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Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
by Deutschbauer, Adam M , Chen, Mingfei , Arkin, Adam P , Chakraborty, Romy , Fields, Matthew W , Trotter, Valentine V , Lopez, Romario , Malana, Ria Gracielle , Hendrickson, Andrew J , Chen, Yan , Petzold, Christopher J , Walian, Peter J , Thorgersen, Michael P , Carion, Héloïse , Smith, Heidi J , Adams, Michael W W , Lui, Lauren M , Nielsen, Torben N
in Adaptation / Adaptation, Physiological / Aluminum / Aluminum - toxicity / aluminum stress / Bacterial Proteins - genetics / Bacterial Proteins - metabolism / BASIC BIOLOGICAL SCIENCES / biofilm growth / Biofilms / Biofilms - growth & development / Chemotaxis / Environmental conditions / Environmental stress / Flagella / Flagella - genetics / Flagella - physiology / Genomic analysis / Groundwater / Groundwater - microbiology / Hydrogen-Ion Concentration / Metal concentrations / Microorganisms / Molecular modelling / Nitrates / Nitrates - metabolism / Nutrient concentrations / Original / pangenome / pH effects / Proteomics / Rhodanobacter / Strains (organisms) / Stress, Physiological / Survival / Transmission electron microscopy / Water wells
2024
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Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
by Deutschbauer, Adam M , Chen, Mingfei , Arkin, Adam P , Chakraborty, Romy , Fields, Matthew W , Trotter, Valentine V , Lopez, Romario , Malana, Ria Gracielle , Hendrickson, Andrew J , Chen, Yan , Petzold, Christopher J , Walian, Peter J , Thorgersen, Michael P , Carion, Héloïse , Smith, Heidi J , Adams, Michael W W , Lui, Lauren M , Nielsen, Torben N
in Adaptation / Adaptation, Physiological / Aluminum / Aluminum - toxicity / aluminum stress / Bacterial Proteins - genetics / Bacterial Proteins - metabolism / BASIC BIOLOGICAL SCIENCES / biofilm growth / Biofilms / Biofilms - growth & development / Chemotaxis / Environmental conditions / Environmental stress / Flagella / Flagella - genetics / Flagella - physiology / Genomic analysis / Groundwater / Groundwater - microbiology / Hydrogen-Ion Concentration / Metal concentrations / Microorganisms / Molecular modelling / Nitrates / Nitrates - metabolism / Nutrient concentrations / Original / pangenome / pH effects / Proteomics / Rhodanobacter / Strains (organisms) / Stress, Physiological / Survival / Transmission electron microscopy / Water wells
2024
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Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
by Deutschbauer, Adam M , Chen, Mingfei , Arkin, Adam P , Chakraborty, Romy , Fields, Matthew W , Trotter, Valentine V , Lopez, Romario , Malana, Ria Gracielle , Hendrickson, Andrew J , Chen, Yan , Petzold, Christopher J , Walian, Peter J , Thorgersen, Michael P , Carion, Héloïse , Smith, Heidi J , Adams, Michael W W , Lui, Lauren M , Nielsen, Torben N
in Adaptation / Adaptation, Physiological / Aluminum / Aluminum - toxicity / aluminum stress / Bacterial Proteins - genetics / Bacterial Proteins - metabolism / BASIC BIOLOGICAL SCIENCES / biofilm growth / Biofilms / Biofilms - growth & development / Chemotaxis / Environmental conditions / Environmental stress / Flagella / Flagella - genetics / Flagella - physiology / Genomic analysis / Groundwater / Groundwater - microbiology / Hydrogen-Ion Concentration / Metal concentrations / Microorganisms / Molecular modelling / Nitrates / Nitrates - metabolism / Nutrient concentrations / Original / pangenome / pH effects / Proteomics / Rhodanobacter / Strains (organisms) / Stress, Physiological / Survival / Transmission electron microscopy / Water wells
2024

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Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress
Journal Article

Molecular mechanisms and environmental adaptations of flagellar loss and biofilm growth of Rhodanobacter under environmental stress

Deutschbauer, Adam M,
Chen, Mingfei,
Arkin, Adam P,
Chakraborty, Romy,
Fields, Matthew W,
Trotter, Valentine V,
Lopez, Romario,
Malana, Ria Gracielle,
Hendrickson, Andrew J,
Chen, Yan,
Petzold, Christopher J,
Walian, Peter J,
Thorgersen, Michael P,
Carion, Héloïse,
Smith, Heidi J,
Adams, Michael W W,
Lui, Lauren M,
Nielsen, Torben N
2024
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Overview
Biofilms aid bacterial adhesion to surfaces via direct and indirect mechanisms, and formation of biofilms is considered as an important strategy for adaptation and survival in suboptimal environmental conditions. However, the molecular underpinnings of biofilm formation in subsurface sediment/groundwater ecosystems where microorganisms often experience fluctuations in nutrient input, pH, and nitrate or metal concentrations are underexplored. We examined biofilm formation under different nutrient, pH, metal, and nitrate regimens of 16 Rhodanobacter strains isolated from subsurface groundwater wells spanning diverse levels of pH (3.5 to 5) and nitrates (13.7 to 146 mM). Eight Rhodanobacter strains demonstrated significant biofilm growth under low pH, suggesting adaptations for survival and growth at low pH. Biofilms were intensified under aluminum stress, particularly in strains possessing fewer genetic traits associated with biofilm formation, findings warranting further investigation. Through random barcode transposon-site sequencing (RB-TnSeq), proteomics, use of specific mutants, and transmission electron microscopy analysis, we discovered flagellar loss under aluminum stress, indicating a potential relationship between motility, metal tolerance, and biofilm growth. Comparative genomic analyses revealed the absence of flagella and chemotaxis genes and the presence of a putative type VI secretion system in the highly biofilm-forming strain FW021-MT20. In this study we identified genetic determinants associated with biofilm growth under metal stress in a predominant environmental genus, Rhodanobacter, and identified traits aiding survival and adaptation to contaminated subsurface environments.
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Publisher
Oxford University Press,Nature Publishing Group
Subject

Adaptation

/ Adaptation, Physiological

/ Aluminum

/ Aluminum - toxicity

/ aluminum stress

/ Bacterial Proteins - genetics

/ Bacterial Proteins - metabolism

/ BASIC BIOLOGICAL SCIENCES

/ biofilm growth

/ Biofilms

/ Biofilms - growth & development

/ Chemotaxis

/ Environmental conditions

/ Environmental stress

/ Flagella

/ Flagella - genetics

/ Flagella - physiology

/ Genomic analysis

/ Groundwater

/ Groundwater - microbiology

/ Hydrogen-Ion Concentration

/ Metal concentrations

/ Microorganisms

/ Molecular modelling

/ Nitrates

/ Nitrates - metabolism

/ Nutrient concentrations

/ Original

/ pangenome

/ pH effects

/ Proteomics

/ Rhodanobacter

/ Strains (organisms)

/ Stress, Physiological

/ Survival

/ Transmission electron microscopy

/ Water wells

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