will enable genetic dissection of the circuits underlying polarization vision.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3258365 | PMC |
| http://dx.doi.org/10.1016/j.cub.2011.11.028 | DOI Listing |
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