An improved method, using saturating light pulses, for the determination of photosystem I quantum yield via P700+-absorbance changes at 830 nm

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1 January 1994

journal article
research article
Published by Springer Nature in Planta

Vol. 192 (2) , 261-268
https://doi.org/10.1007/bf01089043

Abstract

No abstract available

Keywords

This publication has 23 references indexed in Scilit:

Electron Flow to the Intersystem Chain from Stromal Components and Cyclic Electron Flow in Maize Chloroplasts, as Detected in Intact Leaves by Monitoring Redox Change of P700 and Chlorophyll Fluorescence
Plant and Cell Physiology, 1993
Concerning a Dual Function of Coupled Cyclic Electron Transport in Leaves
Plant Physiology, 1992
Control of the Quantum Efficiencies of Photosystems I and II, Electron Flow, and Enzyme Activation following Dark-to-Light Transitions in Pea Leaves
Plant Physiology, 1992
Relationships between the Efficiencies of Photosystems I and II and Stromal Redox State in CO₂-Free Air
Plant Physiology, 1991
Non-photochemical quenching of Fo in leaves is emission wavelength dependent: consequences for quenching analysis and its interpretation
Photosynthesis Research, 1990
Relationship between Photosynthetic Electron Transport and Stromal Enzyme Activity in Pea Leaves
Plant Physiology, 1990
The mechanisms contributing to photosynthetic control of electron transport by carbon assimilation in leaves
Photosynthesis Research, 1990
Relationship between the Quantum Efficiencies of Photosystems I and II in Pea Leaves
Plant Physiology, 1989
The kinetics of P‐700⁺reduction in leaves: a novelin situprobe of thylakoid functioning
Plant, Cell & Environment, 1989
The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence
Biochimica et Biophysica Acta (BBA) - General Subjects, 1989