应对手工皮科奶酪生产中的质量、安全和可持续性挑战：蛋白水解指标、葡萄球菌和乳清增值

Addressing Quality, Safety, and Sustainability Challenges in Artisanal Pico Cheese Production: Proteolysis Indexes, Staphylococci, and Whey Valorization.

作者信息

Câmara Sandra P A, Maduro Dias Cristiana, Nunes Hélder P B, Martin Raphael, Pimentel Francisca, Gomes Júlia V, Silveira Maria da Graça A, Rosa Henrique J D, Dapkevicius Airidas, Borba Alfredo E S, Dapkevicius Maria de Lurdes N E

机构信息

Institute of Agricultural and Environmental Research and Technology (IITA-A), University of the Azores, Rua Capitão João d'Ávila, Pico da Urze, 9700-042 Angra do Heroísmo, Portugal.

Faculty of Agricultural and Environmental Sciences, University of the Azores, 9700-042 Angra do Heroísmo, Portugal.

出版信息

Foods. 2025 Apr 24;14(9):1487. doi: 10.3390/foods14091487.

DOI:10.3390/foods14091487

PMID:40361570

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12071904/

Abstract

Artisanal cheeses face unique challenges due to changes in the present approaches to food safety, health, and environmental sustainability. This work aims at tackling such challenges in Pico cheese, by addressing outdated PDO criteria, the need to tackle coagulase-positive staphylococci (CoPS) and to promote circular economy by upgrading cheese whey. Model raw- and pasteurized milk cheeses were prepared with autochthonous lactic acid bacteria (LAB) as inoculants and analyzed for their composition, proteolysis, and microbiological parameters. CoPS were isolated and the risks they pose in terms of One Health evaluated by assessing phenotypic virulence factors and antibiotic resistance patterns. To assess the potential of autochthonous LAB for controlling CoPS, a challenge test was performed. Probiotic was prepared using autochthonous LAB as inoculants for upgrading whey. This work confirmed the need to update Pico cheese specifications regarding proteolysis indexes. Biofilm production was present in all Pico cheese CoPS, but resistance was only found against penicillin and cefoxitin. Adding salt or extending maturation time up to 60 days did not afford the desired level of CoPS control. L1C21M1, however, was able to keep CoPS populations at 3 log cfu g in the challenge test. was a suitable substrate for probiotic autochthonous L3A21M1 and L3B1M7.

摘要

由于当前食品安全、健康和环境可持续性方法的变化，手工奶酪面临着独特的挑战。这项工作旨在应对皮科奶酪中的此类挑战，通过解决过时的原产地保护（PDO）标准、应对凝固酶阳性葡萄球菌（CoPS）的需求以及通过升级奶酪乳清来促进循环经济。以本地乳酸菌（LAB）作为接种剂制备了模型生乳和巴氏杀菌乳奶酪，并对其成分、蛋白水解和微生物参数进行了分析。分离出CoPS，并通过评估表型毒力因子和抗生素耐药模式来评估它们在“同一个健康”方面所带来的风险。为了评估本地LAB控制CoPS的潜力，进行了一项挑战试验。使用本地LAB作为接种剂来升级乳清，制备了益生菌。这项工作证实了需要更新皮科奶酪关于蛋白水解指标的规格。所有皮科奶酪CoPS中都存在生物膜形成，但仅发现对青霉素和头孢西丁有耐药性。添加盐或延长成熟时间至60天并不能达到所需的CoPS控制水平。然而，在挑战试验中，L1C21M1能够将CoPS数量保持在3 log cfu/g。乳清是本地益生菌L3A21M1和L3B1M7的合适底物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1bf1/12071904/f0fa4282eece/foods-14-01487-g001.jpg

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应对手工皮科奶酪生产中的质量、安全和可持续性挑战：蛋白水解指标、葡萄球菌和乳清增值

Addressing Quality, Safety, and Sustainability Challenges in Artisanal Pico Cheese Production: Proteolysis Indexes, Staphylococci, and Whey Valorization.

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