Chaolan Li scite author profile

The effect of ascorbic acid (VC) on improving oxidative stress tolerance of Pichia caribbica and biocontrol efficacy against blue mold caused by Penicillium expansum on apples was investigated. P. caribbica showed susceptibility to the oxidative stress in vitro test, and 250 μg/mL VC treatment improved its oxidative stress tolerance. The higher viability exhibited by VC-treated yeast was associated with a lower intracellular ROS level. The activities of antioxidant enzymes of P. caribbica were improved by VC treatment, including catalase (CAT), superoxide dismutase (SOD), and glutathione peroxidase (GPX). Additionally, VC-treated yeast exhibited greater biocontrol activity against P. expansum and faster growth when stored at 25 and 4 °C, respectively, compared to the performance of the non-VC-treated yeast. In response to the VC treatment under oxidative stress, several differentially expressed proteins were identified in P. caribbica, and most of the poteins were confirmed to be related to basic metabolism. Therefore, the application of ascorbic acid is a useful approach to improve oxidative stress tolerance of P. caribbica and its biocontrol efficacy on apples.

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The biocontrol effect of Sporidiobolus pararoseus Y16 against postharvest diseases in table grapes caused by Aspergillus niger and the possible mechanisms involved

et al. 2017

Biological Control

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Biological Control of Patulin by Antagonistic Yeast: A case study and possible model

Mahunu

Zhang

Yang

et al. 2015

Critical Reviews in Microbiology

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The occurrence of patulin in fresh apples and apple products is a great burden from health, safety and economic perspectives. Attempts to prevent patulin accumulation in fruits might lead to the excessive use of fungicides. Therefore, guaranteeing the safety of apple foods is crucial for the international apple industry. Recently, literature revealed that application of antagonistic yeasts and other BCAs have been able to disrupt the process of fungal infection and patulin production in apples. Although, over the years the effect of interaction between BCAs and fungi on patulin production has been reported, the exact mechanism(s) of their action remain unclear. Here, the review focused on toxicology and occurrence of PAT; research advances made over the past few years on the interaction between antagonistic yeast, fruits and patulin-producing fungi; the prevalence of patulin in apple fruits and products and the implications of synthetic-fungicide applications. In addition, attention was focused on the mechanism(s) and the enhancement of the biocontrol efficacy of antagonistic for patulin control.

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Antioxidative enzymes and substances involve in the activity of improving the oxidative tolerance of Pichia caribbica by ascorbic acid

Yang

Li²,

et al. 2017

Biological Control

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A novel method of FECG extraction combined self-correlation analysis with ICA

Fang

et al. 2016

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Chaolan Li

Ascorbic Acid Enhances Oxidative Stress Tolerance and Biological Control Efficacy of Pichia caribbica against Postharvest Blue Mold Decay of Apples

The biocontrol effect of Sporidiobolus pararoseus Y16 against postharvest diseases in table grapes caused by Aspergillus niger and the possible mechanisms involved

Biological Control of Patulin by Antagonistic Yeast: A case study and possible model

Antioxidative enzymes and substances involve in the activity of improving the oxidative tolerance of Pichia caribbica by ascorbic acid

A novel method of FECG extraction combined self-correlation analysis with ICA

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