Global transcriptome analysis reveals distinct bacterial response towards soluble and surface-immobilized antimicrobial peptide (Lasioglossin-III)

Anindya Basu; Biswajit Mishra; Susanna Su Jan Leong

doi:10.1039/c5ra14862f

Global transcriptome analysis reveals distinct bacterial response towards soluble and surface-immobilized antimicrobial peptide (Lasioglossin-III)

Anindya Basu, Biswajit Mishra, Susanna Su Jan Leong

Houston Methodist

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

'Antimicrobial peptide'-immobilized biomaterials are rapidly being developed to tackle concerns related to device-associated bacterial colonization and biofilm formation. This study aims to evaluate the metabolic changes within bacteria in response to a highly potent antimicrobial peptide Lasioglossin-III, in soluble and immobilized forms.

Original language	English (US)
Pages (from-to)	78712-78718
Number of pages	7
Journal	RSC Advances
Volume	5
Issue number	96
DOIs	https://doi.org/10.1039/c5ra14862f
State	Published - Sep 11 2015

ASJC Scopus subject areas

General Chemistry
General Chemical Engineering

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title = "Global transcriptome analysis reveals distinct bacterial response towards soluble and surface-immobilized antimicrobial peptide (Lasioglossin-III)",

abstract = "'Antimicrobial peptide'-immobilized biomaterials are rapidly being developed to tackle concerns related to device-associated bacterial colonization and biofilm formation. This study aims to evaluate the metabolic changes within bacteria in response to a highly potent antimicrobial peptide Lasioglossin-III, in soluble and immobilized forms.",

author = "Anindya Basu and Biswajit Mishra and Leong, \{Susanna Su Jan\}",

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AU - Basu, Anindya

AU - Mishra, Biswajit

AU - Leong, Susanna Su Jan

N1 - Publisher Copyright: © The Royal Society of Chemistry.

PY - 2015/9/11

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N2 - 'Antimicrobial peptide'-immobilized biomaterials are rapidly being developed to tackle concerns related to device-associated bacterial colonization and biofilm formation. This study aims to evaluate the metabolic changes within bacteria in response to a highly potent antimicrobial peptide Lasioglossin-III, in soluble and immobilized forms.

AB - 'Antimicrobial peptide'-immobilized biomaterials are rapidly being developed to tackle concerns related to device-associated bacterial colonization and biofilm formation. This study aims to evaluate the metabolic changes within bacteria in response to a highly potent antimicrobial peptide Lasioglossin-III, in soluble and immobilized forms.

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Global transcriptome analysis reveals distinct bacterial response towards soluble and surface-immobilized antimicrobial peptide (Lasioglossin-III)

Abstract

ASJC Scopus subject areas

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