Toolkit Items

Browse the toolkit beneath workflows. The mechanism branch runs mechanism -> architecture -> component, while the technique branch runs from high-level approaches down to concrete methods.

2 items matching 1 filter

Mechanism Branch

Layer 1

Mechanisms

Top-level concepts: biophysical action modes such as heterodimerization, photocleavage, or RNA binding.

Layer 2

Architectures

Arrangements that realize or deploy mechanisms, including switches, construct patterns, and delivery strategies.

Layer 3

Components

Low-level parts and sequence-defined elements used inside architectures, including protein domains and RNA elements.

Technique Branch

Layer 1

Approaches

High-level engineering practices such as computational design, directed evolution, sequence verification, and functional assay.

Layer 2

Methods

Concrete methods used to design, build, verify, or characterize engineered systems.

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opsin photoactivation

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scintillator-mediated optogenetics

Engineering Method
Since 2019neural activationneural inhibitionopsin photoactivationx-ray-induced scintillationStructural Characterization

Scintillator-mediated optogenetics is an engineering method in which implanted Ce:GAGG microparticles convert X-ray irradiation into scintillation light that activates red-shifted opsins. In mice, this enabled wireless modulation of neural activity at tissue depth, including bidirectional control of midbrain dopamine neurons and associated place preference behavior.

CFBacMamMusHumTxRep
Ev 36Rep 9Pr 59

Ce-doped Gd3(Al,Ga)5O12 (Ce:GAGG) microparticles

Delivery Strategy
Since 2019opsin photoactivationx-ray-induced scintillationStructural Characterization

Ce-doped Gd3(Al,Ga)5O12 (Ce:GAGG) microparticles are injectable yellow-emitting inorganic scintillators used to convert X-ray irradiation into local optical output in vivo. In the cited study, this scintillation activated the red-shifted opsins ChRmine and GtACR1, enabling remote bidirectional control of neural activity.

CFBacMamMusHumTxRep
Ev 20Rep 9Pr 71
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