Biofilm formation in MRSA strains.

Biofilm formation in MRSA strains.

<p>Quantification of biofilm formation by wild-type (WT), Δ<i>yqhG</i>, and complemented (Δ<i>yqhG</i>-C) strains using crystal violet staining after static incubation in TSB + 1% glucose. Absorbance at 570 nm reflects biofilm biomass. Bars represent the mean ± s.e.m. o...

Disgrifiad llawn

Wedi'i Gadw mewn:
Manylion Llyfryddiaeth
Prif Awdur: Jianhua Liao (1393228) (author)
Awduron Eraill: Jun Cheng (194158) (author), Baoqing Liu (1508821) (author), Yuzhi Shao (22683349) (author), Chunyan Meng (5993228) (author)
Cyhoeddwyd: 2025
Pynciau:
Medicine
Microbiology
Cell Biology
Biotechnology
Evolutionary Biology
Ecology
Science Policy
Infectious Diseases
Virology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
therapeutic strategies aimed
novel therapeutic approaches
murine infection model
div >< p
defense mechanisms employed
conserved gene encoding
compromising membrane stability
affect biofilm formation
staphylococcus aureus </
reduced bacterial burden
improved host survival
maintaining mrsa ’
oxidative stress resistance
yqhg </
withstand host
reduced motility
oxidative stress
increasing resistance
stress adaptation
potential target
periplasmic protein
mrsa virulence
mrsa pathogenesis
key determinant
infected organs
increased sensitivity
imposed stresses
growing prevalence
findings highlight
existing antibiotics
critical need
attenuates virulence
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_version_ 1849927628604047360
author Jianhua Liao (1393228)
author2 Jun Cheng (194158)
Baoqing Liu (1508821)
Yuzhi Shao (22683349)
Chunyan Meng (5993228)
author2_role author
author
author
author
author_facet Jianhua Liao (1393228)
Jun Cheng (194158)
Baoqing Liu (1508821)
Yuzhi Shao (22683349)
Chunyan Meng (5993228)
author_role author
dc.creator.none.fl_str_mv Jianhua Liao (1393228)
Jun Cheng (194158)
Baoqing Liu (1508821)
Yuzhi Shao (22683349)
Chunyan Meng (5993228)
dc.date.none.fl_str_mv 2025-11-25T18:28:03Z
dc.identifier.none.fl_str_mv 10.1371/journal.pone.0337292.g002
dc.relation.none.fl_str_mv https://figshare.com/articles/figure/Biofilm_formation_in_MRSA_strains_/30713752
dc.rights.none.fl_str_mv CC BY 4.0
info:eu-repo/semantics/openAccess
dc.subject.none.fl_str_mv Medicine
Microbiology
Cell Biology
Biotechnology
Evolutionary Biology
Ecology
Science Policy
Infectious Diseases
Virology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
therapeutic strategies aimed
novel therapeutic approaches
murine infection model
div >< p
defense mechanisms employed
conserved gene encoding
compromising membrane stability
affect biofilm formation
staphylococcus aureus </
reduced bacterial burden
improved host survival
maintaining mrsa ’
oxidative stress resistance
yqhg </
withstand host
reduced motility
oxidative stress
increasing resistance
stress adaptation
potential target
periplasmic protein
mrsa virulence
mrsa pathogenesis
key determinant
infected organs
increased sensitivity
imposed stresses
growing prevalence
findings highlight
existing antibiotics
critical need
attenuates virulence
dc.title.none.fl_str_mv Biofilm formation in MRSA strains.
dc.type.none.fl_str_mv Image
Figure
info:eu-repo/semantics/publishedVersion
image
description <p>Quantification of biofilm formation by wild-type (WT), Δ<i>yqhG</i>, and complemented (Δ<i>yqhG</i>-C) strains using crystal violet staining after static incubation in TSB + 1% glucose. Absorbance at 570 nm reflects biofilm biomass. Bars represent the mean ± s.e.m. of three independent experiments. Statistical analysis was performed using one-way ANOVA. ns, not significant.</p>
eu_rights_str_mv openAccess
id Manara_967799c44ef07925708ce85b9d46d5c2
identifier_str_mv 10.1371/journal.pone.0337292.g002
network_acronym_str Manara
network_name_str ManaraRepo
oai_identifier_str oai:figshare.com:article/30713752
publishDate 2025
repository.mail.fl_str_mv
repository.name.fl_str_mv
repository_id_str
rights_invalid_str_mv CC BY 4.0
spelling Biofilm formation in MRSA strains.Jianhua Liao (1393228)Jun Cheng (194158)Baoqing Liu (1508821)Yuzhi Shao (22683349)Chunyan Meng (5993228)MedicineMicrobiologyCell BiologyBiotechnologyEvolutionary BiologyEcologyScience PolicyInfectious DiseasesVirologyEnvironmental Sciences not elsewhere classifiedBiological Sciences not elsewhere classifiedtherapeutic strategies aimednovel therapeutic approachesmurine infection modeldiv >< pdefense mechanisms employedconserved gene encodingcompromising membrane stabilityaffect biofilm formationstaphylococcus aureus </reduced bacterial burdenimproved host survivalmaintaining mrsa ’oxidative stress resistanceyqhg </withstand hostreduced motilityoxidative stressincreasing resistancestress adaptationpotential targetperiplasmic proteinmrsa virulencemrsa pathogenesiskey determinantinfected organsincreased sensitivityimposed stressesgrowing prevalencefindings highlightexisting antibioticscritical needattenuates virulence<p>Quantification of biofilm formation by wild-type (WT), Δ<i>yqhG</i>, and complemented (Δ<i>yqhG</i>-C) strains using crystal violet staining after static incubation in TSB + 1% glucose. Absorbance at 570 nm reflects biofilm biomass. Bars represent the mean ± s.e.m. of three independent experiments. Statistical analysis was performed using one-way ANOVA. ns, not significant.</p>2025-11-25T18:28:03ZImageFigureinfo:eu-repo/semantics/publishedVersionimage10.1371/journal.pone.0337292.g002https://figshare.com/articles/figure/Biofilm_formation_in_MRSA_strains_/30713752CC BY 4.0info:eu-repo/semantics/openAccessoai:figshare.com:article/307137522025-11-25T18:28:03Z
spellingShingle Biofilm formation in MRSA strains.
Jianhua Liao (1393228)
Medicine
Microbiology
Cell Biology
Biotechnology
Evolutionary Biology
Ecology
Science Policy
Infectious Diseases
Virology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
therapeutic strategies aimed
novel therapeutic approaches
murine infection model
div >< p
defense mechanisms employed
conserved gene encoding
compromising membrane stability
affect biofilm formation
staphylococcus aureus </
reduced bacterial burden
improved host survival
maintaining mrsa ’
oxidative stress resistance
yqhg </
withstand host
reduced motility
oxidative stress
increasing resistance
stress adaptation
potential target
periplasmic protein
mrsa virulence
mrsa pathogenesis
key determinant
infected organs
increased sensitivity
imposed stresses
growing prevalence
findings highlight
existing antibiotics
critical need
attenuates virulence
status_str publishedVersion
title Biofilm formation in MRSA strains.
title_full Biofilm formation in MRSA strains.
title_fullStr Biofilm formation in MRSA strains.
title_full_unstemmed Biofilm formation in MRSA strains.
title_short Biofilm formation in MRSA strains.
title_sort Biofilm formation in MRSA strains.
topic Medicine
Microbiology
Cell Biology
Biotechnology
Evolutionary Biology
Ecology
Science Policy
Infectious Diseases
Virology
Environmental Sciences not elsewhere classified
Biological Sciences not elsewhere classified
therapeutic strategies aimed
novel therapeutic approaches
murine infection model
div >< p
defense mechanisms employed
conserved gene encoding
compromising membrane stability
affect biofilm formation
staphylococcus aureus </
reduced bacterial burden
improved host survival
maintaining mrsa ’
oxidative stress resistance
yqhg </
withstand host
reduced motility
oxidative stress
increasing resistance
stress adaptation
potential target
periplasmic protein
mrsa virulence
mrsa pathogenesis
key determinant
infected organs
increased sensitivity
imposed stresses
growing prevalence
findings highlight
existing antibiotics
critical need
attenuates virulence

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