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010   $a3-03928-783-4
035   $a(CKB)4100000011302262
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/58616
035   $a(oapen)doab58616
035   $a(EXLCZ)994100000011302262
100   $a20202102d2020      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 00$aRoles and Functions of ROS and RNS in Cellular Physiology and Pathology
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2020
215   $a1 online resource (230 p.)
311 08$a3-03928-782-6 
330   $aOur common knowledge on oxidative stress has evolved substantially over the years and has been mostly focused on the fundamental chemical reactions and the most relevant chemical species involved in the human pathophysiology of oxidative stress-associated diseases. Thus, reactive oxygen species and reactive nitrogen species (ROS and RNS) were identified as the key players initiating, mediating, and regulating the cellular and biochemical complexity of oxidative stress either as physiological (acting pro-hormetic) or as pathogenic (causing destructive vicious circle) process. The papers published in this particular Special Issue of the Cells demonstrate the impressive pathophysiological relevance of ROS and RNS in a range of contexts, including the relevance of second messengers of free radicals like 4-hydroxynonenal, allowing us to assume that even more detailed mechanisms of their positive and negative effects lie in wait, and should assist in better monitoring of the major modern diseases and the development of advanced integrative biomedicine treatments.
606   $aMedicine and Nursing$2bicssc
610   $a4-hydroxynonenal
610   $a4-hydroxynonenal (4-HNE)
610   $aacrolein
610   $aantimicrobial
610   $aantioxidant
610   $aantioxidants
610   $aaorta
610   $abEnd.3
610   $abEnd5
610   $ablood-brain barrier
610   $aCa2+
610   $acalcium
610   $acancer
610   $acancer cells
610   $acancer regression
610   $acannabidiol
610   $acell signaling
610   $acyclopurines
610   $aDNA and RNA polymerases
610   $aDNA damage
610   $aendothelial cells
610   $afree radicals
610   $afusion/fission
610   $aglucose deprivation
610   $aglutamine deprivation
610   $aglutathione
610   $agranulocytes
610   $agrowth
610   $agrowth control
610   $aheme-oxygenase-1
610   $ahistamine
610   $ahuman neuroblastoma SH-SY5Y cells
610   $ahydroxyapatite-based biomaterials
610   $aIMR-90
610   $ainflammation
610   $aintermittent hypoxia
610   $aintracellular signaling
610   $akeratinocytes
610   $aLC-MS/MS
610   $alipid peroxidation
610   $amacrophages
610   $aMFN2
610   $amitochondria
610   $aNADPH-oxidase
610   $aneuronal cell death
610   $aNF?B
610   $aNQO1 transcript variants
610   $aNrf2
610   $aNRF2-NQO1 axis
610   $anuclear factor erythroid 2-related factor 2
610   $anucleotide excision repair
610   $aoptical coherence tomography
610   $aosteoblast growth
610   $aoxidative burst
610   $aoxidative homeostasis
610   $aoxidative metabolism of the cells
610   $aoxidative stress
610   $apathophysiology of oxidative stress
610   $aplaque vulnerability
610   $aproliferation
610   $areactive oxygen species
610   $areactive oxygen species (ROS)
610   $aredox balance
610   $arelaxation
610   $aROS
610   $ars1800566
610   $atoll-like receptors
610   $atoxicity
610   $aTP53 mutation
610   $aTRPM2 channel
610   $aUV radiation
610   $aVAS2870
610   $aviability
610   $avitamins
610   $avon Willebrand factor
610   $axeroderma pigmentosum
615  7$aMedicine and Nursing
700   $aZarkovic$b Neven$4auth$01287827
906   $aBOOK
912   $a9910404087603321
996   $aRoles and Functions of ROS and RNS in Cellular Physiology and Pathology$93020454
997   $aUNINA