Stefano Caffarri
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Explore the profile of Stefano Caffarri including associated specialties, affiliations and a list of published articles.
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44
Citations
1499
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Recent Articles
1.
Leschevin M, Ksas B, Baltenweck R, Hugueney P, Caffarri S, Havaux M
Plant J
. 2024 Nov;
120(6):2536-2552.
PMID: 39506623
Arabidopsis plants were grown in white light (400-700 nm) or in white light supplemented with far-red (FR) light peaking at 730 nm. FR-enriched light induced the typical shade avoidance syndrome...
2.
Charras Q, Rey P, Guillemain D, Dourguin F, Laganier H, Peschoux S, et al.
Plant Methods
. 2024 Mar;
20(1):38.
PMID: 38468328
Background: The extraction of thylakoids is an essential step in studying the structure of photosynthetic complexes and several other aspects of the photosynthetic process in plants. Conventional protocols have been...
3.
Nguyen H, Do T, Zhong K, Akhtar P, Jansen T, Knoester J, et al.
Sci Adv
. 2024 Feb;
10(8):eadh0911.
PMID: 38394196
Photosystem II (PSII) is an integral part of the photosynthesis machinery, in which several light-harvesting complexes rely on inter-complex excitonic energy transfer (EET) processes to channel energy to the reaction...
4.
Do T, Nguyen H, Akhtar P, Zhong K, Jansen T, Knoester J, et al.
J Phys Chem Lett
. 2022 May;
13(19):4263-4271.
PMID: 35522529
We measure the two-dimensional electronic spectra of the LHCII(M)-CP29-CP24 complex in photosystem II (PSII) and provide the first study of the ultrafast excitation energy transfer (EET) processes of an asymmetric...
5.
Do T, Nguyen H, Caffarri S, Tan H
J Chem Phys
. 2022 Apr;
156(14):145102.
PMID: 35428399
Using two-dimensional electronic spectroscopy, we measured the Q to Q transfer dynamics of the chlorophyll a (Chl a) manifold in the photosystem II (PSII) monomeric core complex from Arabidopsis thaliana....
6.
Romand S, Abdelkefi H, Lecampion C, Belaroussi M, Dussenne M, Ksas B, et al.
Elife
. 2022 Feb;
11.
PMID: 35156611
Guanosine pentaphosphate and tetraphosphate (together referred to as ppGpp) are hyperphosphorylated nucleotides found in bacteria and the chloroplasts of plants and algae. In plants and algae artificial ppGpp accumulation can...
7.
Ksas B, Alric J, Caffarri S, Havaux M
Photosynth Res
. 2022 Jan;
152(1):43-54.
PMID: 35000138
Arabidopsis plants were grown from seeds at different photon flux densities (PFDs) of white light ranging from 65 to 800 µmol photons m s. Increasing PFD brought about a marked...
8.
Chazaux M, Schiphorst C, Lazzari G, Caffarri S
Plant J
. 2021 Dec;
109(6):1630-1648.
PMID: 34932254
The precise determination of photosynthetic pigment content in green organisms, chlorophylls (Chls) and carotenoids (Cars), is important to investigate many photosynthetic processes such as responses to environmental fluctuations or to...
9.
PsbS contributes to photoprotection in Chlamydomonas reinhardtii independently of energy dissipation
Redekop P, Rothhausen N, Rothhausen N, Melzer M, Mosebach L, Dulger E, et al.
Biochim Biophys Acta Bioenerg
. 2020 Mar;
1861(5-6):148183.
PMID: 32173384
Photosynthetic organisms are frequently exposed to excess light conditions and hence to photo-oxidative stress. To counteract photo-oxidative damage, land plants and most algae make use of non- photochemical quenching (NPQ)...
10.
Crepin A, Kucerova Z, Kosta A, Durand E, Caffarri S
Plant J
. 2019 Dec;
102(2):398-409.
PMID: 31811681
The biological conversion of light energy into chemical energy is performed by a flexible photosynthetic machinery located in the thylakoid membranes. Photosystems I and II (PSI and PSII) are the...