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Comparative transcriptomic analysis reveals the reactive oxygen species metabolism involving in melatonin-alleviated chilling injury in postharvest banana fruit.

Plant physiology and biochemistry : PPB
February 23, 2025
Yanting Wu et al. (8 authors)
Journal ArticleMolecular Study
Study Details

Study Goal

The researchers aimed to determine whether melatonin could alleviate chilling injury (CI) and influence reactive oxygen species (ROS) metabolism in postharvest bananas during cold storage.

Results Summary

Melatonin treatment (500 μmol L-1) effectively reduced chilling injury, lowered ROS levels, enhanced antioxidant content, and modulated gene expression related to antioxidant enzymes and ROS production in bananas.

Population

Postharvest banana fruit (in vitro study).

Effective Dosage

500 μmol L-1 melatonin.

Duration

96 hours (4 days).

Interactions

None mentioned.

Extracted Claims (8)
InterventionDirectionEndpointPopulationDosageImpactClaim #
500 μmol L-1 melatonin treatment
decrease
CI development
cold-stored banana fruit
-
effectively inhibited
#1
melatonin treatment
decrease
O2.- productive rate
banana fruit
-
lower
#2
melatonin treatment
decrease
H2O2 content
banana fruit
-
lower
#3
melatonin treatment
increase
ascorbic acid (AsA)
banana fruit
-
higher contents
#4
melatonin treatment
increase
glutathione (GSH)
banana fruit
-
higher contents
#5
melatonin
increase
antioxidant enzymes
banana fruit
-
inhibited the declined activities
#6
melatonin treatment
increase
antioxidant enzyme genes (MaSOD, MaCAT, MaAPX and MaGR)
banana fruit
-
improved the expressions
#7
melatonin treatment
decrease
ROS production gene (MaRBOH)
banana fruit
-
inhibited the expression
#8
Abstract

Banana fruit is susceptible to chilling injury (CI) during cold storage, which causes quality deterioration and commodity value decline. Here, the effects of melatonin on CI alleviation and reactive oxygen species (ROS) metabolism in postharvest banana were studied. The results displayed that 500 μmol L-1 melatonin treatment effectively inhibited CI development in cold-stored banana during the 96 h of storage. Additionally, lower O2.- productive rate and H2O2 content, but higher contents of ascorbic acid (AsA) and glutathione (GSH) were found in melatonin-treated banana, compared with control fruits. Also, melatonin inhibited the declined activities of antioxidant enzymes. Moreover, a total of 1858 and 330 differentially expressed genes (DEGs) were identified between the comparison of CK48h (control bananas at 48 h) and MT48h (melatonin-treated bananas at 48 h), and CK96h (control bananas at 96 h) and MT96h (melatonin-treated bananas at 96 h) through comparative transcriptome analysis of banana fruit, respectively. Further KEGG displayed that DEGs were enriched in secondary metabolites biosynthesis, MAPK signaling pathway-plant and plant hormone signal transduction. The transcriptome expression profiling and RT-qPCR exhibited melatonin treatment improved the expressions of antioxidant enzyme genes (MaSOD, MaCAT, MaAPX and MaGR) but inhibited the expression of ROS production gene (MaRBOH). Collectively, these findings provide a comprehensive view of ROS metabolism associated with the melatonin-alleviated CI in cold-stored banana fruit.

Study Links
Quality Scores
SafetyNot Assessed
Efficacy85/10
Quality75/10
Research Impact Scores
APT Score0.05
Weight Score1.25
Normalized Score0.69
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