Carbohydrate Hydrolytic Activity, Antibiotic Resistance and Stress Tolerance ofLacticaseibacillus paracaseiBCRC-16100 andLacticaseibacillus paracaseiZFM54 for Probiotics Using Genomic and Biochemical Approaches

Author:

Icalia Gann Peter JamesORCID,Fabia Jimmbeth Zenila P.ORCID,Pagurayan Althea Gay B.,Agcaoili Ma. Joy TheresaORCID,Pascual Ryan James J.,Baranda Suerte M.ORCID,Racho Arc Josam J.ORCID,Olivar Marvielyn P.ORCID,Cariaga Jayson F.,Domingo Alvin,Bucao Dionisio S.ORCID,Agrupis Shirley C.ORCID

Abstract

AbstractProbiotics are microorganisms infused in products for health benefits including acceleration of nutrient digestion, however, it is also important to ensure the safety prior to incorporation. Here, we present evidence of the ability of two probiotic isolates,Lacticaseibacillus paracaseiBCRC-16100 andLacticaseibacillus paracaseiZFM54, in the (1) enhancement of carbohydrate digestion, (2) tolerance to stress, and (3) antibiotic resistance. Approaches include whole genome sequence (WGS) analysis and bioactivity assays. WGS revealed genes suggesting the ability of the two isolates to promote carbohydrate digestion, tolerance to stress and antibiotic resistance. Carbohydrate digestive ability was confirmed through a biochemical assay where the two isolates cause glucose release from starch. The two isolates also showed versatility in a range of temperature and alcohol concentration. For antibiotic resistance particularly on vancomycin, there are three mechanisms namely transporter control, transcriptional regulation, and efflux pump. Furthermore, promoter and transposable element analysis showed that some of the active antibiotic resistant (AbR) genes can be laterally transferred. Altogether, we show the potential of two probiotic isolates to be incorporated in products for improved carbohydrate digestion and the need to address the removal of active and mobile antibiotic resistance genes that may compromise safety.

Publisher

Cold Spring Harbor Laboratory

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