Toolkit/Optogenetic PLDs

Optogenetic PLDs

Multi-Component Switch·Research

Also known as: optoPLD

Taxonomy: Mechanism Branch / Architecture. Workflows sit above the mechanism and technique branches rather than replacing them.

Summary

Optogenetic PLDs use light-mediated heterodimerization to recruit a bacterial PLD to desired organelle membranes

Usefulness & Problems

No literature-backed usefulness or problem-fit explainer has been materialized for this record yet.

Published Workflows

Click chemistry and optogenetic approaches to visualize and manipulate phosphatidic acid signaling

2022

Objective: Create and apply a suite of chemical tools to image and perturb phosphatidic acid signaling with high spatiotemporal precision.

Why it works: The workflow combines chemically selective labeling of PLD-derived reporter lipids with light-controlled perturbation strategies, which the abstract presents as suitable for the rapid metabolism and trafficking of phosphatidic acid.

PLD-mediated phosphatidic acid productionlight-mediated recruitment of bacterial PLD to organelle membraneslight-controlled modulation of phosphatidic acid analog shape and bioactivityclick chemistrybioorthogonal taggingoptogeneticsphotoswitchable lipid analog design

Taxonomy & Function

Primary hierarchy

Mechanism Branch

Architecture: A composed arrangement of multiple parts that instantiates one or more mechanisms.

Techniques

No technique tags yet.

Target processes

signaling

Input: Light

Validation

Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication

Supporting Sources

Ranked Claims

Claim 1application scopesupports2022Source 1needs review

The described chemical tools are presented as useful for studying GPCR-Gq signaling, discovering regulators of PLD signaling, tracking intracellular lipid transport pathways, and elucidating oncogenic signaling roles for phosphatidic acid.

We highlight select applications of these tools for studying GPCR-Gq signaling, discovering regulators of PLD signaling, tracking intracellular lipid transport pathways, and elucidating new oncogenic signaling roles for PA.
Claim 2tool functionsupports2022Source 1needs review

Optogenetic PLDs manipulate phosphatidic acid signaling by light-mediated heterodimerization that recruits a bacterial PLD to desired organelle membranes.

Optogenetic PLDs use light-mediated heterodimerization to recruit a bacterial PLD to desired organelle membranes

Approval Evidence

1 source2 linked approval claimsfirst-pass slug optogenetic-plds
Optogenetic PLDs use light-mediated heterodimerization to recruit a bacterial PLD to desired organelle membranes

Source:

application scopesupports

The described chemical tools are presented as useful for studying GPCR-Gq signaling, discovering regulators of PLD signaling, tracking intracellular lipid transport pathways, and elucidating oncogenic signaling roles for phosphatidic acid.

We highlight select applications of these tools for studying GPCR-Gq signaling, discovering regulators of PLD signaling, tracking intracellular lipid transport pathways, and elucidating new oncogenic signaling roles for PA.

Source:

tool functionsupports

Optogenetic PLDs manipulate phosphatidic acid signaling by light-mediated heterodimerization that recruits a bacterial PLD to desired organelle membranes.

Optogenetic PLDs use light-mediated heterodimerization to recruit a bacterial PLD to desired organelle membranes

Source:

Comparisons

No literature-backed comparison notes have been materialized for this record yet.

Ranked Citations

  1. 1.
    StructuralSource 1Journal of Biological Chemistry2022Claim 1Claim 2

    Extracted from this source document.