Cellular Ecophysiology of Microbe: Hydrocarbon and Lipid Interactions / edited by Tino Krell.

Format:

Book

Contributor:

Krell, Tino, editor.

SpringerLink (Online service)

Series:

Handbook of hydrocarbon and lipid microbiology

Handbook of Hydrocarbon and Lipid Microbiology

Language:

English

Subjects (All):

Life sciences.

Microbiology.

Biochemistry.

Microbial ecology.

Environmental engineering.

Biotechnology.

Life Sciences.

Applied Microbiology.

Environmental Engineering/Biotechnology.

Biochemistry, general.

Microbial Ecology.

Local Subjects:

Life Sciences.

Microbiology.

Applied Microbiology.

Environmental Engineering/Biotechnology.

Biochemistry, general.

Microbial Ecology.

Physical Description:

1 online resource (80 pages) : illustrations, 55 illustrations in color.

Contained In:

Springer eBooks

Place of Publication:

Cham : Springer International Publishing : Imprint: Springer, 2018.

System Details:

text file PDF

Summary:

This book assembles concisely written chapters by world-leaders in the field summarizing recent advances in understanding microbial responses to hydrocarbons. Subjects treated include mechanisms of sensing, hydrocarbon tolerance and degradation as well as an overview on hydrophobic modification of biomolecules. Other chapters are dedicated to issues related to the reduced bioavailability of hydrocarbons, which differentiates this class of compounds form many others, but which of central importance to understand the ecophysiological consequences. This book should be standard literature in any laboratory working in this area.

Contents:

Adaptation to Varying Substrate Concentrations and Mixtures

Amphiphilic Lipids, Signaling Molecules and Quorum Sensing

Bacterial Signal Transduction Processes Based on Acetylation

Biochemistry of Methylation of DNA

Biofilm Development at Interfaces between Hydrophobic Organic Compounds and Water

Biofilm Stress Responses Associated to Aromatic Hydrocarbons

Bioinformatic, Molecular and Genetic Tools for Exploring Genome-wide Responses to Hydrocarbons

Causes and Biochemistry of DNA Damage by Alkylation

Chemotaxis to Hydrocarbons

Cis-Trans Isomerase of Unsaturated Fatty Acids: An Immediate Bacterial Adaptive Mechanism to Cope with Emerging Membrane Perturbation Caused by Toxic Hydrocarbons

DNA Methylation in Eukaryotes: Regulation and Function

DNA Methylation in Prokaryotes: Regulation and Function

Extrusion Pumps for Hydrocarbons: An Efficient Evolutionary Strategy to Confer Resistance to Hydrocarbons

Fatty Acids as Mediators of Intercellular Signalling

Feast: Choking on Acetyl-CoA, the Glyoxylate Shunt, and Acetyl-CoA-Driven Metabolism

Fungi as Transport Vectors for Contaminants and Contaminant-Degrading Bacteria

Genetics of Sensing, Accessing, and Exploiting Hydrocarbons

Genomic Response of Pseudomonas putida to Toluene

Hydrophobic Modifications of Biomolecules: An Introduction

Kinetics and Physiology at Vanishingly Small Substrate Concentrations

Lipidation of Other Biomolecules and Functions

Lipids as Signalling Molecules in Eukaryotes

Matrix-Hydrophobic Compound Interactions

Membrane Adaptations to Low Water Two-Phase Bioprocess Systems

Membrane Composition and Modifications in Response to Aromatic Hydrocarbons in Gram Negative Bacteria

Microbiology of Oil Fly Larvae

Microorganism-Hydrophobic Compound Interactions

Mutagenic Consequences of Alkylation

Nitrogen Fixation and Hydrocarbon-Oxidizing Bacteria

One-Component Systems that Regulate the Expression of Degradation Pathways for Aromatic Compounds

Problems of Feast or Famine: An Introduction:

Problems of Hydrophobicity/Bioavailability: An Introduction

Problems of Solventogenicity, Solvent Tolerance: An Introduction

Production and Roles of Biosurfactants and Bioemulsifiers in Accessing Hydrophobic Substrates

Protein Alkylation

Protein Lipidation in Eukaryotes: Biochemistry and Function

Protein Lipidation in Prokaryotes: Biochemistry and Function

Protein Methylation in Bacteria

Sensing, Signaling and Uptake: An Introduction

Strategies to Increase Bioavailability and Uptake of Hydrocarbons

Substrate Transport

Surface Properties and Cellular Energetics of Bacteria in Response to the Presence of Hydrocarbons

The Family of Two-Component Systems that Regulate Hydrocarbon Degradation Pathways

The Potential of Hydrocarbon Chemotaxis to Increase Bioavailability and Biodegradation Efficiency

Toxicity of Hydrocarbons to Microorganisms

Transcriptional Regulation of Hydrocarbon Efflux Pump Expression in Bacteria

Ultrastructural Insights into Microbial Life at the Hydrocarbon:Aqueous Environment Interface

Uptake and Assimilation of Hydrophobic Substrates by the Oleaginous Yeast Yarrowia lipolytica

Water-Hydrophobic Compound Interactions with the Microbial Cell. .

Other Format:

Printed edition:

ISBN:

9783319505428

Access Restriction:

Restricted for use by site license.