K
Kamel Chibani
Researcher at Bielefeld University
Publications - 27
Citations - 1459
Kamel Chibani is an academic researcher from Bielefeld University. The author has contributed to research in topics: Thioredoxin & Ferredoxin. The author has an hindex of 16, co-authored 27 publications receiving 1104 citations. Previous affiliations of Kamel Chibani include Institut national de la recherche agronomique & Swedish University of Agricultural Sciences.
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Journal ArticleDOI
The Role of the Plant Antioxidant System in Drought Tolerance.
TL;DR: The meta-analysis of reported changes in transcript and protein amounts, and activities of components of the antioxidant and redox network support the tentative conclusion that drought tolerance is more tightly linked to up-regulated ascorbate-dependent antioxidant activity than to the response of the thiol-redox regulatory network.
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Proteomic Analysis of Seed Dormancy in Arabidopsis
TL;DR: Comparative studies carried out with freshly harvested dormant and after-ripened non-dormant seeds revealed a specific differential accumulation of 32 proteins, which suggested that proteins associated with metabolic functions potentially involved in germination can accumulate duringAfter-ripening in the dry state leading to dormancy release.
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Cysteine-based redox regulation and signaling in plants.
TL;DR: This review focuses on recent advances highlighting the variety and physiological roles of the most physiologically relevant reversible redox post-translational modifications (PTMs) and the proteomic strategies used for their detection.
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Xenomic networks variability and adaptation traits in wood decaying fungi
Mélanie Morel,Mélanie Morel,Edgar Meux,Edgar Meux,Yann Mathieu,Yann Mathieu,Anne Thuillier,Anne Thuillier,Kamel Chibani,Kamel Chibani,Luc Harvengt,Jean-Pierre Jacquot,Jean-Pierre Jacquot,Eric Gelhaye,Eric Gelhaye +14 more
TL;DR: It is postulated that these rapidly evolving multigenic families could reflect the adaptation of these fungi to the diversity of their substrate and provide keys to understand their ecology.
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Comparative genomic study of the thioredoxin family in photosynthetic organisms with emphasis on Populus trichocarpa.
TL;DR: This analysis revealed that higher plants and bryophytes have a more complex family compared to algae and cyanobacteria and to non-photosynthetic organisms, since poplar exhibits 49 genes coding for typical and atypical thioredoxins andThioredoxin reductases, namely one-third more than monocots such as Oryza sativa and S. bicolor.