Techniques
Multiphoton Holographic Optogenetics
A class of techniques that allows us experimenters to activate individual neurons in an awake animal. We can pattern this light to activate many cells in different combinations to mimic their natural firing — and ask questions about neural computation.
‘Optogenetics’ is a technique that allows you to get neurons to fire when you shine light on them. Lots of neuroscientists use it to ask questions like ‘what happens when this type of cell fires?’.
However, normally it’s not possible to get a spot of light small enough such that you activate one cell and not the ones above and below it. So we use the multiphoton approach to restrict which cell receives light.
But activating only a single cell in the brain of a living behaving mouse is pretty limiting, so we borrow the techniques of 3D Holography to split our light into many different spots. Each spot of light activates just one cell but we get to decide which cell and when.
As this approach is light and microscopy based, it merges seamlessly with two-photon imaging, cell type specific labeling or tracing, and electrophysiology.
Finally, this entire technique was designed with speed in mind. From the molecular opsins, that turn light into neural activity, to the optics, that direct light to each cell, we optimized the system to work together. We can activate a cell (or group of cells) and move on in just a couple milliseconds allowing us to control not just which cells are active but when and how much.
However, we’re not done! There is a world of questions that have been opened up by these approaches, but also a world of advancement. Every day new molecular opsins, new optical tricks, and new systems that put everything together in a slightly better way are being developed.
We’re looking to push the boundary of what we know and of what’s knowable.