Biostimulant activity of seaweed extracts against water deficit stress in tomato seedlings involves activation of ABA signaling.

Water scarcity is a serious constraint for agriculture, and global warming and climate change can exacerbate it in many areas. Therefore, sustainable approaches must be implemented to deal with current and future water scarcity scenarios. Genetic and chemical approaches are being applied to manage this limitation and maintain crop yields.

A Beginner's Guide to Osmoprotection by Biostimulants.

Water is indispensable for the life of any organism on Earth. Consequently, osmotic stress due to salinity and drought is the greatest threat to crop productivity. Ongoing climate change includes rising temperatures and less precipitation over large areas of the planet.

Molecular analysis of menadione-induced resistance against biotic stress in Arabidopsis.

Menadione sodium bisulphite (MSB) is a water-soluble derivative of vitamin K3, or menadione, and has been previously demonstrated to function as a plant defence activator against several pathogens in several plant species. However, there are no reports of the role of this vitamin in the induction of resistance in the plant model Arabidopsis thaliana. In the current study, we demonstrate that MSB induces resistance by priming in Arabidopsis against the virulent strain Pseudomonas syringae pv.

Enhanced carnosic acid levels in two rosemary accessions exposed to cold stress conditions.

Two rosemary accessions were subjected to chilling temperatures in control environmental cabins analyzing their variations in rosmarinic and carnosic acids together with their adaptability to these stress conditions. Cold stressed plants of both accessions showed increases in caffeic acid and carnosic acid concentration levels, while other secondary metabolites such as rosmarinic acid, naringin, cirsimaritin, hispidulin, and carnosol showed different responses in both accessions. In addition, cold stressed plants exhibited significant reductions in chlorophylls, beta-carotene, and violaxanthin levels as well as the maximum quantum yield of PSII in both accessions.

Dimerization of ferulic and caffeic acids by purified peroxidase isolated from Bupleurum salicifolium callus culture.

A novel peroxidase that catalyses the transformation of caffeic acid and ferulic acid via oxidative coupling was purified from callus cultures of Bupleurum salicifolium petioles. The enzyme, which was purified over 2,900-fold, is a glycoprotein with a molecular weight of 38,000, determined by SDS/PAGE and gel filtration. The K(m) values obtained were 2.