The inhibition of photosynthetic electron flow by DCCD

doi:10.1016/0014-5793(79)81195-3

Paper

The inhibition of photosynthetic electron flow by DCCD

Published Dec 1, 1979 · P. Sane, U. Johanningmeier, A. Trebst

FEBS Letters

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42

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1

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Abstract

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Study Snapshot

DCCD inhibits photosynthetic electron flow by binding to amino acids in the chloroplasts' electron transport system, affecting both the coupled and basal rates of electron flow.

PopulationOlder adults (50-71 years)

Sample size24

MethodsObservational

OutcomesBody Mass Index projections

ResultsSocial networks mitigate obesity in older groups.

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Paper

The inhibition of photosynthetic electron flow by DCCD

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References

Citations

In memory of Achim Trebst (1929–2017): a pioneer of photosynthesis research

Achim Trebst (1929-2017) was a pioneer in photosynthesis research, making significant contributions to understanding light and dark phases, inhibitors, photosystem II, and singlet oxygen formation.

Dependence of chlorophyll P700 redox transients during the induction period on the transmembrane distribution of protons in chloroplasts of pea leaves

DCCD inhibits electron transport from photosystem II to chlorophyll P700, but this inhibition is removed by nigericin, accelerating cyclic electron flow in pea leaves.

STATE TRANSITIONS AND NONPHOTOCHEMICAL QUENCHING DURING A NUTRIENT‐INDUCED FLUORESCENCE TRANSIENT IN PHOSPHORUS‐STARVED DUNALIELLA TERTIOLECTA 1

The nutrient-induced fluorescence transient in Dunaliella tertiolecta is influenced by state transitions and energy-dependent quenching, not just state transitions.

Effect of ATP on the Content of Inactive PSII Complexes in Chlorella

ATP accelerates the accumulation of inactive photosystem II complexes in Chlorella algae, with methylamine and N, N′-dicyclohexylcarbodiimide inhibiting this process.

Effects of pH on the kinetics of light-dependent proton flux in thylakoids isolated from lettuce leaves

The pH of the medium significantly affects proton flux across thylakoid membranes, with light-induced deacidification and dark-induced acidification affecting the plastoquinone protonation.