Special Issue on “fruit metabolism and metabolomics”

Over the past 10 years, knowledge about several aspects of fruit metabolism has been greatly improved. Notably, high-throughput metabolomic technologies have allowed quantifying metabolite levels across various biological processes, and identifying the genes that underly fruit development and ripening. This Special Issue is designed to exemplify the current use of metabolomics studies of temperate and tropical fruit for basic research as well as practical applications. It includes articles about different aspects of fruit biochemical phenotyping, fruit metabolism before and after harvest, including primary and specialized metabolisms, and bioactive compounds involved in growth and environmental responses. The effect of genotype, stages of development or fruit tissue on metabolomic profiles and corresponding metabolism regulations are addressed, as well as the combination of other omics with metabolomics for fruit metabolism studies. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.partly funded by MetaboHUB (ANR‐11‐INBS‐0010) and PHENOME (ANR‐11‐ INBS‐0012) French Agence Nationale de la Recherche projects. S.O. was parcially supported by grants RTI2018‐ 099797‐B‐100 (Ministerio de ciencia, Innovación y Universidades, Spain) and UMA18‐DEDERJA‐179 (Consejería de Economía, Conocimiento, Empresas y Universidades, Junta de Andalucía, Spain).Peer reviewe

Special Issue on “fruit metabolism and metabolomics”

Over the past 10 years, knowledge about several aspects of fruit metabolism has been greatly improved. Notably, high-throughput metabolomic technologies have allowed quantifying metabolite levels across various biological processes, and identifying the genes that underly fruit development and ripening. This Special Issue is designed to exemplify the current use of metabolomics studies of temperate and tropical fruit for basic research as well as practical applications. It includes articles about different aspects of fruit biochemical phenotyping, fruit metabolism before and after harvest, including primary and specialized metabolisms, and bioactive compounds involved in growth and environmental responses. The effect of genotype, stages of development or fruit tissue on metabolomic profiles and corresponding metabolism regulations are addressed, as well as the combination of other omics with metabolomics for fruit metabolism studies. © 2020 by the authors. Licensee MDPI, Basel, Switzerland.partly funded by MetaboHUB (ANR‐11‐INBS‐0010) and PHENOME (ANR‐11‐ INBS‐0012) French Agence Nationale de la Recherche projects. S.O. was parcially supported by grants RTI2018‐ 099797‐B‐100 (Ministerio de ciencia, Innovación y Universidades, Spain) and UMA18‐DEDERJA‐179 (Consejería de Economía, Conocimiento, Empresas y Universidades, Junta de Andalucía, Spain).Peer reviewe

More to NAD(+) than meets the eye: A regulator of metabolic pools and gene expression in Arabidopsis

UMR BFP - Equipe MétabolismeInternational audienceSince its discovery more than a century ago, nicotinamide adenine dinucleotide (NAD+) is recognised as a fascinating cornerstone of cellular metabolism. This ubiquitous energy cofactor plays vital roles in metabolic pathways and regulatory processes, a fact emphasised by the essentiality of a balanced NAD+ metabolism for normal plant growth and development. Research on the role of NAD in plants has been predominantly carried out in the model plant Arabidopsis thaliana (Arabidopsis) with emphasis on the redox properties and cellular signalling functions of the metabolite. This review examines the current state of knowledge concerning how NAD can regulate both metabolic pools and gene expression in Arabidopsis. Particular focus is placed on recent studies highlighting the complexity of metabolic regulations involving NAD, more particularly in the mitochondrial compartment, and of signalling roles with respect to interactions with environmental fluctuations most specifically those involving plant immunity