Project description:To elucidate a mechanism for drought adaptation of Nostoc flagelliforme, we performed a global phosphoproteome analysis on the abundance of phosphoproteinse. A total of 329 phosphopeptides from 271 phosphoproteins with 1168 phosphorylation sites were identified. The identified DEPPs were functionally categorized to be mainly involved in a two-component signaling pathway, photosynthesis, energy and carbohydrate metabolism, and an antioxidant system.
Project description:Nostoc flagelliforme is able to recover biological activities within hours from months of anhydrobiosis state. In this work, we first constructed a smORF database, and analyzed the proteome of N. flagelliforme over rehydration.
