Molecular Characterization of Aspergillus flavus Strains Isolated from Animal Feeds.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Hadjer Saber, Yahia Chebloune, Abdallah Moussaoui
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引用次数: 1

Abstract

Aflatoxin (AF)-producing fungi such as Aspergillus flavus commonly contaminate animal feeds, causing high economic losses. A. flavus is the most prevalent and produces AFB1, a potent mutagen, and carcinogen threatening human and animal health. Aspergillaceae is a large group of closely related fungi sharing number of morphological and genetic similarities that complicate the diagnosis of highly pathogenic strains. We used here morphological and molecular assays to characterize fungal isolates from animal feeds in Southwestern Algeria. These tools helped to identify 20 out of 30 Aspergillus strains, and 15 of them belonged to the Aspergillus section Flavi. Further analyses detected four out of 15 as belonging to Aspergillus flavus-parasiticus group. PCR targeting the AF genes' aflR-aflS(J) intergenic region amplified a single 674 bp amplicon in all four isolates. The amplicons were digested with a BglII endonuclease, and three specific fragments were observed for A. flavus but A. parasitucus lacked two typical fragments. Sequencing data of four amplicons confirmed the presence of the two BglII restriction sites yielding the three fragments, confirming that all four strains were A. flavus. In addition, this analysis illustrated the genetic variability within the A. flavus strains.

Abstract Image

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Abstract Image

动物饲料中黄曲霉分离株的分子特性研究。
产生黄曲霉毒素(AF)的真菌,如黄曲霉,通常污染动物饲料,造成巨大的经济损失。黄曲霉是最普遍的,产生AFB1,一种强效诱变剂和致癌物,威胁人类和动物的健康。曲霉科是一大类密切相关的真菌,具有许多形态和遗传相似性,这使高致病性菌株的诊断复杂化。我们在这里使用形态学和分子分析来表征阿尔及利亚西南部动物饲料中分离的真菌。这些工具帮助鉴定了30株曲霉中的20株,其中15株属于黄曲霉科。进一步的分析发现15只真菌中有4只属于黄曲霉-寄生菌群。针对AF基因aflR-aflS(J)基因间区的PCR扩增出单个674 bp的扩增子。用BglII内切酶对扩增子进行酶切,发现黄芽孢杆菌有3个特异性片段,而寄生芽孢杆菌缺少2个典型片段。4个扩增子的测序数据证实了产生这3个片段的两个BglII酶切位点的存在,证实了这4个菌株都是黄芽孢杆菌。此外,这一分析说明了黄曲霉菌株之间的遗传变异性。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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