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Metabolomics analysis of Lactobacillus plantarum ATCC 14917 adhesion activity under initial acid and alkali stress

The adhesion ability of Lactobacillus plantarum affects retention time in the human gastro-intestinal tract, as well as influencing the interaction with their host. In this study, the relationship between the adhesion activity of, and metabolic changes in, L. plantarum ATCC 14917 under initial acid... Full description

Journal Title: PLoS One May 2018, Vol.13(5), p.e0196231
Main Author: Wang, Wenwen
Other Authors: He, Jiayi , Pan, Daodong , Wu, Zhen , Guo, Yuxing , Zeng, Xiaoqun , Lian, Liwei
Format: Electronic Article Electronic Article
Language: English
Subjects:
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ID: E-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0196231
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title: Metabolomics analysis of Lactobacillus plantarum ATCC 14917 adhesion activity under initial acid and alkali stress
format: Article
creator:
  • Wang, Wenwen
  • He, Jiayi
  • Pan, Daodong
  • Wu, Zhen
  • Guo, Yuxing
  • Zeng, Xiaoqun
  • Lian, Liwei
subjects:
  • Lactobacillus Plantarum
  • China
  • Lactobacillus Acidophilus
  • Japan
  • Physiology
  • Laboratories
  • Mass Spectrometry
  • Glutamic Acid
  • Liquid Chromatography
  • Amino Acids
  • Scanning Electron Microscopy
  • Ph
  • Energy Metabolism
  • Amino Acids
  • Ionization
  • Glutamic Acid
  • Liquid Chromatography
  • Cell Lines
  • Nutrition
  • Aspartic Acid
ispartof: PLoS One, May 2018, Vol.13(5), p.e0196231
description: The adhesion ability of Lactobacillus plantarum affects retention time in the human gastro-intestinal tract, as well as influencing the interaction with their host. In this study, the relationship between the adhesion activity of, and metabolic changes in, L. plantarum ATCC 14917 under initial acid and alkali stress was evaluated by analyzing auto-aggregation, protein adhesion and cell adhesion in vitro. Based on scanning electron microscope (SEM) and transmission electron microscope (TEM) analysis, the morphology of the bacteria became thickset and the thickness of their cell walls decreased under initial alkali stress. The fold changes of auto-aggregation, adhere to mucin and HT-29 cell lines of L. plantarum ATCC 14917 in the acid group were increased by 1.141, 1.125 and 1.156, respectively. But decreased significantly in the alkali group (fold changes with 0.842, 0.728 and 0.667). Adhesion—related protein increased in the acid group but declined in the alkali group at the mRNA expression...
language: eng
source:
identifier: E-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0196231
fulltext: fulltext_linktorsrc
issn:
  • 19326203
  • 1932-6203
url: Link


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titleMetabolomics analysis of Lactobacillus plantarum ATCC 14917 adhesion activity under initial acid and alkali stress
creatorWang, Wenwen ; He, Jiayi ; Pan, Daodong ; Wu, Zhen ; Guo, Yuxing ; Zeng, Xiaoqun ; Lian, Liwei
ispartofPLoS One, May 2018, Vol.13(5), p.e0196231
identifierE-ISSN: 19326203 ; DOI: 10.1371/journal.pone.0196231
subjectLactobacillus Plantarum ; China ; Lactobacillus Acidophilus ; Japan ; Physiology ; Laboratories ; Mass Spectrometry ; Glutamic Acid ; Liquid Chromatography ; Amino Acids ; Scanning Electron Microscopy ; Ph ; Energy Metabolism ; Amino Acids ; Ionization ; Glutamic Acid ; Liquid Chromatography ; Cell Lines ; Nutrition ; Aspartic Acid
descriptionThe adhesion ability of Lactobacillus plantarum affects retention time in the human gastro-intestinal tract, as well as influencing the interaction with their host. In this study, the relationship between the adhesion activity of, and metabolic changes in, L. plantarum ATCC 14917 under initial acid and alkali stress was evaluated by analyzing auto-aggregation, protein adhesion and cell adhesion in vitro. Based on scanning electron microscope (SEM) and transmission electron microscope (TEM) analysis, the morphology of the bacteria became thickset and the thickness of their cell walls decreased under initial alkali stress. The fold changes of auto-aggregation, adhere to mucin and HT-29 cell lines of L. plantarum ATCC 14917 in the acid group were increased by 1.141, 1.125 and 1.156, respectively. But decreased significantly in the alkali group (fold changes with 0.842, 0.728 and 0.667). Adhesion—related protein increased in the acid group but declined in the alkali group at the mRNA expression...
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titleMetabolomics analysis of Lactobacillus plantarum ATCC 14917 adhesion activity under initial acid and alkali stress
descriptionThe adhesion ability of Lactobacillus plantarum affects retention time in the human gastro-intestinal tract, as well as influencing the interaction with their host. In this study, the relationship between the adhesion activity of, and metabolic changes in, L. plantarum ATCC 14917 under initial acid and alkali stress was evaluated by analyzing auto-aggregation, protein adhesion and cell adhesion in vitro. Based on scanning electron microscope (SEM) and transmission electron microscope (TEM) analysis, the morphology of the bacteria became thickset and the thickness of their cell walls decreased under initial alkali stress. The fold changes of auto-aggregation, adhere to mucin and HT-29 cell lines of L. plantarum ATCC 14917 in the acid group were increased by 1.141, 1.125 and 1.156, respectively. But decreased significantly in the alkali group (fold changes with 0.842, 0.728 and 0.667). Adhesion—related protein increased in the acid group but declined in the alkali group at the mRNA expression...
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titleMetabolomics analysis of Lactobacillus plantarum ATCC 14917 adhesion activity under initial acid and alkali stress
authorWang, Wenwen ; He, Jiayi ; Pan, Daodong ; Wu, Zhen ; Guo, Yuxing ; Zeng, Xiaoqun ; Lian, Liwei
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6Mass Spectrometry
7Glutamic Acid
8Liquid Chromatography
9Amino Acids
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abstractThe adhesion ability of Lactobacillus plantarum affects retention time in the human gastro-intestinal tract, as well as influencing the interaction with their host. In this study, the relationship between the adhesion activity of, and metabolic changes in, L. plantarum ATCC 14917 under initial acid and alkali stress was evaluated by analyzing auto-aggregation, protein adhesion and cell adhesion in vitro. Based on scanning electron microscope (SEM) and transmission electron microscope (TEM) analysis, the morphology of the bacteria became thickset and the thickness of their cell walls decreased under initial alkali stress. The fold changes of auto-aggregation, adhere to mucin and HT-29 cell lines of L. plantarum ATCC 14917 in the acid group were increased by 1.141, 1.125 and 1.156, respectively. But decreased significantly in the alkali group (fold changes with 0.842, 0.728 and 0.667). Adhesion—related protein increased in the acid group but declined in the alkali group at the mRNA expression...
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date2018-05-01