Source 1review2024Journal of Cell Science
Toolkit/cytoskeletal-related biosensors
cytoskeletal-related biosensors
Taxonomy: Mechanism Branch / Architecture. Workflows sit above the mechanism and technique branches rather than replacing them.
Summary
Furthermore, we provide an overview of junction- and cytoskeletal-related biosensors and optogenetic probes that have contributed to these advances...
Usefulness & Problems
Why this is useful
Cytoskeletal-related biosensors are presented as tools that contributed to advances in understanding junctional dynamics. They are relevant because the review highlights roles of the junction-associated cytoskeleton.; probing cytoskeleton-associated contributions to junctional dynamics; supporting microscopy-based analysis of junction-associated cytoskeletal roles
Source:
Cytoskeletal-related biosensors are presented as tools that contributed to advances in understanding junctional dynamics. They are relevant because the review highlights roles of the junction-associated cytoskeleton.
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probing cytoskeleton-associated contributions to junctional dynamics
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supporting microscopy-based analysis of junction-associated cytoskeletal roles
Problem solved
They help interrogate how the cytoskeleton contributes to junctional organization and dynamics. This complements structural imaging of junctional complexes.; helps connect junctional behavior to the junction-associated cytoskeleton
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They help interrogate how the cytoskeleton contributes to junctional organization and dynamics. This complements structural imaging of junctional complexes.
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helps connect junctional behavior to the junction-associated cytoskeleton
Problem links
helps connect junctional behavior to the junction-associated cytoskeleton
LiteratureThey help interrogate how the cytoskeleton contributes to junctional organization and dynamics. This complements structural imaging of junctional complexes.
Source:
They help interrogate how the cytoskeleton contributes to junctional organization and dynamics. This complements structural imaging of junctional complexes.
Taxonomy & Function
Primary hierarchy
Mechanism Branch
Architecture: A reusable architecture pattern for arranging parts into an engineered system.
Mechanisms
No mechanism tags yet.
Techniques
No technique tags yet.
Target processes
No target processes tagged yet.
Input: Light
Implementation Constraints
cofactor dependency: cofactor requirement unknownencoding mode: genetically encodedimplementation constraint: context specific validationimplementation constraint: spectral hardware requirementoperating role: sensor
They require biosensor constructs and microscopy readouts suitable for cytoskeletal measurements. The abstract does not specify exact implementations.; requires biosensor expression and compatible imaging readouts
The abstract does not specify whether these biosensors directly report junction architecture, force, signaling, or other variables. Their exact scope is unresolved from the provided text.; the abstract does not identify specific biosensors or measured cytoskeletal parameters
Validation
Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication
Supporting Sources
Ranked Claims
Electron microscopy and live fluorescence microscopy have significantly enhanced understanding of molecular mechanisms regulating junctional dynamics during homeostasis, development, and disease.
Junctional architectures should be integrated with membrane morphology and cellular topography in which the junctions are embedded.
Junction-related biosensors, cytoskeletal-related biosensors, and optogenetic probes have contributed to advances in understanding junctional dynamics across cellular environments.
Studying nanoscale architectures of tight junctions, adherens junctions, and desmosomes is crucial for understanding the complexity of cell-cell adhesions.
Super-resolution microscopy and volume electron microscopy have provided new insights into the nanoscale organization of cell-cell junctional complexes and their relationships to the junction-associated cytoskeleton, neighboring organelles, and the plasma membrane.
Approval Evidence
1 source1 linked approval claimfirst-pass slug cytoskeletal-related-biosensors
Furthermore, we provide an overview of junction- and cytoskeletal-related biosensors and optogenetic probes that have contributed to these advances...
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review summarysupports
Junction-related biosensors, cytoskeletal-related biosensors, and optogenetic probes have contributed to advances in understanding junctional dynamics across cellular environments.
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Comparisons
Source-stated alternatives
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Source-backed strengths
the review states these biosensors have contributed to advances discussed in the field
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the review states these biosensors have contributed to advances discussed in the field
Compared with biosensors
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with biosensors for active Rho detection
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with fluorescent protein based reporters and biosensors
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with genetically engineered biosensors
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with junction-related biosensors
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with optogenetic
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Compared with optogenetic probes
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Shared frame: source-stated alternative in extracted literature
Strengths here: the review states these biosensors have contributed to advances discussed in the field.
Relative tradeoffs: the abstract does not identify specific biosensors or measured cytoskeletal parameters.
Source:
The abstract mentions junction-related biosensors and optogenetic probes as nearby tool classes.
Ranked Citations