干腌火腿加工环境条件下灰绿青霉中产环匹阿尼酸与基因表达的关系。

Relationship between cyclopiazonic acid production and gene expression in Penicillium griseofulvum under dry-cured ham processing environmental conditions.

机构信息

Food Hygiene and Safety, Meat and Meat Products Research Institute. Faculty of Veterinary Science, University of Extremadura, Avda. de las Ciencias, s/n, 10003, Cáceres, Spain.

Heart Clinical Unit, Virgen de la Victoria University Clinic Hospital, Institute of Biomedical Research in Malaga, IBIMA, CIBERCV, University of Málaga, Málaga, Spain.

出版信息

Mycotoxin Res. 2019 Nov;35(4):353-361. doi: 10.1007/s12550-019-00357-9. Epub 2019 Apr 10.

DOI:10.1007/s12550-019-00357-9

PMID:30972701

Abstract

Cyclopiazonic acid (CPA)-producing Penicillium griseofulvum is usually found on the dry-cured ham surface during its ripening. The objective of this work was to evaluate the effect of temperature and water activity (a) of dry-cured ham processing on growth, CPA production, and temporal relative expression of genes involved in CPA biosynthesis on dry-cured meat-based media. P. griseofulvum CECT 2919 grew faster than P. griseofulvum IBT 14319 in all conditions tested, although no growth occurred at 0.85 a. Besides, the dry-cured ham-based medium favoured CPA synthesis for both strains compared to the meat-based medium. For the strain CECT 2919, the expression of the mfs-1 and pks-nrps genes were stimulated at 0.90 and 0.95 a, respectively, while the dmaT gene expression was inhibited during the incubation time. By contrast, the strain IBT 14319 showed that the dmaT gene expression was stimulated at 0.90 a, while the pks-nrps and mfs-1 genes were repressed throughout incubation time. In conclusion, it is necessary to reduce a on the surface of the hams below 0.85 during ripening before to increase temperature to reduce growth of P. griseofulvum and CPA production. This information may be useful to design preventive and corrective actions to minimise risks associated with the presence of CPA in dry-cured ham.

摘要

环匹阿尼酸（CPA）产生的灰绿青霉通常在干腌火腿成熟过程中出现在其表面。本工作的目的是评估干腌火腿加工过程中的温度和水分活度（a）对基于干腌肉的培养基上生长、CPA 产生以及与 CPA 生物合成相关基因的时间相对表达的影响。在所有测试条件下，CECT 2919 比 IBT 14319 生长得更快，尽管在 0.85 a 时没有生长。此外，与基于肉的培养基相比，干腌火腿基培养基更有利于两种菌株的 CPA 合成。对于 CECT 2919 菌株，mfs-1 和 pks-nrps 基因的表达分别在 0.90 和 0.95 a 时受到刺激，而 dmaT 基因的表达在整个培养时间内受到抑制。相比之下，IBT 14319 菌株的 dmaT 基因表达在 0.90 a 时受到刺激，而 pks-nrps 和 mfs-1 基因在整个培养时间内受到抑制。总之，在提高温度以减少灰绿青霉生长和 CPA 产生之前，有必要在成熟过程中降低火腿表面的 a 值低于 0.85。这些信息可能有助于设计预防和纠正措施，以尽量减少干腌火腿中存在 CPA 的相关风险。

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干腌火腿加工环境条件下灰绿青霉中产环匹阿尼酸与基因表达的关系。

Relationship between cyclopiazonic acid production and gene expression in Penicillium griseofulvum under dry-cured ham processing environmental conditions.

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