Search results for "Green"

showing 10 items of 1660 documents

Making natural products from renewable feedstocks: back to the roots?

2019

Covering: up to mid-2019 This review highlights the utilization of biomass-derived building blocks in the total synthesis of natural products. An overview over several renewable feedstock classes, namely wood/lignin, cellulose, chitin and chitosan, fats and oils, as well as terpenes, is given, covering the time span from the initial beginning of natural product synthesis until today. The focus is put on the origin of the employed carbon atoms and on the nature of the complex structures that were assembled therefrom. The emerging trend of turning away from petrochemically derived starting materials back to bio-based resources, just as seen in the early days of total synthesis, shall be demon…

ChitinRaw material010402 general chemistryLignin01 natural sciencesBiochemistryNatural (archaeology)chemistry.chemical_compoundDrug DiscoveryLigninBiomassCelluloseCelluloseBiological ProductsChitosanTerpenes010405 organic chemistrybusiness.industryOrganic ChemistryTotal synthesisGreen Chemistry TechnologyPulp and paper industryWoodCarbon0104 chemical sciencesRenewable energychemistryEnvironmental sciencebusinessOilsNatural Product Reports
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Organization of the pigment molecules in the chlorophyll a/c light-harvesting complex of Pleurochloris meiringensis (xanthophyceae). Characterization…

1997

Abstract By the aid of circular dichroism (CD), absorbance and fluorescence spectroscopy, we studied the molecular organization of the pigment molecules in cells, isolated chloroplasts and the chlorophyll a / c light-harvesting complex (LHC) associated with photosystem II of the chlorphyll c -containing alga, Pleurochloris meiringensis . In cells and chloroplasts, similarly to higher plant chloroplasts, a (+) 693 nm CD band accompanied by a tail outside the absorbance indicated a long-range chiral organization of the chlorophyll molecules. The LHCII of these algae exhibited an intense negative CD band at 679 nm. However, in contrast to the chlorophyll a / b LHCII of higher plants, where the…

Chlorophyll aCircular dichroismRadiationRadiological and Ultrasound TechnologyPhotosystem IIBiophysicsfood and beveragesLight-harvesting complexes of green plantsPhotochemistryChloroplastAbsorbanceLight-harvesting complexchemistry.chemical_compoundchemistryChlorophyllRadiology Nuclear Medicine and imagingJournal of Photochemistry and Photobiology B: Biology
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Early Steps in the Assembly of Light-harvesting Chlorophyll a/b Complex

2004

The light-harvesting chlorophyll a/b complex (LHCIIb) spontaneously assembles from its pigment and protein components in detergent solution. The formation of functional LHCIIb can be detected in time-resolved experiments by monitoring the establishment of excitation energy transfer from protein-bound chlorophyll b to chlorophyll a. To detect the possible initial steps of chlorophyll binding that may not yet give rise to chlorophyll b-to-a energy transfer, we have monitored LHCIIb assembly by measuring excitation energy transfer from a fluorescent dye, covalently bound to the protein, to the chlorophylls. In order to exclude interference of the dye with protein folding or pigment binding, th…

Chlorophyll bChlorophyll aChemistryPigment bindingChlorosomeLight-harvesting complexes of green plantsCell BiologyPhotochemistryBiochemistrychemistry.chemical_compoundChlorophyllChlorophyll bindingMolecular BiologyChlorophyll fluorescenceJournal of Biological Chemistry
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Light-harvesting chlorophyll a/b-binding protein stably inserts into etioplast membranes supplemented with Zn-pheophytin a/b.

1997

Light-harvesting chlorophyll a/b-binding protein, LHCP, or its precursor, pLHCP, cannot be stably inserted into barley etioplast membranes in vitro. However, when these etioplast membranes are supplemented with the chlorophyll analogs Zn-pheophytin a/b, synthesized in situ from Zn-pheophorbide a/b and digeranyl pyrophosphate, pLHCP is inserted into a protease-resistant state. This proves that chlorophyll is the only component lacking in etioplast membranes that is necessary for stable LHCP insertion. Synthesis of Zn-pheophytin b alone promotes insertion of LHCP in vitro into a protease-resistant state, whereas synthesis of Zn-pheophytin a alone does not. Insertion of pLHCP into etioplast me…

Chlorophyll bChlorophyllChlorophyll aChlorophyll APhotosynthetic Reaction Center Complex ProteinsLight-Harvesting Protein ComplexesPheophytinsCell BiologyBiologyPlantsBiochemistrychemistry.chemical_compoundB vitaminsZincMembraneGreeningBiochemistrychemistryEtioplastChlorophyllThylakoidMolecular BiologyThe Journal of biological chemistry
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Consecutive binding of chlorophylls a and b during the assembly in vitro of light-harvesting chlorophyll-a/b protein (LHCIIb).

2006

The apoprotein of the major light-harvesting chlorophyll a/b complex (LHCIIb) is post-translationally imported into the chloroplast, where membrane insertion, protein folding, and pigment binding take place. The sequence and molecular mechanism of the latter steps is largely unknown. The complex spontaneously self-organises in vitro to form structurally authentic LHCIIb upon reconstituting the unfolded recombinant protein with the pigments chlorophyll a, b, and carotenoids in detergent micelles. Former measurements of LHCIIb assembly had revealed two apparent kinetic phases, a faster one (tau1) in the range of 10 s to 1 min, and a slower one (tau2) in the range of several min. To unravel th…

Chlorophyll bChlorophyllChlorophyll aTime FactorsPigment bindingLight-Harvesting Protein ComplexesModels BiologicalFluorescencechemistry.chemical_compoundStructural BiologyChlorophyll bindingAnimalsProtein Structure QuaternaryMolecular BiologyChlorophyll ACircular DichroismLight-harvesting complexes of green plantsChloroplastB vitaminsKineticsBiochemistrychemistryEnergy TransferChlorophyllBiophysicsChlamydomonas reinhardtiiProtein BindingJournal of molecular biology
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Chlorophyll b is involved in long-wavelength spectral properties of light-harvesting complexes LHC I and LHC II.

2001

AbstractChlorophyll (Chl) molecules attached to plant light-harvesting complexes (LHC) differ in their spectral behavior. While most Chl a and Chl b molecules give rise to absorption bands between 645 nm and 670 nm, some special Chls absorb at wavelengths longer than 700 nm. Among the Chl a/b-antennae of higher plants these are found exclusively in LHC I. In order to assign this special spectral property to one chlorophyll species we reconstituted LHC of both photosystem I (Lhca4) and photosystem II (Lhcb1) with carotenoids and only Chl a or Chl b and analyzed the effect on pigment binding, absorption and fluorescence properties. In both LHCs the Chl-binding sites of the omitted Chl species…

Chlorophyll bChlorophyllPhotosystem IIPigment bindingPhotosynthetic Reaction Center Complex ProteinsBiophysicsLight-Harvesting Protein ComplexesPhotosystem IPhotochemistryBiochemistryAbsorptionLight-harvesting complexReconstitutionchemistry.chemical_compoundSolanum lycopersicumStructural BiologySpinacia oleraceaGeneticsChlorophyll bindingCentrifugation Density GradientMolecular BiologyChlorophyll fluorescenceLong-wavelength chlorophyllBinding SitesPhotosystem I Protein ComplexChemistryChlorophyll ATemperaturePhotosystem II Protein ComplexLight-harvesting complexes of green plantsCell BiologyPigments BiologicalPlant LeavesSpectrometry FluorescenceLight-harvesting complexChlorophyll fluorescenceChlorophyll bindingProtein BindingFEBS letters
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Effects of chlorophyll a, chlorophyll b, and xanthophylls on the in vitro assembly kinetics of the major light-harvesting chlorophyll a/b complex, LH…

2001

The major light-harvesting chlorophyll a/b complex (LHCIIb) of photosystem II in higher plants can be reconstituted with pigments in lipid-detergent micelles. The pigment-protein complexes formed are functional in that they perform efficient internal energy transfer from chlorophyll b to chlorophyll a. LHCIIb formation in vitro, can be monitored by the appearance of energy transfer from chlorophyll b to chlorophyll a in time-resolved fluorescence measurements. LHCIIb is found to form in two apparent kinetic steps with time constants of about 30 and 200 seconds. Here we report on the dependence of the LHCIIb formation kinetics on the composition of the pigment mixture used in the reconstitut…

Chlorophyll bchemistry.chemical_classificationChlorophyll afood and beveragesLight-harvesting complexes of green plantsPhotochemistrychemistry.chemical_compoundB vitaminschemistryNeoxanthinStructural BiologyChlorophyllXanthophyllChlorophyll bindingMolecular BiologyJournal of Molecular Biology
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Evaluation of Sentinel-2 Red-Edge Bands for Empirical Estimation of Green LAI and Chlorophyll Content

2011

ESA’s upcoming satellite Sentinel-2 will provide Earth images of high spatial, spectral and temporal resolution and aims to ensure continuity for Landsat and SPOT observations. In comparison to the latter sensors, Sentinel-2 incorporates three new spectral bands in the red-edge region, which are centered at 705, 740 and 783 nm. This study addresses the importance of these new bands for the retrieval and monitoring of two important biophysical parameters: green leaf area index (LAI) and chlorophyll content (Ch). With data from several ESA field campaigns over agricultural sites (SPARC, AgriSAR, CEFLES2) we have evaluated the efficacy of two empirical methods that specifically make use of the…

ChlorophyllChlorophyll contentMean squared errorRed edgelcsh:Chemical technologyBiochemistrySentinel-2; chlorophyll; LAI; NAOC; NDI; red-edgeGreen leafArticleNDIAnalytical Chemistryred-edgelcsh:TP1-1185Electrical and Electronic EngineeringSpacecraftInstrumentationRemote sensingNAOCHyperspectral imagingSpectral bandsReflectivityAtomic and Molecular Physics and OpticsLAIPlant LeavesSpectrophotometryTemporal resolutionEnvironmental scienceSentinel-2Sensors (Basel, Switzerland)
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Reply to Magnani et al.: Linking large-scale chlorophyll fluorescence observations with cropland gross primary production

2014

Guanter, Luis et al.

ChlorophyllCrops AgriculturalMultidisciplinary[SDV]Life Sciences [q-bio]educationPrimary productionVegetationModels TheoreticalPhotosynthesisAtmospheric sciencesFluorescencechemistry.chemical_compoundGeographychemistry13. Climate actionChlorophyllGreenhouse gasTerrestrial ecosystemSatelliteLettersPhotosynthesisChlorophyll fluorescenceRemote sensing
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Influence of Feeding and Oviposition by Phytophagous Pentatomids on Photosynthesis of Herbaceous Plants

2010

Abstract Feeding by herbivorous insects may change photosynthetic activity of host plants. We studied how feeding and oviposition by herbivorous stink bugs, Murgantia histrionica and Nezara viridula (Heteroptera: Pentatomidae), affect photosynthetic parameters of Brassica oleracea (savoy cabbage) and Phaseolus vulgaris (French bean). First, we measured photosynthetic gas exchange, chlorophyll fluorescence imaging, and emission of induced volatile organic compounds (VOC) immediately after feeding and during a post-feeding period. Photosynthesis decreased rapidly and substantially in B. oleracea and P. vulgaris infested by feeding bugs. Stomatal conductance did not decrease proportionally wit…

ChlorophyllStomatal conductanceTime FactorsOvipositionBrassicaBiologyPhotosynthesisBiochemistryGas Chromatography-Mass SpectrometryHost-Parasite InteractionsHeteropteraTritrophic interactionschemistry.chemical_compoundPhotosynthesifoodPentatomidaeparasitic diseasesBotanyAnimalsPhotosynthesisChlorophyll fluorescenceEcology Evolution Behavior and SystematicsPhaseolusMurgantia histrionicaVolatile Organic CompoundsTerpenesFeedingSavoy cabbagefungiGreen leaf volatilesNezara viridulaFeeding BehaviorGeneral MedicinePentatomidaebiology.organism_classificationfood.foodPlant LeavesHeteroptera; Pentatomidae; Murgantia histrionica; Nezara viridula; Feeding; Oviposition; Photosynthesis; Tritrophic interactionsSettore AGR/11 - Entomologia Generale E ApplicatachemistryNezara viridulaChlorophyllFemaleSesquiterpenesJournal of Chemical Ecology
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