奶酪相关乳酸菌代谢柠檬酸盐并产生有机酸和乙偶姻的潜力。

Potential of Cheese-Associated Lactic Acid Bacteria to Metabolize Citrate and Produce Organic Acids and Acetoin.

作者信息

Silva Luana Faria, Sunakozawa Tássila Nakata, Monteiro Diego Alves, Casella Tiago, Conti Ana Carolina, Todorov Svetoslav Dimitrov, Barretto Penna Ana Lúcia

机构信息

Institute of Biosciences, Humanities and Exact Sciences, Food Engineering and Technology Department, UNESP-São Paulo State University, São José do Rio Preto 15054-000, SP, Brazil.

Department of Dermatological, Infectious and Parasitic Diseases, FAMERP-São José do Rio Preto Medical School, São José do Rio Preto 15090-000, SP, Brazil.

出版信息

Metabolites. 2023 Nov 6;13(11):1134. doi: 10.3390/metabo13111134.

DOI:10.3390/metabo13111134

PMID:37999230

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10673126/

Abstract

Lactic acid bacteria (LAB) are pivotal in shaping the technological, sensory, and safety aspects of dairy products. The evaluation of proteolytic activity, citrate utilization, milk pH reduction, and the production of organic compounds, acetoin, and diacetyl by cheese associated LAB strains was carried out, followed by Principal Component Analysis (PCA). Citrate utilization was observed in all (.) (.) and (.) strains, and in some (.) strains. Most strains exhibited proteolytic activity, reduced pH, and generated organic compounds. Multivariate PCA revealed as a prolific producer of acetic, lactic, formic, and pyruvic acids and acetoin at 30 °C. sp. was distinguished from based on acetic, formic, and pyruvic acid production, while primarily produced lactic acid at 37 °C. At 42 °C, (.) and some subsp. strains excelled in acetoin production, whereas subsp. and () strains primarily produced lactic acid. stood out with its production of acetic, formic, and pyruvic acids. Overall, cheese-associated LAB strains exhibited diverse metabolic capabilities which contribute to desirable aroma, flavor, and safety of dairy products.

摘要

乳酸菌（LAB）在塑造乳制品的工艺、感官和安全方面起着关键作用。对与奶酪相关的LAB菌株的蛋白水解活性、柠檬酸盐利用、牛奶pH值降低以及有机化合物、3-羟基丁酮和双乙酰的产生进行了评估，随后进行主成分分析（PCA）。在所有（.）（.）和（.）菌株以及一些（.）菌株中观察到柠檬酸盐利用。大多数菌株表现出蛋白水解活性、降低pH值并产生有机化合物。多变量PCA显示（.）在30°C时是乙酸、乳酸、甲酸和丙酮酸以及3-羟基丁酮的高产生产者。（.）种基于乙酸、甲酸和丙酮酸的产生与（.）区分开来，而（.）在37°C时主要产生乳酸。在42°C时，（.）和一些（.）亚种菌株在3-羟基丁酮生产方面表现出色，而（.）亚种和（.）（.）菌株主要产生乳酸。（.）因其产生乙酸、甲酸和丙酮酸而脱颖而出。总体而言，与奶酪相关的LAB菌株表现出多样的代谢能力，这有助于乳制品具有理想的香气、风味和安全性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fddd/10673126/6c47d5dd6d2d/metabolites-13-01134-g001.jpg

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奶酪相关乳酸菌代谢柠檬酸盐并产生有机酸和乙偶姻的潜力。

Potential of Cheese-Associated Lactic Acid Bacteria to Metabolize Citrate and Produce Organic Acids and Acetoin.

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