Molecular and chemical evaluation of patulin production of Aspergillus and Penicillium-like species isolated from Hungarian apples.

IF 2.3 3区农林科学 Q2 CHEMISTRY, APPLIED

Food Additives and Contaminants Part A-chemistry Analysis Control Exposure & Risk Assessment Pub Date : 2024-08-01 Epub Date: 2024-06-24 DOI:10.1080/19440049.2024.2364364

Ildikó Bata-Vidács, Emelin Leandro Rodrigues, Judit Kosztik, Ákos Tóth, Zsolt Zalán, Olívia Csernus, József Kukolya

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引用次数: 0

Abstract

Mycotoxins are secondary fungal metabolites harmful to humans and animals. Patulin (PAT) is a toxin found in different food products but especially in apples and their derivative products. The most common fungi producers of this compound are Aspergillus clavatus and Penicillium expansum. The production of patulin, as other mycotoxins, can be impacted by diverse phenomena such as water and nutrient availability, UV exposure, and the presence of antagonistic organisms. Consequently, gaining a comprehensive understanding of climate and environmental conditions is a crucial step in combating patulin contamination. In this study, moulds were isolated from 40 apple samples collected from seven locations across Hungary: Csenger, Damak, Pallag, Lövőpetri, Nagykálló, and Újfehértó. A total of 183 moulds were morphologically identified, with 67 isolates belonging to the Alternaria, 45 to the Aspergillus, and 13 to the Penicillium groups. The location possessed a higher influence than farming method on the distribution of mould genera. Despite the requirement of higher temperature, Aspergillus species dominated only for the region of Újfehértó with approximately 50% of the isolates belonging to the genus. Four of the seven locations assessed: Csenger, Debrecen-Pallag, Nyírtass and Nagykálló, were dominated by Alternaria species. All isolates belonging to the genera Aspergillus and Penicillium were tested for the presence of the isoepoxidone dehydrogenase (idh) gene, a key player in the patulin metabolic pathway. To guarantee patulin production, this ability was confirmed with TLC assays. The only Aspergillus strain that presented a positive result was the strain Aspergillus clavatus B9/6, originated from the apple cultivar Golden Reinders grown in Debrecen-Pallag by integrated farming. Of the Penicillium isolates only one strain, B10/6, presented a band of the right size (500-600 bp) for the idh gene. Further sequencing of the ITS gene showed that this strain should be classified as Talaromyces pinophilus. The TLC tests confirmed this microorganism as the only patulin producer under the studied conditions for its cluster.

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对从匈牙利苹果中分离出的曲霉和类青霉产生的棒曲霉素进行分子和化学评估。

霉菌毒素是对人类和动物有害的次生真菌代谢物。棒曲霉素（PAT）是一种存在于不同食品中的毒素，尤其存在于苹果及其衍生产品中。这种化合物最常见的真菌是黄曲霉和扩张青霉。和其他霉菌毒素一样，棒曲霉素的产生也会受到多种因素的影响，如水分和养分的供应、紫外线照射以及拮抗生物的存在等。因此，全面了解气候和环境条件是应对棒曲霉素污染的关键一步。在这项研究中，从匈牙利七个地方收集的 40 份苹果样本中分离出了霉菌：Csenger、Damak、Pallag、Lövőpetri、Nagykálló 和 Újfehértó。经形态鉴定，共有 183 种霉菌，其中 67 种属于交替孢霉属，45 种属于曲霉属，13 种属于青霉属。对霉菌属分布的影响，地点比耕作方法更大。尽管需要较高的温度，但曲霉属仅在Újfehértó地区占主导地位，约 50%的分离物属于该属。在评估的七个地点中，有四个地点Csenger、Debrecen-Pallag、Nyírtass 和 Nagykálló 均以 Alternaria 菌属为主。对属于曲霉属和青霉属的所有分离物进行了异环氧酮脱氢酶（idh）基因检测，该基因是棒曲霉素代谢途径中的一个关键环节。为确保产生棒曲霉素，还通过 TLC 分析确认了这种能力。唯一呈现阳性结果的曲霉菌株是 Clavatus B9/6 曲霉菌株，该菌株来自德布勒森-帕拉格（Debrecen-Pallag）通过综合耕作种植的苹果栽培品种 Golden Reinders。在青霉分离物中，只有一个菌株（B10/6）的 idh 基因条带大小合适（500-600 bp）。对 ITS 基因的进一步测序表明，这株菌株应归类为嗜酸 Talaromyces。TLC 测试证实，在所研究的条件下，该微生物是其群组中唯一产生棒曲霉素的微生物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Food Additives and Contaminants Part A-chemistry Analysis Control Exposure & Risk Assessment CHEMISTRY, APPLIED-FOOD SCIENCE & TECHNOLOGY

CiteScore

7.40

自引率

6.90%

发文量

136

审稿时长

3 months

期刊介绍： Food Additives & Contaminants: Part A publishes original research papers and critical reviews covering analytical methodology, occurrence, persistence, safety evaluation, detoxification and regulatory control of natural and man-made additives and contaminants in the food and animal feed chain. Papers are published in the areas of food additives including flavourings, pesticide and veterinary drug residues, environmental contaminants, plant toxins, mycotoxins, marine biotoxins, trace elements, migration from food packaging, food process contaminants, adulteration, authenticity and allergenicity of foods. Papers are published on animal feed where residues and contaminants can give rise to food safety concerns. Contributions cover chemistry, biochemistry and bioavailability of these substances, factors affecting levels during production, processing, packaging and storage; the development of novel foods and processes; exposure and risk assessment.