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Biomimetic Radical Chemistry and Applications

The enormous importance of free radical chemistry for a variety of biological events, including ageing and inflammation, has attracted a strong interest in understanding the related mechanistic steps at the molecular level. Modelling the free radical chemical reactivity of biological systems is an i...

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Bibliographic Details
Main Author: Chatgilialoglu, Chryssostomos
Format: eBook
Language:English
Published: MDPI - Multidisciplinary Digital Publishing Institute 2020
Subjects:
Radiosensitizers
Dna Replication Stress
Fragmentation
Lipid Bilayer Membranes
Electron Transfer
Cellular Response
Reaction Mechanism
Protein Stability
Thiyl Radicals
Mirnas
Peroxidation
Oligonucleotides
[1
Iron Porphyrin
Liposomal Somatostatin
Cell Micropolarity Maps
Copper
Therapeutic Proteins
Circular Dichroism
Iron-mediated Atrp
5]-radical Translocation
Isomerization
Modified Nucleosides
Td-dft Methods
Singlet Oxygen
Sulfones
Oxidative Damage
Quantum Dynamics
Thiobases
Biology, Life Sciences / Bicssc
Oxidation
Epr Spectroscopy
Radicals
Anomeric Spironucleosides
Carboazidation
?-radiolysis
Diabetes
2-thiouracil
Nucleosides
Cross-link
Dna Oxidation
Genomic And Epigenomic Instability
Stationary Radiolysis
Pulse Radiolysis
Retarded Delivery
Inhomogeneous Reactions
?oh And ?n3 Radicals
Dna Damage
Azides
Bio-mimicking Catalyst
Type 2 Diabetes
Histone Modifications
Azidoalkylation
Time-resolved Spectroscopy
Electron Holes
Oxidative Dna Damage
Catalase Activity
Atrpase
Oxononenal
Photolysis
Reactive Aldehydes
Gold Nanoparticles
Dna Hole Transfer
Dna
Protein Labeling
Radical Reaction
Guanine Quadruplexes
Chemical Nuclease
Fenton Reaction
Laser Flash Photolysis
Heme
Iron(iv)-oxo
Hydrogen Peroxide
Trans Lipid
8-oxo-dg
Nucleobase Derivatives
Charge Transfer
Albumin
Beta Cells
Gamma Radiolysis
Photo-ionization
Dna Methylation
Kinetic Studies
Lipidomics
Replication Fork Stalling
1
Julia-kocienski Olefination
Membrane Fluidity Maps
5?
Mitochondrial Uncoupling Protein
2c-3e S?s-bonded Intermediates
Free Radicals
Glycogen Phosphorylase
Free Fatty Acids
Raman Spectroscopy
Hydroxynonenal
Intercalation
8-cyclopurines
Biomimetic Radical Reaction
Bioinspired Chemical Catalysis
6-dioxa-4-azaspiro[4.5]decane
Free Radical Oxidation
Confocal Microscopy
Online Access:
Collection: Directory of Open Access Books - Collection details see MPG.ReNa
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100 1 |a Chatgilialoglu, Chryssostomos 
245 0 0 |a Biomimetic Radical Chemistry and Applications  |h Elektronische Ressource 
260 |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2020 
300 |a 1 electronic resource (300 p.) 
653 |a radiosensitizers 
653 |a DNA replication stress 
653 |a fragmentation 
653 |a lipid bilayer membranes 
653 |a electron transfer 
653 |a cellular response 
653 |a reaction mechanism 
653 |a protein stability 
653 |a thiyl radicals 
653 |a miRNAs 
653 |a peroxidation 
653 |a oligonucleotides 
653 |a [1 
653 |a iron porphyrin 
653 |a liposomal somatostatin 
653 |a cell micropolarity maps 
653 |a copper 
653 |a therapeutic proteins 
653 |a circular dichroism 
653 |a iron-mediated ATRP 
653 |a 5]-radical translocation 
653 |a isomerization 
653 |a modified nucleosides 
653 |a TD-DFT methods 
653 |a singlet oxygen 
653 |a sulfones 
653 |a oxidative damage 
653 |a quantum dynamics 
653 |a thiobases 
653 |a Biology, life sciences / bicssc 
653 |a oxidation 
653 |a EPR spectroscopy 
653 |a radicals 
653 |a anomeric spironucleosides 
653 |a carboazidation 
653 |a ?-radiolysis 
653 |a diabetes 
653 |a 2-thiouracil 
653 |a nucleosides 
653 |a cross-link 
653 |a DNA oxidation 
653 |a genomic and epigenomic instability 
653 |a stationary radiolysis 
653 |a pulse radiolysis 
653 |a retarded delivery 
653 |a inhomogeneous reactions 
653 |a ?OH and ?N3 radicals 
653 |a DNA damage 
653 |a azides 
653 |a bio-mimicking catalyst 
653 |a type 2 diabetes 
653 |a histone modifications 
653 |a azidoalkylation 
653 |a time-resolved spectroscopy 
653 |a electron holes 
653 |a oxidative DNA damage 
653 |a catalase activity 
653 |a ATRPase 
653 |a oxononenal 
653 |a photolysis 
653 |a reactive aldehydes 
653 |a gold nanoparticles 
653 |a DNA hole transfer 
653 |a DNA 
653 |a protein labeling 
653 |a radical reaction 
653 |a guanine quadruplexes 
653 |a chemical nuclease 
653 |a Fenton reaction 
653 |a laser flash photolysis 
653 |a heme 
653 |a iron(IV)-oxo 
653 |a hydrogen peroxide 
653 |a trans lipid 
653 |a 8-oxo-dG 
653 |a nucleobase derivatives 
653 |a charge transfer 
653 |a albumin 
653 |a beta cells 
653 |a gamma radiolysis 
653 |a photo-ionization 
653 |a DNA methylation 
653 |a kinetic studies 
653 |a lipidomics 
653 |a replication fork stalling 
653 |a 1 
653 |a Julia-Kocienski olefination 
653 |a membrane fluidity maps 
653 |a 5? 
653 |a mitochondrial uncoupling protein 
653 |a 2c-3e S?S-bonded intermediates 
653 |a free radicals 
653 |a glycogen phosphorylase 
653 |a free fatty acids 
653 |a Raman spectroscopy 
653 |a hydroxynonenal 
653 |a intercalation 
653 |a 8-cyclopurines 
653 |a biomimetic radical reaction 
653 |a bioinspired chemical catalysis 
653 |a 6-dioxa-4-azaspiro[4.5]decane 
653 |a free radical oxidation 
653 |a confocal microscopy 
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082 0 |a 700 
520 |a The enormous importance of free radical chemistry for a variety of biological events, including ageing and inflammation, has attracted a strong interest in understanding the related mechanistic steps at the molecular level. Modelling the free radical chemical reactivity of biological systems is an important research area. When studying free-radical-based chemical mechanisms, biomimetic chemistry and the design of established biomimetic models come into play to perform experiments in a controlled environment that is suitably designed to be in strict connection with cellular conditions. This Special Issue gives the reader a wide overview of biomimetic radical chemistry, where molecular mechanisms have been defined and molecular libraries of products are developed to also be used as traces for the discovery of some relevant biological processes. Several subjects are presented, with 12 articles and 6 reviews written by specialists in the fields of DNA, proteins, lipids, biotechnological applications, and bioinspired synthesis, having "free radicals" as a common denominator. 

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