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Sustaining life on planet Earth = me...

Kroneck, Peter M.H.

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Sustaining life on planet Earth = metalloenzymes mastering dioxygen and other chewy gases /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Sustaining life on planet Earth/ edited by Peter M.H. Kroneck, Martha E. Sosa Torres.
Reminder of title:	metalloenzymes mastering dioxygen and other chewy gases /
other author:	Kroneck, Peter M.H.
Published:	Cham :Springer International Publishing : : 2015.,
Description:	xxxv, 329 p. :ill., digital ;24 cm.
[NT 15003449]:	The Magic of Dioxygen -- Light-Dependent Production of Dioxygen in Photosynthesis -- Production of Dioxygen in the Dark: Dismutases of Oxyanions -- Respiratory Conservation of Energy with Dioxygen: Cytochrome c Oxidase -- Transition Metal Complexes and the Activation of Dioxygen -- Methane Monooxygenase: Functionalizing Methane at Iron and Copper -- Metal Enzymes in "Impossible" Microorganisms Catalyzing the Anaerobic Oxidation of Ammonium and Methane.
Contained By:	Springer eBooks
Subject:	Metalloenzymes. -
Online resource:	http://dx.doi.org/10.1007/978-3-319-12415-5
ISBN:	9783319124155 (electronic bk.)

Sustaining life on planet Earth = metalloenzymes mastering dioxygen and other chewy gases /
Sustaining life on planet Earthmetalloenzymes mastering dioxygen and other chewy gases /[electronic resource] :edited by Peter M.H. Kroneck, Martha E. Sosa Torres. - Cham :Springer International Publishing :2015. - xxxv, 329 p. :ill., digital ;24 cm. - Metal ions in life sciences,v.151559-0836 ;. - Metal ions in life sciences ;v. 7..

The Magic of Dioxygen -- Light-Dependent Production of Dioxygen in Photosynthesis -- Production of Dioxygen in the Dark: Dismutases of Oxyanions -- Respiratory Conservation of Energy with Dioxygen: Cytochrome c Oxidase -- Transition Metal Complexes and the Activation of Dioxygen -- Methane Monooxygenase: Functionalizing Methane at Iron and Copper -- Metal Enzymes in "Impossible" Microorganisms Catalyzing the Anaerobic Oxidation of Ammonium and Methane.

MILS-15 provides an up-to-date review of the metalloenzymes involved in the activation, production, and conversion of molecular oxygen as well as the functionalization of the chemically inert gases methane and ammonia. Found either in aerobes (humans, animals, plants, microorganisms) or in anaerobes (so-called "impossible bacteria") these enzymes employ preferentially iron and copper at their active sites, in order to conserve energy by redox-driven proton pumps, to convert methane to methanol, or ammonia to hydroxylamine or other compounds. When it comes to the light-driven production of molecular oxygen, the tetranuclear manganese cluster of photosystem II must be regarded as the key player. However, dioxygen can also be produced in the dark, by heme iron-dependent dismutation of oxyanions. Metalloenzymes Mastering Dioxygen and Other Chewy Gases is a vibrant research area based mainly on structural and microbial biology, inorganic biological chemistry, and environmental biochemistry. All this is covered in an authoritative manner in 7 stimulating chapters, written by 21 internationally recognized experts, and supported by nearly 1100 references, informative tables, and over 140 illustrations (many in color). MILS-15 provides excellent information for teaching; it is also closely related to MILS-14, The Metal-Driven Biogeochemistry of Gaseous Compounds in the Environment. Peter M. H. Kroneck is a bioinorganic chemist who is exploring the role of transition metals in biology, with a focus on functional and structural aspects of microbial iron, copper, and molybdenum enzymes and their impact on the biogeochemical cycles of nitrogen and sulfur. Martha E. Sosa Torres is an inorganic chemist, with special interests in magnetic properties of newly synthesized transition metal complexes and their reactivity towards molecular oxygen, applying kinetic, electrochemical, and spectroscopic techniques.

ISBN: 9783319124155 (electronic bk.)

Standard No.: 10.1007/978-3-319-12415-5doiSubjects--Topical Terms:

714689
Metalloenzymes.

LC Class. No.: QP601.7

Dewey Class. No.: 572.51

Sustaining life on planet Earth = metalloenzymes mastering dioxygen and other chewy gases /
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245 0 0 $a Sustaining life on planet Earth $h [electronic resource] : $b metalloenzymes mastering dioxygen and other chewy gases / $c edited by Peter M.H. Kroneck, Martha E. Sosa Torres.
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520 $a MILS-15 provides an up-to-date review of the metalloenzymes involved in the activation, production, and conversion of molecular oxygen as well as the functionalization of the chemically inert gases methane and ammonia. Found either in aerobes (humans, animals, plants, microorganisms) or in anaerobes (so-called "impossible bacteria") these enzymes employ preferentially iron and copper at their active sites, in order to conserve energy by redox-driven proton pumps, to convert methane to methanol, or ammonia to hydroxylamine or other compounds. When it comes to the light-driven production of molecular oxygen, the tetranuclear manganese cluster of photosystem II must be regarded as the key player. However, dioxygen can also be produced in the dark, by heme iron-dependent dismutation of oxyanions. Metalloenzymes Mastering Dioxygen and Other Chewy Gases is a vibrant research area based mainly on structural and microbial biology, inorganic biological chemistry, and environmental biochemistry. All this is covered in an authoritative manner in 7 stimulating chapters, written by 21 internationally recognized experts, and supported by nearly 1100 references, informative tables, and over 140 illustrations (many in color). MILS-15 provides excellent information for teaching; it is also closely related to MILS-14, The Metal-Driven Biogeochemistry of Gaseous Compounds in the Environment. Peter M. H. Kroneck is a bioinorganic chemist who is exploring the role of transition metals in biology, with a focus on functional and structural aspects of microbial iron, copper, and molybdenum enzymes and their impact on the biogeochemical cycles of nitrogen and sulfur. Martha E. Sosa Torres is an inorganic chemist, with special interests in magnetic properties of newly synthesized transition metal complexes and their reactivity towards molecular oxygen, applying kinetic, electrochemical, and spectroscopic techniques.
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