In situ characterization of shewanella oneidensis mr1 biofilms by SALVI and ToF-SIMS

Rachel Komorek; Wenchao Wei; Xiaofei Yu; Eric Hill; Juan Yao; Zihua Zhu; Xiao Ying Yu

doi:10.3791/55944

In situ characterization of shewanella oneidensis mr1 biofilms by SALVI and ToF-SIMS

Rachel Komorek
, Wenchao Wei
, Xiaofei Yu
, Eric Hill
, Juan Yao
, Zihua Zhu
, Xiao Ying Yu

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

10 Scopus citations

Abstract

Bacterial biofilms are surface-associated communities that are vastly studied to understand their self-produced extracellular polymeric substances (EPS) and their roles in environmental microbiology. This study outlines a method to cultivate biofilm attachment to the System for Analysis at the Liquid Vacuum Interface (SALVI) and achieve in situ chemical mapping of a living biofilm by time-of-flight secondary ion mass spectrometry (ToF-SIMS). This is done through the culturing of bacteria both outside and within the SALVI channel with our specialized setup, as well as through optical imaging techniques to detect the biofilm presence and thickness before ToF-SIMS analysis. Our results show the characteristic peaks of the Shewanella biofilm in its natural hydrated state, highlighting upon its localized water cluster environment, as well as EPS fragments, which are drastically different from the same biofilm's dehydrated state. These results demonstrate the breakthrough capability of SALVI that allows for in situ biofilm imaging with a vacuum-based chemical imaging instrument.

Original language	English
Article number	e55944
Journal	Journal of Visualized Experiments
Volume	2017
Issue number	126
DOIs	https://doi.org/10.3791/55944
State	Published - Aug 2017
Externally published	Yes

Funding

We are grateful to the Pacific Northwest National Laboratory (PNNL) Earth and Biological Sciences (EBD) mission seed Laboratory Directed Research and Development (LDRD) fund for support. Instrumental access was provided through a W. R. Wiley Environmental Molecular Sciences Laboratory (EMSL) General User Proposal. EMSL is a national scientific user facility sponsored by the Office of Biological and Environmental Research (BER) at PNNL. The authors thank Dr. Yuanzhao Ding for proof reading the manuscript and providing useful feedback. PNNL is operated by Battelle for the DOE under Contract DE-AC05-76RL01830.

Keywords

Biofilm
Chemistry
In situ
Issue 126
Microfluidics
Molecular imaging
SALVI
ToF-SIMS

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title = "In situ characterization of shewanella oneidensis mr1 biofilms by SALVI and ToF-SIMS",

abstract = "Bacterial biofilms are surface-associated communities that are vastly studied to understand their self-produced extracellular polymeric substances (EPS) and their roles in environmental microbiology. This study outlines a method to cultivate biofilm attachment to the System for Analysis at the Liquid Vacuum Interface (SALVI) and achieve in situ chemical mapping of a living biofilm by time-of-flight secondary ion mass spectrometry (ToF-SIMS). This is done through the culturing of bacteria both outside and within the SALVI channel with our specialized setup, as well as through optical imaging techniques to detect the biofilm presence and thickness before ToF-SIMS analysis. Our results show the characteristic peaks of the Shewanella biofilm in its natural hydrated state, highlighting upon its localized water cluster environment, as well as EPS fragments, which are drastically different from the same biofilm's dehydrated state. These results demonstrate the breakthrough capability of SALVI that allows for in situ biofilm imaging with a vacuum-based chemical imaging instrument.",

keywords = "Biofilm, Chemistry, In situ, Issue 126, Microfluidics, Molecular imaging, SALVI, ToF-SIMS",

author = "Rachel Komorek and Wenchao Wei and Xiaofei Yu and Eric Hill and Juan Yao and Zihua Zhu and Yu, \{Xiao Ying\}",

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doi = "10.3791/55944",

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T1 - In situ characterization of shewanella oneidensis mr1 biofilms by SALVI and ToF-SIMS

AU - Komorek, Rachel

AU - Wei, Wenchao

AU - Yu, Xiaofei

AU - Hill, Eric

AU - Yao, Juan

AU - Zhu, Zihua

AU - Yu, Xiao Ying

PY - 2017/8

Y1 - 2017/8

N2 - Bacterial biofilms are surface-associated communities that are vastly studied to understand their self-produced extracellular polymeric substances (EPS) and their roles in environmental microbiology. This study outlines a method to cultivate biofilm attachment to the System for Analysis at the Liquid Vacuum Interface (SALVI) and achieve in situ chemical mapping of a living biofilm by time-of-flight secondary ion mass spectrometry (ToF-SIMS). This is done through the culturing of bacteria both outside and within the SALVI channel with our specialized setup, as well as through optical imaging techniques to detect the biofilm presence and thickness before ToF-SIMS analysis. Our results show the characteristic peaks of the Shewanella biofilm in its natural hydrated state, highlighting upon its localized water cluster environment, as well as EPS fragments, which are drastically different from the same biofilm's dehydrated state. These results demonstrate the breakthrough capability of SALVI that allows for in situ biofilm imaging with a vacuum-based chemical imaging instrument.

AB - Bacterial biofilms are surface-associated communities that are vastly studied to understand their self-produced extracellular polymeric substances (EPS) and their roles in environmental microbiology. This study outlines a method to cultivate biofilm attachment to the System for Analysis at the Liquid Vacuum Interface (SALVI) and achieve in situ chemical mapping of a living biofilm by time-of-flight secondary ion mass spectrometry (ToF-SIMS). This is done through the culturing of bacteria both outside and within the SALVI channel with our specialized setup, as well as through optical imaging techniques to detect the biofilm presence and thickness before ToF-SIMS analysis. Our results show the characteristic peaks of the Shewanella biofilm in its natural hydrated state, highlighting upon its localized water cluster environment, as well as EPS fragments, which are drastically different from the same biofilm's dehydrated state. These results demonstrate the breakthrough capability of SALVI that allows for in situ biofilm imaging with a vacuum-based chemical imaging instrument.

KW - Biofilm

KW - Chemistry

KW - In situ

KW - Issue 126

KW - Microfluidics

KW - Molecular imaging

KW - SALVI

KW - ToF-SIMS

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DO - 10.3791/55944

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AN - SCOPUS:85046431460

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JF - Journal of Visualized Experiments

IS - 126

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ER -

In situ characterization of shewanella oneidensis mr1 biofilms by SALVI and ToF-SIMS

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