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SlIAA9 Mutation Maintains Photosynthetic Capabilities under Heat-Stress Conditions.

Bayu Pradana Nur RahmatGrace OctavianisRahmat BudiartoNurul JadidAni WidiastutiDeden Derajat MatraHiroshi EzuraSyariful Mubarok
Published in: Plants (Basel, Switzerland) (2023)
Tomato is one of the most widely consumed horticultural products. However, tomato is very sensitive to changes in temperature. Daily average temperatures above 32 °C severely reduced tomato plant growth, development, and productivity. Therefore, climate change-induced global warming is a major threat to future tomato production. Good photosynthetic capability under heat stress conditions is known to be a major sign of heat tolerance. Tomato INDOLE-ACETIC-ACID (SlIAA9 ) is a transcriptional repressor in auxin signaling. SlIAA9 mutation caused heightened endogenous auxin response and biosynthesis within plant tissues. In this study, we studied the photosynthetic capability of iaa9-3 and iaa9-5 mutants under heat-stress conditions. We discovered that both iaa9-3 and iaa9-5 could maintain their photosynthetic capability after 14 days of heat treatment (>40 °C), differing from Wild Type-Micro-Tom (WT-MT) tomato. Both iaa9 mutants had higher net photosynthetic rate, stomatal conductance, leaf total chlorophyll, leaf carotenoids, Fv/Fm value, and lower leaf MDA than WT-MT. These results suggested that the SlIAA9 mutation benefits plant adaptation to heat stress.
Keyphrases
  • heat stress
  • heat shock
  • climate change
  • wild type
  • plant growth
  • gene expression
  • physical activity
  • risk assessment
  • drug induced
  • cell wall
  • breast cancer cells
  • human health
  • stress induced
  • pi k akt