Plant Direct (Jul 2018)

Salt and oxidative stresses uniquely regulate tomato cytokinin levels and transcriptomic response

  • Erika A. Keshishian,
  • H. Tucker Hallmark,
  • Thiruvarangan Ramaraj,
  • Lenka Plačková,
  • Anitha Sundararajan,
  • Faye Schilkey,
  • Ondřej Novák,
  • Aaron M. Rashotte

DOI
https://doi.org/10.1002/pld3.71
Journal volume & issue
Vol. 2, no. 7
pp. n/a – n/a

Abstract

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Abstract Cytokinins are well‐known to be involved in processes responsible for plant growth and development. More recently, these hormones have begun to be associated with stress responses as well. However, it is unclear how changes in cytokinin biosynthesis, signaling, or transport relate to stress effects. This study examines in parallel how two different stresses, salt, and oxidative stress, affect changes in both cytokinin levels and whole plant transcriptome response. Solanum lycopersicum seedlings were given a short‐term (6 hr) exposure to either salt (150 mM NaCl) or oxidative (20 mM H2O2) stress and then examined to determine both changes in cytokinin levels and transcriptome. LC‐MS/MS was used to determine the levels of 22 different types of cytokinins in tomato plants including precursors, active, transported, and conjugated forms. When examining cytokinin levels we found that salt treatment caused an increase in both active and inactive cytokinin levels and oxidative stress caused a decrease in these levels. RNA‐sequencing analyses of these same stress‐treated tissues revealed 6,643 significantly differentially expressed genes (DEGs). Although many DEGs are similar between the two stresses, approximately one‐third of the DEGs in each treatment were unique to that stress. Several cytokinin‐related genes were among the DEGs. Examination of photosystem II efficiency revealed that cytokinins affect physiological response to stress in tomato, further validating the changes in cytokinin levels seen in planta.

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