Bioinorganic Chemistry of Nickel

Bioinorganic Chemistry of Nickel

The chemistry of nickel in biological systems has been intensely investigated since the discovery of the essential role played by this transition metal in the enzyme urease, ca. 1975. Since then, several nickel-dependent enzymes have been discovered and characterized at the molecular level using str...

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Bibliographic Details
Other Authors: Maroney, Michael J. (Editor), Ciurli, Stefano (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Research & information: general
InrS
nickel-dependent transcriptional regulators
molecular modelling
nickel
hydrogenase
urease
Ni-enzymes
pathogens
ncRNA
miRNA
lncRNA
lung carcinogenesis
histidine-rich protein
carbon monoxide dehydrogenase
nickel chaperone
nickel-induced oligomerization
urease maturation
metallochaperone
G-protein
conformational change
bioavailability
carcinogenicity
genotoxicity
allergy
reproductive
asthma
nanoparticles
ecotoxicity
environment
biological nickel sites
nickel-thiolates
dinuclear nickel metallopeptides
thiolate oxidative damage
nickel enzymes
reaction mechanism
quantum chemical calculations
glyoxalase
streptomyces
mycothiol
metalloenzyme
AD11
nickel-dependent enzyme
methionine salvage pathway
methionine
S-adenosylmethionine (SAM)
methylthioadenosine (MTA)
enolase phosphatase 1 (ENOPH1)
polyamine
matrix metalloproteinase MT1 (MT1-MMP)
metalloregulator
chaperone
[NiFe]-hydrogenase
n/a
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Description
Summary:The chemistry of nickel in biological systems has been intensely investigated since the discovery of the essential role played by this transition metal in the enzyme urease, ca. 1975. Since then, several nickel-dependent enzymes have been discovered and characterized at the molecular level using structural, spectroscopic, and kinetic methods, and insight into reaction mechanisms has been elaborated using synthetic and computational models. The dual role of nickel as both an essential nutrient and as a toxin has prompted efforts to understand the molecular mechanisms of nickel toxicology and to uncover the means by which cells select nickel from among a pool of different and more readily available metal ions and thus regulate the intracellular chemistry of nickel. This latter effort highlights the importance of proteins involved in the extra- and intra-cellular sensing of nickel, the roles of nickel-selective proteins for import and export, and nickel-responsive transcription factors, all of which are important for regulating nickel homeostasis. In this Special Issue, the contributing authors have covered recent advances in many of these aspects of nickel biochemistry, including toxicology, bacterial pathogenesis, carcinogenesis, computational and synthetic models, nickel trafficking proteins, and enzymology.
Physical Description:1 electronic resource (238 p.)
ISBN:books978-3-03928-067-4
9783039280667
9783039280674
Access:Open Access

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