AI Article Synopsis
- Optogenetic techniques are mainly used in rodent brains but are not as advanced for nonhuman primates like rhesus macaques, which have more complex brain structures and behaviors.
- A new tool called Opto-Array, consisting of implantable light-emitting diodes, has been developed to enhance optogenetic studies in these larger brains.
- Testing showed that using the Opto-Array to silence neurons in the macaque's primary visual cortex led to noticeable visual deficits, confirming its effectiveness for behavioral applications without causing tissue heating.
Article Abstract
Optogenetic methods have been widely used in rodent brains, but remain relatively under-developed for nonhuman primates such as rhesus macaques, an animal model with a large brain expressing sophisticated sensory, motor and cognitive behaviors. To address challenges in behavioral optogenetics in large brains, we developed Opto-Array, a chronically implantable array of light-emitting diodes for high-throughput optogenetic perturbation. We demonstrated that optogenetic silencing in the macaque primary visual cortex with the help of the Opto-Array results in reliable retinotopic visual deficits in a luminance discrimination task. We separately confirmed that Opto-Array illumination results in local neural silencing, and that behavioral effects are not due to tissue heating. These results demonstrate the effectiveness of the Opto-Array for behavioral optogenetic applications in large brains.
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| http://dx.doi.org/10.1038/s41592-021-01238-9 | DOI Listing |
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