Maxime Chantreau
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View article: Unraveling nitrogen uptake and metabolism: gene families, expression dynamics and functional insights in aspen ( <i>Populus tremula</i> )
Unraveling nitrogen uptake and metabolism: gene families, expression dynamics and functional insights in aspen ( <i>Populus tremula</i> ) Open
The influence of nitrogen on wood formation is well established. To gain insight into the underlying molecular mechanism, we first identified genes in 14 gene families that are involved in nitrogen uptake and metabolism in European aspen (…
View article: The chromatin-modifying protein HUB2 is involved in the regulation of lignin composition in xylem vessels
The chromatin-modifying protein HUB2 is involved in the regulation of lignin composition in xylem vessels Open
PIRIN2 (PRN2) was earlier reported to suppress syringyl (S)-type lignin accumulation of xylem vessels of Arabidopsis thaliana. In the present study, we report yeast two-hybrid results supporting the interaction of PRN2 with HISTONE MONOUBI…
View article: Evolution of self‐incompatibility in the Brassicaceae: Lessons from a textbook example of natural selection
Evolution of self‐incompatibility in the Brassicaceae: Lessons from a textbook example of natural selection Open
Self‐incompatibility (SI) is a self‐recognition genetic system enforcing outcrossing in hermaphroditic flowering plants and results in one of the arguably best understood forms of natural (balancing) selection maintaining genetic variation…
View article: Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis
Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis Open
How two-component genetic systems accumulate evolutionary novelty and diversify in the course of evolution is a fundamental problem in evolutionary systems biology. In the Brassicaceae, self-incompatibility (SI) is a spectacular example of…
View article: Author response: Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis
Author response: Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis Open
Article Figures and data Abstract Introduction Results Discussion Materials and methods Data availability References Decision letter Author response Article and author information Metrics Abstract How two-component genetic systems accumula…
View article: Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis
Asymmetrical diversification of the receptor-ligand interaction controlling self-incompatibility in Arabidopsis Open
How two-components genetic systems accumulate evolutionary novelty and become diversified in the course of evolution is a fundamental problem in evolutionary systems biology. In the Brassicaceae, self-incompatibility (SI) is a spectacular …