Difference between revisions of "Bailleul 2015 Photosynth Res"
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{{Publication | {{Publication | ||
|title=Bailleul B, Cardol P, Breyton C, Finazzi G (2010) Electrochromism: a useful probe to study algal photosynthesis. Photosynth Res 106: 179–189 | |title=Bailleul B, Cardol P, Breyton C, Finazzi G (2010) Electrochromism: a useful probe to study algal photosynthesis. Photosynth Res 106: 179–189 | ||
|info= | |info=https://pubmed.ncbi.nlm.nih.gov/20632109/ | ||
|authors=Bailleul Benjamin, Cardol Pierre, Breyton Cecile, Finazzi Giovanni | |authors=Bailleul Benjamin, Cardol Pierre, Breyton Cecile, Finazzi Giovanni | ||
|year=2010 | |year=2010 | ||
|journal=Photosynth Res | |journal=Photosynth Res | ||
|abstract=In photosynthesis, electron transfer along the photosynthetic chain results in a vectorial transfer of protons from the stroma to the lumenal space of the thylakoids. This promotes the generation of an electrochemical proton gradient (Δμ +H ), which comprises a gradient of electric potential (ΔΨ) and of proton concentration (ΔpH). The Δμ +H has a central role in the photosynthetic process, providing the energy source for ATP synthesis. It is also involved in many regulatory mechanisms. The ΔpH modulates the rate of electron transfer and triggers deexcitation of excess energy within the light harvesting complexes. The ΔΨ is required for metabolite and protein transport across the membranes. Its presence also induces a shift in the absorption spectra of some photosynthetic pigments, resulting in the so-called ElectroChromic Shift (ECS). In this review, we discuss the characteristic features of the ECS, and illustrate possible applications for the study of photosynthetic processes in vivo. | |abstract=In photosynthesis, electron transfer along the photosynthetic chain results in a vectorial transfer of protons from the stroma to the lumenal space of the thylakoids. This promotes the generation of an electrochemical proton gradient (Δμ +H ), which comprises a gradient of electric potential (ΔΨ) and of proton concentration (ΔpH). The Δμ +H has a central role in the photosynthetic process, providing the energy source for ATP synthesis. It is also involved in many regulatory mechanisms. The ΔpH modulates the rate of electron transfer and triggers deexcitation of excess energy within the light harvesting complexes. The ΔΨ is required for metabolite and protein transport across the membranes. Its presence also induces a shift in the absorption spectra of some photosynthetic pigments, resulting in the so-called ElectroChromic Shift (ECS). In this review, we discuss the characteristic features of the ECS, and illustrate possible applications for the study of photosynthetic processes in vivo. | ||
|editor=[[Huete-Ortega Maria]] | |editor=[[Huete-Ortega Maria]] | ||
}} | }} | ||
{{Labeling | |||
|area=Respiration | |||
|additional=MitoFit 2021 Dark respiration, Photosynthesis, Algae | |||
}} | |||
== Cited by == | == Cited by == | ||
{{Template:Cited by Huete-Ortega M 2021 M 2021 MitoFit Dark respiration}} | {{Template:Cited by Huete-Ortega M 2021 M 2021 MitoFit Dark respiration}} | ||
Revision as of 12:54, 1 February 2021
| Bailleul B, Cardol P, Breyton C, Finazzi G (2010) Electrochromism: a useful probe to study algal photosynthesis. Photosynth Res 106: 179–189 |
» https://pubmed.ncbi.nlm.nih.gov/20632109/
Bailleul Benjamin, Cardol Pierre, Breyton Cecile, Finazzi Giovanni (2010) Photosynth Res
Abstract: In photosynthesis, electron transfer along the photosynthetic chain results in a vectorial transfer of protons from the stroma to the lumenal space of the thylakoids. This promotes the generation of an electrochemical proton gradient (Δμ +H ), which comprises a gradient of electric potential (ΔΨ) and of proton concentration (ΔpH). The Δμ +H has a central role in the photosynthetic process, providing the energy source for ATP synthesis. It is also involved in many regulatory mechanisms. The ΔpH modulates the rate of electron transfer and triggers deexcitation of excess energy within the light harvesting complexes. The ΔΨ is required for metabolite and protein transport across the membranes. Its presence also induces a shift in the absorption spectra of some photosynthetic pigments, resulting in the so-called ElectroChromic Shift (ECS). In this review, we discuss the characteristic features of the ECS, and illustrate possible applications for the study of photosynthetic processes in vivo.
• Bioblast editor: Huete-Ortega Maria
Labels: MiParea: Respiration
MitoFit 2021 Dark respiration, Photosynthesis, Algae
Cited by
Template:Cited by Huete-Ortega M 2021 M 2021 MitoFit Dark respiration
