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May 24, 2024;13 (11):

Antimicrobial Effect of Extract in Combination with Gallic Acid or Octyl Gallate on Bacteria from Meat.

Javier R��a, Javier Sanz-G��mez, Sheila Maestro, Irma Caro, Mar��a Rosario Garc��a-Armesto
Author Information
  1. Javier R��a: Department of Molecular Biology, University of Le��n, 24007 Le��n, Spain.
  2. Javier Sanz-G��mez: Institute of Food Science and Technology (ICTAL), La Serna 58, 24007 Le��n, Spain. ORCID
  3. Sheila Maestro: Department of Molecular Biology, University of Le��n, 24007 Le��n, Spain.
  4. Irma Caro: Area of Nutrition and Food Science, Faculty of Medicine, University of Valladolid, 47005 Valladolid, Spain.
  5. Mar��a Rosario Garc��a-Armesto: Institute of Food Science and Technology (ICTAL), La Serna 58, 24007 Le��n, Spain.
PMID: 38890871 DOI: 10.3390/foods13111643

Abstract

Chicken meat and its derivatives are easily alterable. They are a nutritionally healthy food, and their consumption has seen a remarkable increase worldwide in recent years. At the same time, consumer demand for the use of natural products to control microbial growth is increasing. In this context, the antimicrobial capacity of a commercial extract of the lemon verbena () plant, (LCE) was tested in binary combination with gallic acid or octyl gallate against two strains of lactic acid bacteria (LAB) of meat origin: ATCC 35677 and ATCC 49367. First, the antimicrobial potential was evaluated by the checkerboard microdilution method at the optimal growth temperature of each and at 4 ��C, pH 5.7 and 6.7, in culture medium. Octyl gallate was the most effective antimicrobial against the two bacteria under all study conditions. At 4 ��C, the combination of LCE with octyl gallate had a similar antimicrobial effect on the two LAB, being bactericidal at pH 6.7. In chicken breast, this effective combination was tested in normal or modified atmosphere and refrigerated (4-8 ��C) for 9 days. LCE + OG in modified atmosphere reduced the different microbial groups studied, including the lactic acid bacteria as the main microorganisms responsible for the spoilage of fresh meat. Further research could pave the way for the development of novel strategies contributing to the technological stability, security, and functional properties of chicken meat.

Keywords

Lippia citriodora extract antimicrobial activity modified atmosphere phenolic compounds poultry meat refrigeration

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Journal Article

Word Cloud

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