Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions

Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions

10.1371/journal.pone.0116047

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Bibliographic Details
Main Authors: Liao L., Cheng Y., Liu S., Zhou J., An S., Lv M., Chen Y., Gu Y., Chen S., Zhang L.-H.
Other Authors: BIOLOGY (NU)
Format: Article
Published: 2019
Subjects:
antibiotic agent
aspartic acid
magnesium ion
nitrate
phosphate
potassium ion
sucrose
unclassified drug
zeamine
zeamine II
antiinfective agent
macrolide
polyamine
antibiotic biosynthesis
Article
Bacteria
bacterial gene
bacterial strain
bacterial virulence
carbon source
controlled study
culture medium
Dickeya zeae
fermentation medium
fermentation optimization
gene expression
host pathogen interaction
minimum inhibitory concentration
nonhuman
regulatory mechanism
response surface method
zmsK gene
culture technique
Enterobacteriaceae
fermentation
metabolism
microbiology
Bacteria (microorganisms)
Negibacteria
Posibacteria
Anti-Bacterial Agents
Cell Culture Techniques
Fermentation
Industrial Microbiology
Macrolides
Polyamines
Online Access:https://scholarbank.nus.edu.sg/handle/10635/161753
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1617532024-04-03T09:53:26Z Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions Liao L. Cheng Y. Liu S. Zhou J. An S. Lv M. Chen Y. Gu Y. Chen S. Zhang L.-H. BIOLOGY (NU) BIOLOGICAL SCIENCES antibiotic agent aspartic acid magnesium ion nitrate phosphate potassium ion sucrose unclassified drug zeamine zeamine II antiinfective agent macrolide polyamine zeamine antibiotic biosynthesis Article Bacteria bacterial gene bacterial strain bacterial virulence carbon source controlled study culture medium Dickeya zeae fermentation medium fermentation optimization gene expression host pathogen interaction minimum inhibitory concentration nonhuman regulatory mechanism response surface method zmsK gene culture technique Enterobacteriaceae fermentation metabolism microbiology Bacteria (microorganisms) Dickeya zeae Negibacteria Posibacteria Anti-Bacterial Agents Cell Culture Techniques Enterobacteriaceae Fermentation Industrial Microbiology Macrolides Polyamines 10.1371/journal.pone.0116047 PLoS ONE 9 12 e116047 2019-11-07T05:03:40Z 2019-11-07T05:03:40Z 2014 Article Liao L., Cheng Y., Liu S., Zhou J., An S., Lv M., Chen Y., Gu Y., Chen S., Zhang L.-H. (2014). Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions. PLoS ONE 9 (12) : e116047. ScholarBank@NUS Repository. https://doi.org/10.1371/journal.pone.0116047 19326203 https://scholarbank.nus.edu.sg/handle/10635/161753 Attribution 4.0 International http://creativecommons.org/licenses/by/4.0/ Unpaywall 20191101
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic antibiotic agent
aspartic acid
magnesium ion
nitrate
phosphate
potassium ion
sucrose
unclassified drug
zeamine
zeamine II
antiinfective agent
macrolide
polyamine
zeamine
antibiotic biosynthesis
Article
Bacteria
bacterial gene
bacterial strain
bacterial virulence
carbon source
controlled study
culture medium
Dickeya zeae
fermentation medium
fermentation optimization
gene expression
host pathogen interaction
minimum inhibitory concentration
nonhuman
regulatory mechanism
response surface method
zmsK gene
culture technique
Enterobacteriaceae
fermentation
metabolism
microbiology
Bacteria (microorganisms)
Dickeya zeae
Negibacteria
Posibacteria
Anti-Bacterial Agents
Cell Culture Techniques
Enterobacteriaceae
Fermentation
Industrial Microbiology
Macrolides
Polyamines
spellingShingle antibiotic agent
aspartic acid
magnesium ion
nitrate
phosphate
potassium ion
sucrose
unclassified drug
zeamine
zeamine II
antiinfective agent
macrolide
polyamine
zeamine
antibiotic biosynthesis
Article
Bacteria
bacterial gene
bacterial strain
bacterial virulence
carbon source
controlled study
culture medium
Dickeya zeae
fermentation medium
fermentation optimization
gene expression
host pathogen interaction
minimum inhibitory concentration
nonhuman
regulatory mechanism
response surface method
zmsK gene
culture technique
Enterobacteriaceae
fermentation
metabolism
microbiology
Bacteria (microorganisms)
Dickeya zeae
Negibacteria
Posibacteria
Anti-Bacterial Agents
Cell Culture Techniques
Enterobacteriaceae
Fermentation
Industrial Microbiology
Macrolides
Polyamines
Liao L.
Cheng Y.
Liu S.
Zhou J.
An S.
Lv M.
Chen Y.
Gu Y.
Chen S.
Zhang L.-H.
Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
description 10.1371/journal.pone.0116047
author2 BIOLOGY (NU)
author_facet BIOLOGY (NU)
Liao L.
Cheng Y.
Liu S.
Zhou J.
An S.
Lv M.
Chen Y.
Gu Y.
Chen S.
Zhang L.-H.
format Article
author Liao L.
Cheng Y.
Liu S.
Zhou J.
An S.
Lv M.
Chen Y.
Gu Y.
Chen S.
Zhang L.-H.
author_sort Liao L.
title Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
title_short Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
title_full Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
title_fullStr Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
title_full_unstemmed Production of novel antibiotics zeamines through optimizing Dickeya zeae fermentation conditions
title_sort production of novel antibiotics zeamines through optimizing dickeya zeae fermentation conditions
publishDate 2019
url https://scholarbank.nus.edu.sg/handle/10635/161753
_version_ 1795374113262403584

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