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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quaternary structural rearrangement

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electron-electron double resonance spectroscopy

Assay Method
Since 2017Heterodimerizationlight-induced conformational switchingquaternary structural rearrangementrotation and splaying of dimeric photosensor unitsFunctional AssayStructural Characterization

Electron-electron double resonance (ELDOR) spectroscopy is a structural assay method that, when combined with site-directed spin labelling, was used to chart light-induced structural transitions in the engineered LOV histidine kinase YF1. In the cited study, it provided pairwise distance information used to model blue-light-driven quaternary rearrangements in a signaling photoreceptor.

CFBacMamMusHumTxRep
Ev 28Rep 9Pr 59

site-directed spin labelling

Assay Method
Since 2017electron-electron double resonance distance measurementlight-induced conformational switchingquaternary structural rearrangementsite-directed spin labellingFunctional AssayStructural Characterization

Site-directed spin labelling, used with electron-electron double resonance (ELDOR) spectroscopy, is a structural assay method for charting blue-light-induced conformational changes in proteins. In the cited study, it was applied to the engineered LOV histidine kinase YF1 to obtain distance information on light-dependent structural transitions and quaternary rearrangements.

CFBacMamMusHumTxRep
Ev 28Rep 9Pr 59
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