Mickaël Durand

TL;DR: Current knowledge about the phloem transport mechanisms is summarized and the effects of several abiotic (water and salt stress, mineral deficiency, CO2, light, temperature, air, and soil pollutants) and biotic andmutualistic and pathogenic microbes, viruses, aphids, and parasitic plants are reviewed.

TL;DR: Comparisons of sucrose transporter gene expression, soluble sugar and starch levels and long distance sucrose transport, in leaves and sink organs in different physiological conditions (along the plant life cycle, during a diel cycle, and during an osmotic stress) in plants grown hydroponically suggest that source-to-sink relationship may be linked with the regulation of Sucrose transporterGene expression.

TL;DR: In this article , the authors characterized NLP2 as a master upstream transcriptional regulator of early nitrate responses that interacts with NLP7 in vivo and shared key molecular features such as nitrate-dependent nuclear localization, a DNA binding motif, and some target genes with nLP7.

TL;DR: The role of NLP6 and NLP7 in the primary nitrate response (PNR) was investigated in this article, where the authors showed that the role of nlp6 and nlp7 was independent of each other.

TL;DR: Key bacterial taxa that help to ensure plant growth and health colonized the rhizo- and endosphere compartments in both systems gave some clues for future research programs and selection of efficient root systems with the use of such specific culture devices.