Source 1review2022RSC Chemical Biology
Toolkit/chemogenetic methods of transmembrane receptors
chemogenetic methods of transmembrane receptors
Also known as: chemogenetic methods of transmembrane receptors
Taxonomy: Technique Branch / Method. Workflows sit above the mechanism and technique branches rather than replacing them.
Summary
Chemogenetic methods of transmembrane receptors are a set of approaches for cell-specific regulation of receptor signaling. A 2022 review describes them as methods to control receptor functions in cells, with some strategies applied in living animals to reveal signaling in target cells.
Usefulness & Problems
Why this is useful
These methods are useful for controlling transmembrane receptor function in a cell-specific manner. The cited review positions chemogenetics as an alternative to conventional genetic engineering or chemical ligands for regulating receptor functions in cells.
Source:
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Source:
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Source:
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Problem solved
This approach addresses the problem of how to regulate receptor signaling with cell specificity rather than relying only on conventional genetic engineering or standard pharmacological ligands. The available evidence specifically frames the goal as control of receptor functions in cells and interrogation of receptor signaling in target cells in vivo.
Source:
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Taxonomy & Function
Primary hierarchy
Technique Branch
Method: A concrete method used to build, optimize, or evolve an engineered system.
Techniques
No technique tags yet.
Target processes
signalingImplementation Constraints
The provided evidence indicates that these are chemogenetic methods applied to transmembrane receptors for cell-specific control of signaling. However, the supplied material does not specify construct architecture, delivery modality, expression system, cofactors, or dosing requirements.
The supplied evidence is limited to high-level review statements and does not specify particular receptor classes, ligands, molecular designs, or quantitative performance. It also does not provide direct comparative data, kinetic properties, or generalizable validation across many biological systems.
Validation
Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication
Supporting Sources
Ranked Claims
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Chemogenetics is presented as an alternative to conventional genetic engineering or chemical ligands for controlling receptor functions in cells.
Conventionally, genetic engineering or chemical ligands have been used to control receptor functions in cells. As the alternative, chemogenetics has been proposed
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
In chemogenetics, target proteins are genetically engineered to interact with a designed chemical partner with high selectivity.
chemogenetics has been proposed, in which target proteins are genetically engineered to interact with a designed chemical partner with high selectivity
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Approval Evidence
1 source2 linked approval claimsfirst-pass slug chemogenetic-methods-of-transmembrane-receptors
In this review, we summarize the developing chemogenetic methods of transmembrane receptors for cell-specific regulation of receptor signaling.
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in vivo applicability summarysupports
Some chemogenetic strategies have been used to reveal receptor signaling of target cells in living animals.
Notably, some chemogenetic strategies have been used to reveal the receptor signaling of target cells in living animals.
Source:
use case summarysupports
Engineered receptors can be used to dissect the function of one receptor member within a highly homologous receptor family in a cell-specific manner.
The engineered receptor dissects the function of one receptor member among a highly homologous receptor family in a cell-specific manner.
Source:
Comparisons
Source-backed strengths
The main reported strength is cell-specific regulation of receptor signaling. The review also states that some chemogenetic strategies have been used in living animals, supporting in vivo applicability for revealing receptor signaling in target cells.
Ranked Citations
- 1.