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  1. Book ; Online: 10th Anniversary of Plants-Recent Advances and Perspectives

    Stankovic, Milan / Baptista, Paula / Carillo, Petronia

    Volume II

    2023  

    Keywords Research & information: general ; Biology, life sciences ; Secale cereale ; Secale montanum ; Secale strictum ; QTL mapping ; molecular marker ; self-incompatibility ; fertility ; seed set ; abiotic stress ; cell homeostasis ; heterologous host synthetic approach ; terpenophenolics ; brown spot ; ACT ; fungus culture filtrate ; mycotoxin ; fruit development ; fruit gauge ; VPD ; Mangifera indica ; cell division ; cell expansion ; ripening ; pulegone ; isomenthone ; menthone ; thymol ; p-cymene ; chemotypes ; seasonal variation ; enantiomeric distribution ; label-free proteomics ; Panax ginseng ; ginsenosides ; cytochrome p450 ; UDP-glycosyltransferase ; MEP pathway ; MVA pathway ; TCA/acetone ; methanol/chloroform ; endophytes ; foliar pathogens ; pathogenicity ; taxonomy ; Thymus vulgaris ; Crithmum maritimum ; leather artifacts ; essential oils ; anti-bacterial activity ; Euphorbia dendroides L. ; aerial parts ; polyphenols ; antioxidant activity ; anti-inflammatory activity ; toxicity ; calcium oxalate crystals ; colleter ; extrafloral nectaries ; resin gland ; bud protection ; plant-environment interaction ; carbohydrate metabolism ; microarray ; crop ; rice ; productivity ; endosperm ; geometry ; morphology ; seed shape ; Vitaceae ; exDNA ; environmental DNA ; DNA sensing ; self-DNA inhibition ; autotoxicity ; plant response ; DAMP ; PAMP ; EDAP ; climate change ; food security ; Mediterranean countries ; sustainable exploitation ; phytogenetic resources ; candidate gene ; quantitative trait locus ; recombinant inbred line ; soybean drought tolerance ; weighted drought coefficient ; antioxidants ; biostimulants ; biotic stress ; GABA ; metabolism ; phytohormones ; reactive oxygen species ; signaling ; tricarboxylic acid cycle ; bacterial functions ; co-presence networks ; metagenomics ; microbial ecology ; plant domestication ; trace element ; plant nutrient ; salinity ; antioxidant defense system ; glyoxalase system ; biochar ; licorice ; soil enzymes ; nutrients ; root system ; ALS ; BCAA ; low oxygen ; flooding ; AIP1 ; Eucommia ulmoides Oliver ; trait variations ; probability grading ; quantitative traits ; planting models ; leaves ; cytokinin ; TD-K ; thidiazuron ; INCYDE ; CPPU ; isopentenyl transferase ; IPT ; cytokinin oxidase/dehydrogenase ; CKX ; wheat ; barley ; yield ; cucumber ; QTL-seq ; SNP markers ; white immature fruit skin color ; ecological costs ; germination models ; herbicide resistance ; hydrotime ; target-site resistance ; hydrogen peroxide ; sodium hypochlorite ; generalized regression neural network ; genetic algorithm ; scarification ; seed dormancy ; plant tissue culture ; foliar descriptors ; leaf area ; models ; vine leaves ; Olea europaea L. ; olive ; genotype by sequencing (GBS) ; single-nucleotide polymorphism (SNP) ; whole-genome sequencing (WGS) ; reference genome ; plastid markers ; DNA barcoding ; ISSR markers ; Egyptian barley ; agro-morphological traits ; cluster analysis ; genetic variation ; biplot ; drought stress ; drying processes ; mathematical model ; plant hydric stress tolerance ; rate of weight loss ; RWLMod ; water evaporation ; photosynthesis ; elevated CO2 ; Rubisco ; electron transport ; light ; diurnal cycle ; sexual propagation ; cold stratification ; in situ ; ex situ ; plant endemism ; Morocco ; biodiversity ; ex-situ conservation ; protocols ; germplasm ; forest berries ; brushing ; lettuce ; chicory ; phytochemicals ; antioxidant capacity ; Ziziphus lotus ; phenolics ; SH-SY5Y cell line ; chromatography ; Koelreuteria paniculata ; dry ethanol extracts ; GC-MS analysis ; chemical compounds ; antitumor and antimicrobial activities ; medicinal plant ; bioactive compounds ; plant-derived secondary metabolites (PDSM) ; cell suspension culture (CSC) ; bioreactor engineering ; apple ; Golden Delicious ; Top Red ; fruitlet thinners ; light reactions ; electron transport rate ; photoprotective mechanism ; state transitions ; PSII repair cycle ; vegetation structure ; environmental variables ; PC-ORD ; plant community assembly ; Himalaya ; allopolyploidy ; interspecific hybridization ; unreduced gametes ; cytological diploidization ; genomic changes ; root length ; root/shoot ratio ; specific root length ; Saragolle Lucana ; seed coating ; heavy metals ; evolution ; hyperaccumulation ; black chokeberry (Aronia melanocarpa) ; anthocyanin stability ; herbs ; co-pigmentation ; color stability ; functional foods/beverages ; biotechnological tools ; ethnomedicine ; in vitro culture ; genetic improvement ; pollen ; tip growth ; calcium ; calcium dependent protein kinase ; Rho Guanine Dissociation Inhibitor ; ROP GTPase ; RhoGDI displacement factor ; polarity ; guar ; gene expression ; qRT-PCR ; RNA-Seq ; salt stress ; salt tolerance ; stress ; transcriptome ; D-tagatose ; IFP48 ; induced resistance ; sweet immunity ; sugar-enhanced defense ; Plasmopara viticola ; Botrytis cinerea ; Vitis vinifera ; human diet ; edible wild plants ; Plantago coronopus L. ; Rumex acetosa L. ; Cichorium intybus L. ; Artemisia dracunculus L. ; phytochemistry ; anti-inflammatory properties ; stem photosynthesis ; hydraulic recovery ; soaking ; X-ray micro-CT ; bark water uptake ; embolism ; genetic resources ; Solanaceae ; Cucumis ; Lactuca ; diversity ; vegetables ; genebank ; essential oil ; iNOS ; interleukin ; lavenders ; NF-κB ; glycosyltransferases ; ER-Golgi trafficking ; mechanism of protein sorting ; COPI and COPII complexes ; sequences and motifs involved in trafficking ; Arabidopsis ; gene regulation ; protein-protein interaction ; transcription factor ; WRI1 ; TCP20 ; lipases ; lipid metabolism ; plant-environment interactions ; reproductive development ; vegetative development ; Urtica dioica ; soilless systems ; cultivated nettle ; stress factors ; functional properties ; preharvest sprouting ; MKK3 ; maternal and paternal expressed genes ; imprinted genes ; polycomb repressive complex 2 ; mRNA processing bodies ; ribonucleic binding proteins ; monosomes ; ethylene ; elicitors ; fruit ripening ; ACC synthase/oxidase ; GC-MS ; polyamines ; Vigna genus ; introgression ; hybridisation ; phylogeny ; de novo domestication ; feralisation ; novel ecosystems ; complex networks ; tree communities ; Lantana camara ; Prosopis juliflora ; ascorbic acid ; genetic diversity ; molecular markers ; aquaculture pond sediment ; recovery ; Triticum aestivum ; chlorophyll fluorescence ; wheat grass juice quality ; UV-B radiation ; olive tree ; metabolomic ; phenolic profile ; lipophilic profile ; ecophysiology ; environment ; arbuscular mycorrhizal symbiosis ; comparative transcriptomics ; Arum-type ; Paris-type ; Solanum lycopersicum ; Rhizophagus irregularis ; Gigaspora margarita ; Camelina sativa ; semi-arid lands ; biofuel feedstock ; biodiesel ; renewable diesel ; crop breeding ; transgenesis ; genome editing ; Xanthomonas euvesicatoria ; host associate factor ; comparative genomics ; Cannabis sativa L. ; chemovars ; secondary metabolites ; trichomes ; residual by-products ; biogeography ; cardioid ; islands ; geometric models ; Mediterranean flora ; Silene ; super-ellipse ; abscisic acid ; aromatic herb ; ascorbate-glutathione cycle ; jasmonic acid ; lipoic acid ; oxidative stress ; salicylic acid ; Salvia officinalis ; drought ; state of stress ; tolerance ; avoidance ; stress survival ; amino acids ; nitrate reductase ; glutamine synthetase ; plants mycorrhized ; dark septate ; Daphne genkwa ; Thymelaeaceae ; flavonoids ; design of experiments ; blooming stages ; germination stimulant ; witchweed ; methyl phenlactonoates (MPs) ; Nijmegen-1 ; weed ; plant development ; vasculature ; leaf traces ; structure ; microtomography ; Euphorbiaceae ; in vitro crop ; gamma radiation ; ionizing radiation ; mutants ; Fumaria scheleicheri Soy. Will ; isoquinoline alkaloids ; HPLC-DAD ; in vitro anti-cholinesterase ; cytotoxic ; antioxidant ; ABC model ; hop ; transcription factors ; type-II MADS box ; type-I MADS-box ; AFLP ; carpological traits ; genetic structure ; molecular systematics ; plastid phylogeny ; Valerianaceae ; auxins ; embryogenic calli ; HPLC ; IAA ; immunohistochemistry ; deficit irrigation ; grape quality ; phenology ; plant diseases ; bacterium ; symptoms ; molecular classification ; common juniper ; common larch ; Cupressaceae ; Pinaceae ; SPME-GC-MS ; volatile compounds ; herbicidal activity ; weed control ; trait association ; GCV ; genetic variability ; genetic advance ; heritability ; PCV ; Cicer arietinum L. ; gold nanoparticles ; carbon nanotubes ; ATR-FTIR spectroscopy ; machine learning techniques ; principal component analysis ; support vector machine classification ; citrus ; melanose ; Diaporthe citri ; epidemiology ; symptomatology ; Pseudomonas cannabina pv. alisalensis ; resistance-nodulation-cell division transporter ; type-three secretion system ; phytoalexin ; brassinin ; glucosinolate ; cabbage ; flowering ; juvenile traits ; genetic stability ; flow cytometry ; somaclonal variation ; thorniness ; carbohydrates ; protein ; lipids ; fatty acids ; minerals ; plastome ; Plicosepalus acaciae ; Plicosepalus curviflorus ; loranthaceae ; mistletoe ; phylogenetic relationship ; plastome structure ; comparative analysis ; magnetic resonance imaging ; Solanum tuberosum ; multi-exponential transverse relaxation ; water stress ; broccoli ; human nutrition ; improved health ; melatonin ; postharvest ; apricot ; pollen tube ; pollination ; Prunus armeniaca ; S-alleles ; Populus ; hexokinase ; sucrose metabolism ; sugar signaling ; stress and defense ; centres of origin ; crop wild relatives ; crop domestication ; cryopreservation ; conservation ; in vitro storage ; ecosystem restoration ; plant breeding ; acidification ; alkalinisation ; bud burst ; freezing ; Malus domestica ; pH ; Picea abies ; Pinus cembra ; histone modification ; Taraxacum kok-saghyz ; natural rubber ; high light stress ; singlet oxygen ; signalling ; GPX5 ; beta cyclocitral ; acrolein ; glutathione peroxidase ; carbonyl ; transcription ; SLIM1 transcription factor ; sulfur deficiency ; Arabidopsis thaliana ; sulfate transporter ; sulfate assimilation ; stress tolerance ; LRR-RLK receptors ; dodders ; parasitic plants ; proteomics ; virus vertical transmission ; CMV-Fny strain ; pseudorecombinant virus ; chimeric virus ; infection rate ; seed-growth tests ; electron microscopy ; circular dichroism spectroscopy ; viral assembly ; Adiantetea capilli-veneris ; demographic analysis ; ecology ; IUCN ; plant conservation ; phytosociology ; rupicolous habitat ; n/a
    Language English
    Size 1 electronic resource (622 pages)
    Publisher MDPI - Multidisciplinary Digital Publishing Institute
    Document type Book ; Online
    Note English
    HBZ-ID HT030381043
    ISBN 9783036584218 ; 3036584218
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

    More links

    Kategorien

    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  2. Book ; Online: 10th Anniversary of Plants-Recent Advances and Perspectives

    Stankovic, Milan / Baptista, Paula / Carillo, Petronia

    Volume III

    2023  

    Keywords Research & information: general ; Biology, life sciences ; Secale cereale ; Secale montanum ; Secale strictum ; QTL mapping ; molecular marker ; self-incompatibility ; fertility ; seed set ; abiotic stress ; cell homeostasis ; heterologous host synthetic approach ; terpenophenolics ; brown spot ; ACT ; fungus culture filtrate ; mycotoxin ; fruit development ; fruit gauge ; VPD ; Mangifera indica ; cell division ; cell expansion ; ripening ; pulegone ; isomenthone ; menthone ; thymol ; p-cymene ; chemotypes ; seasonal variation ; enantiomeric distribution ; label-free proteomics ; Panax ginseng ; ginsenosides ; cytochrome p450 ; UDP-glycosyltransferase ; MEP pathway ; MVA pathway ; TCA/acetone ; methanol/chloroform ; endophytes ; foliar pathogens ; pathogenicity ; taxonomy ; Thymus vulgaris ; Crithmum maritimum ; leather artifacts ; essential oils ; anti-bacterial activity ; Euphorbia dendroides L. ; aerial parts ; polyphenols ; antioxidant activity ; anti-inflammatory activity ; toxicity ; calcium oxalate crystals ; colleter ; extrafloral nectaries ; resin gland ; bud protection ; plant-environment interaction ; carbohydrate metabolism ; microarray ; crop ; rice ; productivity ; endosperm ; geometry ; morphology ; seed shape ; Vitaceae ; exDNA ; environmental DNA ; DNA sensing ; self-DNA inhibition ; autotoxicity ; plant response ; DAMP ; PAMP ; EDAP ; climate change ; food security ; Mediterranean countries ; sustainable exploitation ; phytogenetic resources ; candidate gene ; quantitative trait locus ; recombinant inbred line ; soybean drought tolerance ; weighted drought coefficient ; antioxidants ; biostimulants ; biotic stress ; GABA ; metabolism ; phytohormones ; reactive oxygen species ; signaling ; tricarboxylic acid cycle ; bacterial functions ; co-presence networks ; metagenomics ; microbial ecology ; plant domestication ; trace element ; plant nutrient ; salinity ; antioxidant defense system ; glyoxalase system ; biochar ; licorice ; soil enzymes ; nutrients ; root system ; ALS ; BCAA ; low oxygen ; flooding ; AIP1 ; Eucommia ulmoides Oliver ; trait variations ; probability grading ; quantitative traits ; planting models ; leaves ; cytokinin ; TD-K ; thidiazuron ; INCYDE ; CPPU ; isopentenyl transferase ; IPT ; cytokinin oxidase/dehydrogenase ; CKX ; wheat ; barley ; yield ; cucumber ; QTL-seq ; SNP markers ; white immature fruit skin color ; ecological costs ; germination models ; herbicide resistance ; hydrotime ; target-site resistance ; hydrogen peroxide ; sodium hypochlorite ; generalized regression neural network ; genetic algorithm ; scarification ; seed dormancy ; plant tissue culture ; foliar descriptors ; leaf area ; models ; vine leaves ; Olea europaea L. ; olive ; genotype by sequencing (GBS) ; single-nucleotide polymorphism (SNP) ; whole-genome sequencing (WGS) ; reference genome ; plastid markers ; DNA barcoding ; ISSR markers ; Egyptian barley ; agro-morphological traits ; cluster analysis ; genetic variation ; biplot ; drought stress ; drying processes ; mathematical model ; plant hydric stress tolerance ; rate of weight loss ; RWLMod ; water evaporation ; photosynthesis ; elevated CO2 ; Rubisco ; electron transport ; light ; diurnal cycle ; sexual propagation ; cold stratification ; in situ ; ex situ ; plant endemism ; Morocco ; biodiversity ; ex-situ conservation ; protocols ; germplasm ; forest berries ; brushing ; lettuce ; chicory ; phytochemicals ; antioxidant capacity ; Ziziphus lotus ; phenolics ; SH-SY5Y cell line ; chromatography ; Koelreuteria paniculata ; dry ethanol extracts ; GC-MS analysis ; chemical compounds ; antitumor and antimicrobial activities ; medicinal plant ; bioactive compounds ; plant-derived secondary metabolites (PDSM) ; cell suspension culture (CSC) ; bioreactor engineering ; apple ; Golden Delicious ; Top Red ; fruitlet thinners ; light reactions ; electron transport rate ; photoprotective mechanism ; state transitions ; PSII repair cycle ; vegetation structure ; environmental variables ; PC-ORD ; plant community assembly ; Himalaya ; allopolyploidy ; interspecific hybridization ; unreduced gametes ; cytological diploidization ; genomic changes ; root length ; root/shoot ratio ; specific root length ; Saragolle Lucana ; seed coating ; heavy metals ; evolution ; hyperaccumulation ; black chokeberry (Aronia melanocarpa) ; anthocyanin stability ; herbs ; co-pigmentation ; color stability ; functional foods/beverages ; biotechnological tools ; ethnomedicine ; in vitro culture ; genetic improvement ; pollen ; tip growth ; calcium ; calcium dependent protein kinase ; Rho Guanine Dissociation Inhibitor ; ROP GTPase ; RhoGDI displacement factor ; polarity ; guar ; gene expression ; qRT-PCR ; RNA-Seq ; salt stress ; salt tolerance ; stress ; transcriptome ; D-tagatose ; IFP48 ; induced resistance ; sweet immunity ; sugar-enhanced defense ; Plasmopara viticola ; Botrytis cinerea ; Vitis vinifera ; human diet ; edible wild plants ; Plantago coronopus L. ; Rumex acetosa L. ; Cichorium intybus L. ; Artemisia dracunculus L. ; phytochemistry ; anti-inflammatory properties ; stem photosynthesis ; hydraulic recovery ; soaking ; X-ray micro-CT ; bark water uptake ; embolism ; genetic resources ; Solanaceae ; Cucumis ; Lactuca ; diversity ; vegetables ; genebank ; essential oil ; iNOS ; interleukin ; lavenders ; NF-κB ; glycosyltransferases ; ER-Golgi trafficking ; mechanism of protein sorting ; COPI and COPII complexes ; sequences and motifs involved in trafficking ; Arabidopsis ; gene regulation ; protein-protein interaction ; transcription factor ; WRI1 ; TCP20 ; lipases ; lipid metabolism ; plant-environment interactions ; reproductive development ; vegetative development ; Urtica dioica ; soilless systems ; cultivated nettle ; stress factors ; functional properties ; preharvest sprouting ; MKK3 ; maternal and paternal expressed genes ; imprinted genes ; polycomb repressive complex 2 ; mRNA processing bodies ; ribonucleic binding proteins ; monosomes ; ethylene ; elicitors ; fruit ripening ; ACC synthase/oxidase ; GC-MS ; polyamines ; Vigna genus ; introgression ; hybridisation ; phylogeny ; de novo domestication ; feralisation ; novel ecosystems ; complex networks ; tree communities ; Lantana camara ; Prosopis juliflora ; ascorbic acid ; genetic diversity ; molecular markers ; aquaculture pond sediment ; recovery ; Triticum aestivum ; chlorophyll fluorescence ; wheat grass juice quality ; UV-B radiation ; olive tree ; metabolomic ; phenolic profile ; lipophilic profile ; ecophysiology ; environment ; arbuscular mycorrhizal symbiosis ; comparative transcriptomics ; Arum-type ; Paris-type ; Solanum lycopersicum ; Rhizophagus irregularis ; Gigaspora margarita ; Camelina sativa ; semi-arid lands ; biofuel feedstock ; biodiesel ; renewable diesel ; crop breeding ; transgenesis ; genome editing ; Xanthomonas euvesicatoria ; host associate factor ; comparative genomics ; Cannabis sativa L. ; chemovars ; secondary metabolites ; trichomes ; residual by-products ; biogeography ; cardioid ; islands ; geometric models ; Mediterranean flora ; Silene ; super-ellipse ; abscisic acid ; aromatic herb ; ascorbate-glutathione cycle ; jasmonic acid ; lipoic acid ; oxidative stress ; salicylic acid ; Salvia officinalis ; drought ; state of stress ; tolerance ; avoidance ; stress survival ; amino acids ; nitrate reductase ; glutamine synthetase ; plants mycorrhized ; dark septate ; Daphne genkwa ; Thymelaeaceae ; flavonoids ; design of experiments ; blooming stages ; germination stimulant ; witchweed ; methyl phenlactonoates (MPs) ; Nijmegen-1 ; weed ; plant development ; vasculature ; leaf traces ; structure ; microtomography ; Euphorbiaceae ; in vitro crop ; gamma radiation ; ionizing radiation ; mutants ; Fumaria scheleicheri Soy. Will ; isoquinoline alkaloids ; HPLC-DAD ; in vitro anti-cholinesterase ; cytotoxic ; antioxidant ; ABC model ; hop ; transcription factors ; type-II MADS box ; type-I MADS-box ; AFLP ; carpological traits ; genetic structure ; molecular systematics ; plastid phylogeny ; Valerianaceae ; auxins ; embryogenic calli ; HPLC ; IAA ; immunohistochemistry ; deficit irrigation ; grape quality ; phenology ; plant diseases ; bacterium ; symptoms ; molecular classification ; common juniper ; common larch ; Cupressaceae ; Pinaceae ; SPME-GC-MS ; volatile compounds ; herbicidal activity ; weed control ; trait association ; GCV ; genetic variability ; genetic advance ; heritability ; PCV ; Cicer arietinum L. ; gold nanoparticles ; carbon nanotubes ; ATR-FTIR spectroscopy ; machine learning techniques ; principal component analysis ; support vector machine classification ; citrus ; melanose ; Diaporthe citri ; epidemiology ; symptomatology ; Pseudomonas cannabina pv. alisalensis ; resistance-nodulation-cell division transporter ; type-three secretion system ; phytoalexin ; brassinin ; glucosinolate ; cabbage ; flowering ; juvenile traits ; genetic stability ; flow cytometry ; somaclonal variation ; thorniness ; carbohydrates ; protein ; lipids ; fatty acids ; minerals ; plastome ; Plicosepalus acaciae ; Plicosepalus curviflorus ; loranthaceae ; mistletoe ; phylogenetic relationship ; plastome structure ; comparative analysis ; magnetic resonance imaging ; Solanum tuberosum ; multi-exponential transverse relaxation ; water stress ; broccoli ; human nutrition ; improved health ; melatonin ; postharvest ; apricot ; pollen tube ; pollination ; Prunus armeniaca ; S-alleles ; Populus ; hexokinase ; sucrose metabolism ; sugar signaling ; stress and defense ; centres of origin ; crop wild relatives ; crop domestication ; cryopreservation ; conservation ; in vitro storage ; ecosystem restoration ; plant breeding ; acidification ; alkalinisation ; bud burst ; freezing ; Malus domestica ; pH ; Picea abies ; Pinus cembra ; histone modification ; Taraxacum kok-saghyz ; natural rubber ; high light stress ; singlet oxygen ; signalling ; GPX5 ; beta cyclocitral ; acrolein ; glutathione peroxidase ; carbonyl ; transcription ; SLIM1 transcription factor ; sulfur deficiency ; Arabidopsis thaliana ; sulfate transporter ; sulfate assimilation ; stress tolerance ; LRR-RLK receptors ; dodders ; parasitic plants ; proteomics ; virus vertical transmission ; CMV-Fny strain ; pseudorecombinant virus ; chimeric virus ; infection rate ; seed-growth tests ; electron microscopy ; circular dichroism spectroscopy ; viral assembly ; Adiantetea capilli-veneris ; demographic analysis ; ecology ; IUCN ; plant conservation ; phytosociology ; rupicolous habitat ; n/a
    Language English
    Size 1 electronic resource (606 pages)
    Publisher MDPI - Multidisciplinary Digital Publishing Institute
    Document type Book ; Online
    Note English
    HBZ-ID HT030381278
    ISBN 9783036584232 ; 3036584234
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

    More links

    Kategorien

    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

    Inter-library loan at ZB MED

    Your chosen title can be delivered directly to ZB MED Cologne location if you are registered as a user at ZB MED Cologne.

  3. Book ; Online: 10th Anniversary of Plants-Recent Advances and Perspectives

    Stankovic, Milan / Baptista, Paula / Carillo, Petronia

    Volume I

    2023  

    Keywords Research & information: general ; Biology, life sciences ; Secale cereale ; Secale montanum ; Secale strictum ; QTL mapping ; molecular marker ; self-incompatibility ; fertility ; seed set ; abiotic stress ; cell homeostasis ; heterologous host synthetic approach ; terpenophenolics ; brown spot ; ACT ; fungus culture filtrate ; mycotoxin ; fruit development ; fruit gauge ; VPD ; Mangifera indica ; cell division ; cell expansion ; ripening ; pulegone ; isomenthone ; menthone ; thymol ; p-cymene ; chemotypes ; seasonal variation ; enantiomeric distribution ; label-free proteomics ; Panax ginseng ; ginsenosides ; cytochrome p450 ; UDP-glycosyltransferase ; MEP pathway ; MVA pathway ; TCA/acetone ; methanol/chloroform ; endophytes ; foliar pathogens ; pathogenicity ; taxonomy ; Thymus vulgaris ; Crithmum maritimum ; leather artifacts ; essential oils ; anti-bacterial activity ; Euphorbia dendroides L. ; aerial parts ; polyphenols ; antioxidant activity ; anti-inflammatory activity ; toxicity ; calcium oxalate crystals ; colleter ; extrafloral nectaries ; resin gland ; bud protection ; plant-environment interaction ; carbohydrate metabolism ; microarray ; crop ; rice ; productivity ; endosperm ; geometry ; morphology ; seed shape ; Vitaceae ; exDNA ; environmental DNA ; DNA sensing ; self-DNA inhibition ; autotoxicity ; plant response ; DAMP ; PAMP ; EDAP ; climate change ; food security ; Mediterranean countries ; sustainable exploitation ; phytogenetic resources ; candidate gene ; quantitative trait locus ; recombinant inbred line ; soybean drought tolerance ; weighted drought coefficient ; antioxidants ; biostimulants ; biotic stress ; GABA ; metabolism ; phytohormones ; reactive oxygen species ; signaling ; tricarboxylic acid cycle ; bacterial functions ; co-presence networks ; metagenomics ; microbial ecology ; plant domestication ; trace element ; plant nutrient ; salinity ; antioxidant defense system ; glyoxalase system ; biochar ; licorice ; soil enzymes ; nutrients ; root system ; ALS ; BCAA ; low oxygen ; flooding ; AIP1 ; Eucommia ulmoides Oliver ; trait variations ; probability grading ; quantitative traits ; planting models ; leaves ; cytokinin ; TD-K ; thidiazuron ; INCYDE ; CPPU ; isopentenyl transferase ; IPT ; cytokinin oxidase/dehydrogenase ; CKX ; wheat ; barley ; yield ; cucumber ; QTL-seq ; SNP markers ; white immature fruit skin color ; ecological costs ; germination models ; herbicide resistance ; hydrotime ; target-site resistance ; hydrogen peroxide ; sodium hypochlorite ; generalized regression neural network ; genetic algorithm ; scarification ; seed dormancy ; plant tissue culture ; foliar descriptors ; leaf area ; models ; vine leaves ; Olea europaea L. ; olive ; genotype by sequencing (GBS) ; single-nucleotide polymorphism (SNP) ; whole-genome sequencing (WGS) ; reference genome ; plastid markers ; DNA barcoding ; ISSR markers ; Egyptian barley ; agro-morphological traits ; cluster analysis ; genetic variation ; biplot ; drought stress ; drying processes ; mathematical model ; plant hydric stress tolerance ; rate of weight loss ; RWLMod ; water evaporation ; photosynthesis ; elevated CO2 ; Rubisco ; electron transport ; light ; diurnal cycle ; sexual propagation ; cold stratification ; in situ ; ex situ ; plant endemism ; Morocco ; biodiversity ; ex-situ conservation ; protocols ; germplasm ; forest berries ; brushing ; lettuce ; chicory ; phytochemicals ; antioxidant capacity ; Ziziphus lotus ; phenolics ; SH-SY5Y cell line ; chromatography ; Koelreuteria paniculata ; dry ethanol extracts ; GC-MS analysis ; chemical compounds ; antitumor and antimicrobial activities ; medicinal plant ; bioactive compounds ; plant-derived secondary metabolites (PDSM) ; cell suspension culture (CSC) ; bioreactor engineering ; apple ; Golden Delicious ; Top Red ; fruitlet thinners ; light reactions ; electron transport rate ; photoprotective mechanism ; state transitions ; PSII repair cycle ; vegetation structure ; environmental variables ; PC-ORD ; plant community assembly ; Himalaya ; allopolyploidy ; interspecific hybridization ; unreduced gametes ; cytological diploidization ; genomic changes ; root length ; root/shoot ratio ; specific root length ; Saragolle Lucana ; seed coating ; heavy metals ; evolution ; hyperaccumulation ; black chokeberry (Aronia melanocarpa) ; anthocyanin stability ; herbs ; co-pigmentation ; color stability ; functional foods/beverages ; biotechnological tools ; ethnomedicine ; in vitro culture ; genetic improvement ; pollen ; tip growth ; calcium ; calcium dependent protein kinase ; Rho Guanine Dissociation Inhibitor ; ROP GTPase ; RhoGDI displacement factor ; polarity ; guar ; gene expression ; qRT-PCR ; RNA-Seq ; salt stress ; salt tolerance ; stress ; transcriptome ; D-tagatose ; IFP48 ; induced resistance ; sweet immunity ; sugar-enhanced defense ; Plasmopara viticola ; Botrytis cinerea ; Vitis vinifera ; human diet ; edible wild plants ; Plantago coronopus L. ; Rumex acetosa L. ; Cichorium intybus L. ; Artemisia dracunculus L. ; phytochemistry ; anti-inflammatory properties ; stem photosynthesis ; hydraulic recovery ; soaking ; X-ray micro-CT ; bark water uptake ; embolism ; genetic resources ; Solanaceae ; Cucumis ; Lactuca ; diversity ; vegetables ; genebank ; essential oil ; iNOS ; interleukin ; lavenders ; NF-κB ; glycosyltransferases ; ER-Golgi trafficking ; mechanism of protein sorting ; COPI and COPII complexes ; sequences and motifs involved in trafficking ; Arabidopsis ; gene regulation ; protein-protein interaction ; transcription factor ; WRI1 ; TCP20 ; lipases ; lipid metabolism ; plant-environment interactions ; reproductive development ; vegetative development ; Urtica dioica ; soilless systems ; cultivated nettle ; stress factors ; functional properties ; preharvest sprouting ; MKK3 ; maternal and paternal expressed genes ; imprinted genes ; polycomb repressive complex 2 ; mRNA processing bodies ; ribonucleic binding proteins ; monosomes ; ethylene ; elicitors ; fruit ripening ; ACC synthase/oxidase ; GC-MS ; polyamines ; Vigna genus ; introgression ; hybridisation ; phylogeny ; de novo domestication ; feralisation ; novel ecosystems ; complex networks ; tree communities ; Lantana camara ; Prosopis juliflora ; ascorbic acid ; genetic diversity ; molecular markers ; aquaculture pond sediment ; recovery ; Triticum aestivum ; chlorophyll fluorescence ; wheat grass juice quality ; UV-B radiation ; olive tree ; metabolomic ; phenolic profile ; lipophilic profile ; ecophysiology ; environment ; arbuscular mycorrhizal symbiosis ; comparative transcriptomics ; Arum-type ; Paris-type ; Solanum lycopersicum ; Rhizophagus irregularis ; Gigaspora margarita ; Camelina sativa ; semi-arid lands ; biofuel feedstock ; biodiesel ; renewable diesel ; crop breeding ; transgenesis ; genome editing ; Xanthomonas euvesicatoria ; host associate factor ; comparative genomics ; Cannabis sativa L. ; chemovars ; secondary metabolites ; trichomes ; residual by-products ; biogeography ; cardioid ; islands ; geometric models ; Mediterranean flora ; Silene ; super-ellipse ; abscisic acid ; aromatic herb ; ascorbate-glutathione cycle ; jasmonic acid ; lipoic acid ; oxidative stress ; salicylic acid ; Salvia officinalis ; drought ; state of stress ; tolerance ; avoidance ; stress survival ; amino acids ; nitrate reductase ; glutamine synthetase ; plants mycorrhized ; dark septate ; Daphne genkwa ; Thymelaeaceae ; flavonoids ; design of experiments ; blooming stages ; germination stimulant ; witchweed ; methyl phenlactonoates (MPs) ; Nijmegen-1 ; weed ; plant development ; vasculature ; leaf traces ; structure ; microtomography ; Euphorbiaceae ; in vitro crop ; gamma radiation ; ionizing radiation ; mutants ; Fumaria scheleicheri Soy. Will ; isoquinoline alkaloids ; HPLC-DAD ; in vitro anti-cholinesterase ; cytotoxic ; antioxidant ; ABC model ; hop ; transcription factors ; type-II MADS box ; type-I MADS-box ; AFLP ; carpological traits ; genetic structure ; molecular systematics ; plastid phylogeny ; Valerianaceae ; auxins ; embryogenic calli ; HPLC ; IAA ; immunohistochemistry ; deficit irrigation ; grape quality ; phenology ; plant diseases ; bacterium ; symptoms ; molecular classification ; common juniper ; common larch ; Cupressaceae ; Pinaceae ; SPME-GC-MS ; volatile compounds ; herbicidal activity ; weed control ; trait association ; GCV ; genetic variability ; genetic advance ; heritability ; PCV ; Cicer arietinum L. ; gold nanoparticles ; carbon nanotubes ; ATR-FTIR spectroscopy ; machine learning techniques ; principal component analysis ; support vector machine classification ; citrus ; melanose ; Diaporthe citri ; epidemiology ; symptomatology ; Pseudomonas cannabina pv. alisalensis ; resistance-nodulation-cell division transporter ; type-three secretion system ; phytoalexin ; brassinin ; glucosinolate ; cabbage ; flowering ; juvenile traits ; genetic stability ; flow cytometry ; somaclonal variation ; thorniness ; carbohydrates ; protein ; lipids ; fatty acids ; minerals ; plastome ; Plicosepalus acaciae ; Plicosepalus curviflorus ; loranthaceae ; mistletoe ; phylogenetic relationship ; plastome structure ; comparative analysis ; magnetic resonance imaging ; Solanum tuberosum ; multi-exponential transverse relaxation ; water stress ; broccoli ; human nutrition ; improved health ; melatonin ; postharvest ; apricot ; pollen tube ; pollination ; Prunus armeniaca ; S-alleles ; Populus ; hexokinase ; sucrose metabolism ; sugar signaling ; stress and defense ; centres of origin ; crop wild relatives ; crop domestication ; cryopreservation ; conservation ; in vitro storage ; ecosystem restoration ; plant breeding ; acidification ; alkalinisation ; bud burst ; freezing ; Malus domestica ; pH ; Picea abies ; Pinus cembra ; histone modification ; Taraxacum kok-saghyz ; natural rubber ; high light stress ; singlet oxygen ; signalling ; GPX5 ; beta cyclocitral ; acrolein ; glutathione peroxidase ; carbonyl ; transcription ; SLIM1 transcription factor ; sulfur deficiency ; Arabidopsis thaliana ; sulfate transporter ; sulfate assimilation ; stress tolerance ; LRR-RLK receptors ; dodders ; parasitic plants ; proteomics ; virus vertical transmission ; CMV-Fny strain ; pseudorecombinant virus ; chimeric virus ; infection rate ; seed-growth tests ; electron microscopy ; circular dichroism spectroscopy ; viral assembly ; Adiantetea capilli-veneris ; demographic analysis ; ecology ; IUCN ; plant conservation ; phytosociology ; rupicolous habitat ; n/a
    Language English
    Size 1 electronic resource (614 pages)
    Publisher MDPI - Multidisciplinary Digital Publishing Institute
    Document type Book ; Online
    Note English
    HBZ-ID HT030381420
    ISBN 9783036584195 ; 3036584196
    Database ZB MED Catalogue: Medicine, Health, Nutrition, Environment, Agriculture

    More links

    Kategorien

    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

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  4. Article: Novel perspectives on the PHD-HIF oxygen sensing pathway in cardioprotection mediated by IPC and RIPC.

    Martin-Puig, Silvia / Tello, Daniel / Aragonés, Julián

    Frontiers in physiology

    2015  Volume 6, Page(s) 137

    Abstract: ... remotely. Oxygen fluctuations is a hallmark of insufficient tissue perfusion and ischemic episodes ... Emerging evidence indicates that prolyl hydroxylase oxygen sensors (PHDs) and hypoxia-inducible ...

    Abstract Reperfusion of ischemic cardiac tissue is the standard treatment for improving clinical outcome following myocardial infarction but is inevitably associated with ischemia-reperfusion injury (IRI). Ischemic myocardial injury can be alleviated by exposing the heart to brief episodes of sublethal ischemia-reperfusion prior to the ischemic insult, a phenomenon that has been termed ischemic preconditioning (IPC). Similarly, remote IPC (RIPC) is defined as transient episodes of ischemia at a distant site before a subsequent prolonged injury of the target organ. In this setting, adaptive responses to hypoxia/ischemia in peripheral tissues include the release of soluble factors that have the potential to protect cardiomyocytes remotely. Oxygen fluctuations is a hallmark of insufficient tissue perfusion and ischemic episodes. Emerging evidence indicates that prolyl hydroxylase oxygen sensors (PHDs) and hypoxia-inducible transcription factors (HIFs) are critical regulators of IPC and RIPC. In this review, we discuss recent findings concerning the role of the PHD-HIF axis in IPC and RIPC-mediated cardioprotection and examine molecular pathways and cell types that might be involved. We also appraise the therapeutic value of targeting the PHD-HIF axis to enhance cardiac tolerance against IRI.
    Language English
    Publishing date 2015-05-20
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2564217-0
    ISSN 1664-042X
    ISSN 1664-042X
    DOI 10.3389/fphys.2015.00137
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  5. Article: Perspectives on oxygen sensing.

    Semenza, G L

    Cell

    1999  Volume 98, Issue 3, Page(s) 281–284

    MeSH term(s) Animals ; Chemoreceptor Cells/physiology ; Hypoxia/physiopathology ; Mammals ; Models, Chemical ; Oxygen/physiology
    Chemical Substances Oxygen (S88TT14065)
    Language English
    Publishing date 1999-08-06
    Publishing country United States
    Document type Journal Article ; Review
    ZDB-ID 187009-9
    ISSN 1097-4172 ; 0092-8674
    ISSN (online) 1097-4172
    ISSN 0092-8674
    DOI 10.1016/s0092-8674(00)81957-1
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  6. Article: Historical perspectives of cellular oxygen sensing and responses to hypoxia.

    Lahiri, S

    Journal of applied physiology (Bethesda, Md. : 1985)

    2000  Volume 88, Issue 4, Page(s) 1467–1473

    Abstract: The responses to acute and chronic hypoxia begin with oxygen sensing, and this historical ... the oxygen sensing within the cells and another 100 yr to discover the cellular oxidation reactions. Today ... the consensus is that the mitochondrial respiratory chain is in part the site of oxygen sensing. In addition ...

    Abstract The responses to acute and chronic hypoxia begin with oxygen sensing, and this historical perspective is written in line with this concept. The earliest pertinent work started with studies on fermentation in yeast in the 17th century, before the discovery of oxygen. It required 200 yr to localize the oxygen sensing within the cells and another 100 yr to discover the cellular oxidation reactions. Today, the consensus is that the mitochondrial respiratory chain is in part the site of oxygen sensing. In addition, membrane-bound NAD(P)H oxidase possibly takes part in oxygen sensing. Oxygen-sensing mechanisms occur in a tissue-specific fashion. For example, the carotid body responds to hypoxia promptly by eliciting a ventilatory response, whereas erythropoietin production in response to hypoxia requires more time, involving new expression of genes. The mechanism has therefore moved from the cells to genes.
    MeSH term(s) Animals ; Cell Hypoxia ; Cell Physiological Phenomena ; History, 17th Century ; History, 18th Century ; History, 19th Century ; History, 20th Century ; Microscopy/history ; Oxygen/history ; Oxygen/metabolism ; Physiology/history ; Saccharomyces cerevisiae/physiology
    Chemical Substances Oxygen (S88TT14065)
    Language English
    Publishing date 2000-04
    Publishing country United States
    Document type Historical Article ; Journal Article ; Research Support, U.S. Gov't, P.H.S.
    ZDB-ID 219139-8
    ISSN 1522-1601 ; 8750-7587 ; 0021-8987 ; 0161-7567
    ISSN (online) 1522-1601
    ISSN 8750-7587 ; 0021-8987 ; 0161-7567
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  7. Article ; Online: Plants in Microgravity: Molecular and Technological Perspectives.

    Baba, Abu Imran / Mir, Mohd Yaqub / Riyazuddin, Riyazuddin / Cséplő, Ágnes / Rigó, Gábor / Fehér, Attila

    International journal of molecular sciences

    2022  Volume 23, Issue 18

    Abstract: ... about plant gravity-sensing mechanisms and the experimental possibilities to research microgravity-effects ... plants can sense and adapt to microgravity in space. Thus, the ability of plants to survive ... of both food and oxygen for survival. Recent space exploration has extended the field of plant biology ...

    Abstract Plants are vital components of our ecosystem for a balanced life here on Earth, as a source of both food and oxygen for survival. Recent space exploration has extended the field of plant biology, allowing for future studies on life support farming on distant planets. This exploration will utilize life support technologies for long-term human space flights and settlements. Such longer space missions will depend on the supply of clean air, food, and proper waste management. The ubiquitous force of gravity is known to impact plant growth and development. Despite this, we still have limited knowledge about how plants can sense and adapt to microgravity in space. Thus, the ability of plants to survive in microgravity in space settings becomes an intriguing topic to be investigated in detail. The new knowledge could be applied to provide food for astronaut missions to space and could also teach us more about how plants can adapt to unique environments. Here, we briefly review and discuss the current knowledge about plant gravity-sensing mechanisms and the experimental possibilities to research microgravity-effects on plants either on the Earth or in orbit.
    MeSH term(s) Ecosystem ; Humans ; Oxygen ; Plants ; Space Flight ; Weightlessness
    Chemical Substances Oxygen (S88TT14065)
    Language English
    Publishing date 2022-09-11
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2019364-6
    ISSN 1422-0067 ; 1422-0067 ; 1661-6596
    ISSN (online) 1422-0067
    ISSN 1422-0067 ; 1661-6596
    DOI 10.3390/ijms231810548
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  8. Article ; Online: Graphene and graphene oxide with anticancer applications: Challenges and future perspectives.

    Shafiee, Ali / Iravani, Siavash / Varma, Rajender S

    MedComm

    2022  Volume 3, Issue 1, Page(s) e118

    Abstract: Graphene-based materials have shown immense pertinence for sensing/imaging, gene/drug delivery ... ease of functionalization, high drug loading capacity, and reactive oxygen species induction potentials ... surface structure, and oxygen content), concentration, detection strategies, and cell types are vital ...

    Abstract Graphene-based materials have shown immense pertinence for sensing/imaging, gene/drug delivery, cancer therapy/diagnosis, and tissue engineering/regenerative medicine. Indeed, the large surface area, ease of functionalization, high drug loading capacity, and reactive oxygen species induction potentials have rendered graphene- (G-) and graphene oxide (GO)-based (nano)structures promising candidates for cancer therapy applications. Various techniques namely liquid-phase exfoliation, Hummer's method, chemical vapor deposition, chemically reduced GO, mechanical cleavage of graphite, arc discharge of graphite, and thermal fusion have been deployed for the production of G-based materials. Additionally, important criteria such as biocompatibility, bio-toxicity, dispersibility, immunological compatibility, and inflammatory reactions of G-based structures need to be systematically assessed for additional clinical and biomedical appliances. Furthermore, surface properties (e.g., lateral dimension, charge, corona influence, surface structure, and oxygen content), concentration, detection strategies, and cell types are vital for anticancer activities of these structures. Notably, the efficient accumulation of anticancer drugs in tumor targets/tissues, controlled cellular uptake properties, tumor-targeted drug release behavior, and selective toxicity toward the cells are crucial criteria that need to be met for developing future anticancer G-based nanosystems. Herein, important challenges and future perspectives of cancer therapy using G- and GO-based nanosystems have been highlighted, and the recent advancements are deliberated.
    Language English
    Publishing date 2022-02-09
    Publishing country China
    Document type Journal Article ; Review
    ISSN 2688-2663
    ISSN (online) 2688-2663
    DOI 10.1002/mco2.118
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  9. Article ; Online: Fluorescent probes for ozone-specific recognition: An historical overview and future perspectives

    Zheng, Dongbin / Huang, Jianjun / Fang, Yuyu / Deng, Yun / Peng, Cheng / Dehaen, W.

    Trends in Environmental Analytical Chemistry. 2023 June, v. 38 p.e00201-

    2023  

    Abstract: ... so far in this subject. The chemical structures of the probes, and their sensing mechanisms with O₃ and ... a potential threat to human health, but it also belongs to the class of reactive oxygen species (ROS ...

    Abstract Ozone (O₃) is not only an environment pollutant at tropospheric or ground-level that poses a potential threat to human health, but it also belongs to the class of reactive oxygen species (ROS) which has been demonstrated to be deeply involved in significant physiological and pharmacological functions. Additionally, this reactive molecule has been widely applied in modern society, for example in air sterilization, and in both food and medical disinfection. Hence, effective detection methods for ozone in both the environment and in biological systems are a necessity. In recent years, the detection systems based on fluorescent strategy have manifested as promising methods for rapid, effective, and quantitative detection, specifically for the spatial and temporal sampling for in vivo bioimaging analysis. Despite a huge surge in the rationally-designed fluorescent probes for specific ROS, relatively limited attention has been paid to the fluorescent recognition of O₃. Particularly, there is no systematic summarization for O₃-specific fluorescent probes. In this review, a general overview was provided with the aim of summarizing the progress made so far in this subject. The chemical structures of the probes, and their sensing mechanisms with O₃ and application in biological and environmental science are discussed in detail. Hopefully, this timely review can give useful information to the researchers in this field, resulting in this emerging area gaining more traction.
    Keywords air ; analytical chemistry ; bioimaging ; disinfection ; fluorescence ; human health ; ozone ; pollutants ; reactive oxygen species ; society ; troposphere ; Fluorescent probes ; Selective recognition ; ROS
    Language English
    Dates of publication 2023-06
    Publishing place Elsevier B.V.
    Document type Article ; Online
    ISSN 2214-1588
    DOI 10.1016/j.teac.2023.e00201
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  10. Article ; Online: Emerging perspectives on cytoglobin, beyond NO dioxygenase and peroxidase.

    Mathai, Clinton / Jourd'heuil, Frances L / Lopez-Soler, Reynold I / Jourd'heuil, David

    Redox biology

    2020  Volume 32, Page(s) 101468

    Abstract: ... sensing functions. ...

    Abstract Cytoglobin is an evolutionary ancient hemoglobin with poor functional annotation. Rather than constrained to penta coordination, cytoglobin's heme iron may exist either as a penta or hexacoordinated arrangement when exposed to different intracellular environments. Two cysteine residues at the surface of the protein form an intramolecular disulfide bond that regulates iron coordination, ligand binding, and peroxidase activity. Overall, biochemical results do not support a role for cytoglobin as a direct antioxidant enzyme that scavenges hydrogen peroxide because the rate of the reaction of cytoglobin with hydrogen peroxide is several orders of magnitude slower than metal and thiol-based peroxidases. Thus, alternative substrates such as fatty acids have been suggested and regulation of nitric oxide bioavailability through nitric oxide dioxygenase and nitrite reductase activities has received experimental support. Cytoglobin is broadly expressed in connective, muscle, and nervous tissues. Rational for differential cellular distribution is poorly understood but inducibility in response to hypoxia is one of the most established features of cytoglobin expression with regulation through the transcription factor hypoxia-inducible factor (HIF). Phenotypic characterization of cytoglobin deletion in the mouse have indicated broad changes that include a heightened inflammatory response and fibrosis, increase tumor burden, cardiovascular dysfunction, and hallmarks of senescence. Some of these changes might be reversed upon inhibition of nitric oxide synthase. However, subcellular and molecular interactions have been seldom characterized. In addition, specific molecular mechanisms of action are still lacking. We speculate that cytoglobin functionality will extend beyond nitric oxide handling and will have to encompass indirect regulatory antioxidant and redox sensing functions.
    MeSH term(s) Animals ; Cytoglobin ; Globins/genetics ; Mice ; Oxygenases ; Peroxidase ; Peroxidases
    Chemical Substances Cytoglobin ; Globins (9004-22-2) ; Peroxidases (EC 1.11.1.-) ; Peroxidase (EC 1.11.1.7) ; Oxygenases (EC 1.13.-) ; nitric oxide dioxygenase (EC 1.14.13.-)
    Language English
    Publishing date 2020-02-14
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 2701011-9
    ISSN 2213-2317 ; 2213-2317
    ISSN (online) 2213-2317
    ISSN 2213-2317
    DOI 10.1016/j.redox.2020.101468
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