Yanping Guo scite author profile

Melatonin plays important roles in various aspects of biological processes. However, it is less known on the effects and mechanism of melatonin on the postharvest physiological deterioration (PPD) process of cassava, which largely restricts the potential of cassava as a food and industrial crop. In this study, we found that exogenous application of melatonin significantly delayed PPD of cassava tuberous roots by reducing H2O2 content and improving activities of catalase and peroxidase. Moreover, 3425 differentially expressed genes by melatonin during the PPD process were identified by transcriptomic analysis. Several pathways were markedly affected by melatonin treatments, including metabolic-, ion homeostasis-, and enzyme activity-related processes. Further detailed analysis revealed that melatonin acted through activation of ROS-scavenging and ROS signal transduction pathways, including antioxidant enzymes, calcium signaling, MAPK cascades, and transcription factors at early stages. Notably, the starch degradation pathway was also activated at early stages, whereas it was repressed by melatonin at middle and late stages, thereby indicating its regulatory role in starch metabolism during PPD. Taken together, this study yields new insights into the effect and underlying mechanism of melatonin on the delay of PPD and provides a good strategy for extending shelf life and improvement of cassava tuberous roots.

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Crosstalk between calcium and melatonin affects postharvest physiological deterioration and quality loss in cassava

Tie

et al. 2018

Postharvest Biology and Technology

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Effects of soil water stress on fruit yield, quality and their relationship with sugar metabolism in ‘Gala’ apple

Wang

Liu

Wang

et al. 2019

Scientia Horticulturae

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Impact of vegetation community on litter decomposition: Evidence from a reciprocal transplant study with 13 C labeled plant litter

Liu

Zhang

et al. 2017

Soil Biology and Biochemistry

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The ERF transcription factor family in cassava: genome-wide characterization and expression analyses against drought stress

Fan

Hai

Guo

et al. 2016

Sci Rep

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Cassava (Manihot esculenta) shows strong tolerance to drought stress; however, the mechanisms underlying this tolerance are poorly understood. Ethylene response factor (ERF) family genes play a crucial role in plants responding to abiotic stress. Currently, less information is known regarding the ERF family in cassava. Herein, 147 ERF genes were characterized from cassava based on the complete genome data, which was further supported by phylogenetic relationship, gene structure, and conserved motif analyses. Transcriptome analysis suggested that most of the MeERF genes have similar expression profiles between W14 and Arg7 during organ development. Comparative expression profiles revealed that the function of MeERFs in drought tolerance may be differentiated in roots and leaves of different genotypes. W14 maintained strong tolerance by activating more MeERF genes in roots compared to Arg7 and SC124, whereas Arg7 and SC124 maintained drought tolerance by inducing more MeERF genes in leaves relative to W14. Expression analyses of the selected MeERF genes showed that most of them are significantly upregulated by osmotic and salt stresses, whereas slightly induced by cold stress. Taken together, this study identified candidate MeERF genes for genetic improvement of abiotic stress tolerance and provided new insights into ERF-mediated cassava tolerance to drought stress.

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Yanping Guo

Comparative Physiological and Transcriptomic Analyses Reveal the Actions of Melatonin in the Delay of Postharvest Physiological Deterioration of Cassava

Crosstalk between calcium and melatonin affects postharvest physiological deterioration and quality loss in cassava

Effects of soil water stress on fruit yield, quality and their relationship with sugar metabolism in ‘Gala’ apple

Impact of vegetation community on litter decomposition: Evidence from a reciprocal transplant study with 13 C labeled plant litter

The ERF transcription factor family in cassava: genome-wide characterization and expression analyses against drought stress

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