Oxidative Stress Response in Plants, Volume 105 covers environmental stress conditions and the accumulation of reactive oxygen species (ROS). During many stress conditions such as salt, drought, heat, and pathogen infection, changes in metabolic fluxes and alterations in enzymatic activities result in the accumulation of ROS, a major contributor to loss of growth and productivity. High levels of ROS can lead to oxidative stress which damages proteins and DNA, ultimately resulting in plant cell death. This volume provides comprehensive insights into ROS biology in plants, with a focus on plant…mehr
Oxidative Stress Response in Plants, Volume 105 covers environmental stress conditions and the accumulation of reactive oxygen species (ROS). During many stress conditions such as salt, drought, heat, and pathogen infection, changes in metabolic fluxes and alterations in enzymatic activities result in the accumulation of ROS, a major contributor to loss of growth and productivity. High levels of ROS can lead to oxidative stress which damages proteins and DNA, ultimately resulting in plant cell death. This volume provides comprehensive insights into ROS biology in plants, with a focus on plant growth and development, plant defense responses, and plant acclimation to challenging environments.
On the other hand, ROS evolves into potent signaling molecules that play crucial roles in abiotic and biotic stress sensing, integration of different environmental signals, and activation of stress-response networks, thereby contributing to the establishment of improved stress resilience.
Ron Mittler is a Professor in the Division of Plant Sciences and Technology and in the Department of Surgery, and a Bond Life Sciences Center Investigator, at the University of Missouri, Columbia. He received his Ph.D. in Biochemistry from Rutgers University, New Jersey, USA in 1993. His research is focused on reactive oxygen species metabolism and signaling in plant and animal cells, systemic responses of plants to stress, cancer biology, and stress combination. He discovered the ROS wave and pioneered research on stress combination in plants. Ron Mittler published over 180 peer-reviewed publications (h index=92) and is a Biochemistry Subject Editor in Physiologia Plantarum, an Advisory Editorial Board member in Trends in Plant Science, and an Editor in The Plant Journal.
Inhaltsangabe
Preface
Ron Mittler, and Frank Van Breusegem
1. Singlet oxygen in plants: From genesis to signaling
Mengping Li, and Chanhong Kim
2. Hydrogen peroxide in plants
Amna Mhamdi
3. The ascorbate/glutathione cycle
Karl Josef Kunert and Christine HelenFoyer
4. Regulation of leaf development through the modulation of ROS homeostasis
Jos H.M. Schippers
5.Multiple roles of ROS in flowering plant reproduction
Liang-Zi Zhou, and Thomas Dresselhaus
6. ROS in seed germination
Christophe Bailly
7. ROS metabolism and ripening of fleshy fruits
Francisco J. Corpas, Luciano Freschi, and José M. Palma
8. Reactive oxygen species (ROS) in mycorrhizal fungi and symbiotic interactions with plants
Maaria Rosenkranz, Huili Shi, Johannes Ballauff, Jörg-Peter Schnitzler, and Andrea Polle
9. Systemic acquired acclimation, network acquired acclimation and cellular light memory in plants - Molecular, biochemical, and physiological mechanisms
Stanislaw Karpinski, and Magdalena Szechynska-Hebda
10. Plant aquaporins: crossroads of hydrogen peroxide signaling