Sebastien Baud
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Explore the profile of Sebastien Baud including associated specialties, affiliations and a list of published articles.
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41
Citations
2693
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Recent Articles
1.
Miray R, Kazaz S, To A, Baud S
Plant J
. 2025 Mar;
121(5):e70038.
PMID: 40028701
In angiosperm seeds, the relative proportions of the two zygotic tissues vary considerably from species to species. In many field-grown oilseed species, and in those of the model species Arabidopsis...
2.
Bianchetti G, Clouet V, Legeai F, Baron C, Gazengel K, Ly Vu B, et al.
Physiol Plant
. 2024 Jun;
176(1):e14130.
PMID: 38842416
In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the 'Express' genotype of oilseed rape...
3.
Baud S, Corso M, Debeaujon I, Dubreucq B, Job D, Marion-Poll A, et al.
C R Biol
. 2023 Feb;
345(4):61-110.
PMID: 36847120
Elucidating the mechanisms that control seed development, metabolism, and physiology is a fundamental issue in biology. Michel Caboche had long been a catalyst for seed biology research in France up...
4.
Kazaz S, Miray R, Lepiniec L, Baud S
Prog Lipid Res
. 2021 Nov;
85:101138.
PMID: 34774919
Monounsaturated fatty acids are straight-chain aliphatic monocarboxylic acids comprising a unique carbon‑carbon double bond, also termed unsaturation. More than 50 distinct molecular structures have been described in the plant kingdom,...
5.
Kazaz S, Miray R, Baud S
Cells
. 2021 Apr;
10(3).
PMID: 33803674
Interactions between land plants and other organisms such as pathogens, pollinators, or symbionts usually involve a variety of specialized effectors participating in complex cross-talks between organisms. Fatty acids and their...
6.
Miray R, Kazaz S, To A, Baud S
Int J Mol Sci
. 2021 Feb;
22(4).
PMID: 33562710
In angiosperm seeds, the endosperm develops to varying degrees and accumulates different types of storage compounds remobilized by the seedling during early post-germinative growth. Whereas the molecular mechanisms controlling the...
7.
Ye Y, Nikovics K, To A, Lepiniec L, Fedosejevs E, Van Doren S, et al.
Nat Commun
. 2020 Dec;
11(1):6191.
PMID: 33273474
In plants, light-dependent activation of de novo fatty acid synthesis (FAS) is partially mediated by acetyl-CoA carboxylase (ACCase), the first committed step for this pathway. However, it is not fully...
8.
Kazaz S, Barthole G, Domergue F, Ettaki H, To A, Vasselon D, et al.
Plant Cell
. 2020 Sep;
32(11):3613-3637.
PMID: 32958563
The spatiotemporal pattern of deposition, final amount, and relative abundance of oleic acid (-ω-9 C18:1) and its derivatives in the different lipid fractions of the seed of Arabidopsis () indicates...
9.
To A, Joubes J, Thueux J, Kazaz S, Lepiniec L, Baud S
Plant J
. 2020 Apr;
103(2):660-676.
PMID: 32246506
Acyl lipids are important constituents of the plant cell. Depending on the cell type, requirements in acyl lipids vary greatly, implying a tight regulation of fatty acid and lipid metabolism....
10.
Ayme L, Arragain S, Canonge M, Baud S, Touati N, Bimai O, et al.
Sci Rep
. 2018 Nov;
8(1):17254.
PMID: 30467384
Acyl-CoA:diacylglycerol acyltransferases 3 (DGAT3) are described as plant cytosolic enzymes synthesizing triacylglycerol. Their protein sequences exhibit a thioredoxin-like ferredoxin domain typical of a class of ferredoxins harboring a [2Fe-2S] cluster....