Explore ARCs

This repository is intended for testing purposes only.

In the present study we aimed at the highest possible resolution of this network by combining analysis of transcriptome, proteome and subcellularly resolved metabolome of plants that were exposed to rising carbon dioxide concentrations over a time course of one week.

Oxa was applied to human cells and checked for antifibrotic effects

Arabidopsis molecular responses (transcript, metabolite) to single, double, and triple combinations of salt, osmotic, and heat stresses.

Physiology, biochemistry and anatomy of young fully developed leaves from Brassicaceae species with C3 and C3-C4 (C2) photosynthesis