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Copper and bacteria : evolution, homeostasis and toxicity / Marc Solioz.
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- Book
- Author/Creator:
- Solioz, Marc, author.
- Series:
- SpringerBriefs in molecular science. Biometals
- Springer Briefs in molecular science. Biometals, 2542-467X
- Language:
- English
- Subjects (All):
- Bacteria--Effect of metals on.
- Bacteria.
- Copper.
- Copper--Toxicology.
- Physical Description:
- 1 online resource.
- polychrome
- Place of Publication:
- Cham, Switzerland : Springer, [2018]
- System Details:
- text file PDF
- Contents:
- Intro; Preface; Reference; Contents; About the Author; Abbreviations; 1 Copper-AModern Bioelement; 1.1 Bioavailability ofCopper, Iron, Zinc andtheEvolution ofSpecies; 1.2 The Irving-Williams Series andthePearson Hard-Soft Acid-Base Concept; 1.3 Copper Speciation intheCell andtheLaboratory; References; 2 Copper Toxicity; 2.1 Copper Toxicity Through theFormation ofReactive Oxygen Species; 2.2 Copper Toxicity byIron-Sulfur Cluster Damage; 2.3 Glutathione andCopper Toxicity; 2.4 Copper Toxicity inContact Killing; References; 3 Copper Homeostasis inGram-Positive Bacteria
- 3.1 Extracellular Copper Reduction3.2 Copper Entry intotheCytoplasm; 3.3 Copper Chaperones; 3.4 Copper ATPases; 3.4.1 Copper ATPase Structure; 3.4.2 Evolution ofP-Type ATPases; 3.4.3 Copper ATPase Function; 3.5 Copper-Regulated Gene Expression; 3.6 Copper Buffering/Storage; 3.7 Copper Loading ofCuproenzymes; 3.8 Copper Regulons andAccessory Defense Mechanisms; References; 4 Copper Homeostasis inGram-Negative Bacteria; 4.1 Copper Uptake byGram-Negative Bacteria; 4.1.1 ATPase-Driven Copper Uptake; 4.1.2 Chalkophore Mediated Copper Uptake byE. coli
- 4.1.3 Chalkophore Mediated Copper Uptake byMethanotrophs4.1.4 Other Proposed Copper Uptake Systems; 4.2 Copper Chaperones andSynthesis ofCopZ inE. coli byRibosome Slippage; 4.3 Copper ATPases; 4.4 Extracellular/Periplasmic Copper Oxidation orReduction; 4.4.1 CueO-Catalyzed Copper Oxidation; 4.4.2 Copper Reduction Systems; 4.5 The ComC/ComR Outer Membrane System; 4.6 Copper Transport Across theOuter Membrane; 4.6.1 The E. coli Cus-System andIts Regulation; 4.6.2 The Mycobacterial MctB System; 4.7 Copper Buffering andStorage; 4.7.1 Copper Buffering byGlutathione (GSH)
- 4.7.2 Copper Buffering byMetallothioneins4.7.3 Copper Tolerance Mediated byPolyphosphate; 4.8 Copper-Loading ofCuproenzymes; 4.8.1 Copper Loading oftheCueO Multicopper Oxidase; 4.8.2 Copper Loading ofCu,Zn-Superoxide Dismutase (SOD); 4.8.3 Copper Loading ofCytochrome Oxidase; 4.8.4 Copper Loading ofCuproenzymes inCyanobacteria; 4.8.5 Metallation ofMethane Monooxygenase inMethanotrophs; 4.9 AnFe-Cu Connection; 4.10 Molybdenum Cofactor Synthesis andCopper; References; 5 Conclusions; References; Index
- Notes:
- Includes bibliographical references.
- Electronic reproduction. Ann Arbor, MI Available via World Wide Web.
- Online resource; title from PDF title page (EBSCO, viewed June 27, 2018).
- ISBN:
- 9783319944395
- 3319944398
- Publisher Number:
- 99978356281
- Access Restriction:
- Restricted for use by site license.
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