Source 1primary paper1974Biochimica et Biophysica Acta (BBA) - Bioenergetics
Toolkit/electron paramagnetic resonance
electron paramagnetic resonance
Also known as: EPR
Taxonomy: Technique Branch / Method. Workflows sit above the mechanism and technique branches rather than replacing them.
Summary
Electron paramagnetic resonance (EPR) is an assay method used to monitor light-induced paramagnetic signals. In the cited study, it measures the kinetics of appearance and disappearance of signals assigned to P700+ and iron-sulfur protein(s) at low temperature.
Usefulness & Problems
Why this is useful
This method is useful for tracking transient paramagnetic species generated by illumination. The supplied evidence specifically supports its use for kinetic analysis of P700+ and iron-sulfur protein-associated signals under low-temperature conditions.
Problem solved
It addresses the problem of measuring the time-dependent formation and decay of light-induced paramagnetic states. In the cited work, this problem is framed around P700+ and iron-sulfur protein(s) detected by EPR at low temperature.
Problem links
Need precise spatiotemporal control with light input
DerivedElectron paramagnetic resonance (EPR) is an assay method used here to monitor the kinetics of light-induced signals from P700+ and iron-sulfur protein(s) at low temperature. The cited study specifically measures the appearance and disappearance of these paramagnetic species after illumination.
Taxonomy & Function
Primary hierarchy
Technique Branch
Method: A concrete measurement method used to characterize an engineered system.
Mechanisms
electron paramagnetic resonance detectionelectron paramagnetic resonance detectionlight-induced generation of paramagnetic signalslight-induced generation of paramagnetic signalsTarget 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
The cited study uses illumination as the input modality and performs measurements at low temperature. No further implementation details, such as instrument settings, sample preparation, or organism, are provided in the supplied evidence.
The provided evidence is limited to a single study title and does not report quantitative performance, sensitivity, temporal resolution, or sample requirements. It also does not establish validation beyond low-temperature measurements of P700+ and iron-sulfur protein(s).
Validation
Cell-freeBacteriaMammalianMouseHumanTherapeuticIndep. Replication
Supporting Sources
Ranked Claims
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
Approval Evidence
1 source1 linked approval claimfirst-pass slug electron-paramagnetic-resonance
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
Source:
measurement focussupports
The paper studies the kinetics of appearance and disappearance of light-induced EPR signals associated with P700+ and iron-sulfur protein(s) at low temperature.
Kinetics of appearance and disappearance of light-induced EPR signals of P700+ and iron-sulfur protein(s) at low temperature
Source:
Comparisons
Source-backed strengths
The evidence shows that EPR can resolve both the appearance and disappearance kinetics of distinct light-induced signals. It is specifically demonstrated for paramagnetic species associated with P700+ and iron-sulfur protein(s).
Compared with native green gel system
electron paramagnetic resonance and native green gel system address a similar problem space.
Shared frame: same top-level item type; same primary input modality: light
Compared with plant transcriptome profiling
electron paramagnetic resonance and plant transcriptome profiling address a similar problem space.
Shared frame: same top-level item type; same primary input modality: light
Compared with time-resolved EPR
electron paramagnetic resonance and time-resolved EPR address a similar problem space.
Shared frame: same top-level item type; shared mechanisms: electron paramagnetic resonance detection; same primary input modality: light
Ranked Citations
- 1.