Search results for "visual"

showing 10 items of 7386 documents

Purification and identification of chlorophyll c1 from the green alga Mantoniella squamata

1987

Abstract The prasinophycean alga Mantoniella squamata contains besides chlorophyll a and b a third chlorophyll c -like pigment in its light-harvesting antenna. This third chlorophyll was purified by reverse phase and polyethylene chromatography in order to identify its chemical structure. The absorption and fluorescence spectra were measured not only from the doubly purified pigment, but also from its Mg-free derivates. The spectra were compared with those of authentic chlorophyll c and of Mg-2,4-desethyl-2,4-divinylpheoporphyrin a 5 monomethyl ester which was isolated from Rhodobacter capsulata . The results show that the pigment from Mantoniella agrees best with chlorophyll c 1 . In order…

Chlorophyll aRhodobacterChromatographybiologyPrasinophyceaeBiophysicsChlorophyll cCell Biologybiology.organism_classificationPhotochemistryBiochemistrychemistry.chemical_compoundPigmentchemistryChlorophyllMantoniellavisual_artBacterial pigmentvisual_art.visual_art_mediumBiochimica et Biophysica Acta (BBA) - Bioenergetics
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Preparation of Native and Recombinant Light-Harvesting Chlorophyll-<I>a/b </I>Complex

2004

Procedures to isolate native light-harvesting chlorophyll-a/b complex (LHCIIb) and to reconstitute recombinant LHCIIb are described. Separation of trimeric from monomeric forms and free pigment by sucrose density-gradient ultracentrifugation can be applied to both native and reconstituted complexes. The preparations are characterized by their pigment composition, protein pattern, and spectral properties.

Chlorophyll aSucrosePigment compositionlaw.inventionchemistry.chemical_compoundB vitaminsPigmentMonomerchemistryBiochemistrylawvisual_artRecombinant DNAvisual_art.visual_art_mediumUltracentrifuge
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Methodical Studies in the Separation of Chlorophyll-Protein Complexes by Polyacrylamide Gel Electrophoresis

1980

Summary Chlorophyll-protein complexes from thylakoids of Sinapis alba plants were separated, using Tris-HCl and Tris-borate buffer in the sodium dodecyl sulphate acrylamide gel electrophoresis. In the electrophoretogram with Tris-borate buffer, 6 bands could be characterized in the gel pattern. In addition to the three major green zones (P-700-chlorophyll a-protein, light-harvesting chlorophyll a/b-protein, free pigment zone), which were also observed in experiments with the Tris-HC1 buffer, three further bands (LHCP 1 , LHCP 2 , CPa) were electrophoretically separated. An elongation of the electrophoretical period resulted especially in a decrease of the proportion of the light-harvesting …

Chlorophyll bChlorophyll aChromatographyElectrophoretogramAnalytical chemistryGeneral MedicineAbsorbanceElectrophoresischemistry.chemical_compoundPigmentchemistryChlorophyllvisual_artvisual_art.visual_art_mediumPolyacrylamide gel electrophoresisZeitschrift für Pflanzenphysiologie
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Comparative analysis of the composition of two chlorophyll-b-containing light-harvesting complexes.

1990

The major light-harvesting complexes from Mantoniella squamata (Prasinophyceae) and from Chlorella fusca (Chlorophyceae) were analyzed with respect to polypeptide composition and pigmentation. It was found that the polypeptides of Mantoniella are smaller than those of Chlorella and bind twice the amount of pigment. We assume that the amount of pigment per polypeptide is of ecological as well as of taxonomical importance.

Chlorophyll bbiologyPrasinophyceaeChlorophyceaePlant Sciencebiology.organism_classificationLight-harvesting complexChlorellachemistry.chemical_compoundPigmentAlgaechemistryMantoniellavisual_artBotanyvisual_art.visual_art_mediumGeneticssense organsPlanta
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Influence of Heavy Metal Concentration on Chlorophyll Content in Pleurozium schreberi Mosses

2020

Abstract The aim of biomonitoring is assessment of environment condition. Biomonitoring studies with the use of mosses focus mainly on analytes accumulation and determining elements’ concentrations in the study area. It is often forgotten that a bioindicator should be alive during biomonitoring studies (which can be determined by, e.g., analysis of chlorophyll content). The objective of the carried out research was an assessment of the influence of selected heavy metals concentration: Ni, Cu, Zn, Cd and Pb accumulated by Pleurozium schreberi mosses during 3-month exposition within active biomonitoring, on their vitality, assessed by an analysis of a and b chlorophyll concentrations. The stu…

Chlorophyll contentEnvironmental Engineering010504 meteorology & atmospheric sciencesbiologyChemistry010501 environmental sciencesbiology.organism_classificationactive biomonitoring01 natural sciencesmossesMetalchlorophyll contentvisual_artEnvironmental chemistryvisual_art.visual_art_mediumEnvironmental Chemistryheavy metals0105 earth and related environmental sciencesPleurozium schreberiEcological Chemistry and Engineering S
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Quality evaluation of extra-virgin olive oils from Sicilian genotypes grown in a high-density system

2019

Studying the sensory profile and chemical composition of monovarietal extra-virgin olive oils (EVOOs) is important to define and manage their quality and uniqueness. Chemical and sensory traits of olive oils from 14 minor Sicilian olive genotypes in comparison with oils from six major Sicilian and three international cultivars were analysed. Oils were extracted in 2015 from fruit of the 23 genotypes grown in an experimental orchard at a planting density of 1140 trees ha−1. Fatty acid composition, phenol composition, carotenoid content and antioxidant power were determined and analysed using univariate and multivariate procedures, in particular Nocellara Etnea along with carotenoid, phenol c…

Chlorophyll0301 basic medicineSettore CHIM/10 - Chimica Degli AlimentiGenotypeSettore AGR/13 - Chimica Agraria030209 endocrinology & metabolismSensory profileBiologyAntioxidants03 medical and health sciences0302 clinical medicinePhenolsOleaPlant OilsCultivarOlive OilCarotenoidChemical compositionCarotenoids chlorophyll fatty acids phenols sensory attributes UHPLC-HESI-MSchemistry.chemical_classification030109 nutrition & dieteticsFatty Acidsfood and beveragesSowingCarotenoidslanguage.human_languageSettore AGR/03 - Arboricoltura Generale E Coltivazioni ArboreeHorticulturechemistryFruitTastelanguageComposition (visual arts)OrchardSicilianFood ScienceInternational Journal of Food Sciences and Nutrition
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Pigment binding of photosystem I light-harvesting proteins.

2002

Light-harvesting complexes (LHC) of higher plants are composed of at least 10 different proteins. Despite their pronounced amino acid sequence homology, the LHC of photosystem II show differences in pigment binding that are interpreted in terms of partly different functions. By contrast, there is only scarce knowledge about the pigment composition of LHC of photosystem I, and consequently no concept of potentially different functions of the various LHCI exists. For better insight into this issue, we isolated native LHCI-730 and LHCI-680. Pigment analyses revealed that LHCI-730 binds more chlorophyll and violaxanthin than LHCI-680. For the first time all LHCI complexes are now available in t…

ChlorophyllChlorophyll aPhotosystem IIPigment bindingPhotosynthetic Reaction Center Complex ProteinsLight-Harvesting Protein ComplexesBiologyXanthophyllsPhotosystem IBiochemistrychemistry.chemical_compoundPigmentSolanum lycopersicumMolecular BiologyP700Binding SitesPhotosystem I Protein ComplexChlorophyll Afood and beveragesPhotosystem II Protein ComplexCell BiologyPigments Biologicalbeta CarotenePlant LeavesSpectrometry FluorescencechemistryBiochemistryChlorophyllvisual_artvisual_art.visual_art_mediumViolaxanthinThe Journal of biological chemistry
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Water soluble chlorophyll binding protein of higher plants: A most suitable model system for basic analyses of pigment–pigment and pigment–protein in…

2011

Abstract This short review paper describes spectroscopic studies on pigment–pigment and pigment–protein interactions of chlorophyll (Chl) a and b bound to the recombinant protein of class IIa water soluble chlorophyll protein (WSCP) from cauliflower. Two Chls form a strongly excitonically coupled open sandwich dimer within the tetrameric protein matrix. In marked contrast to the mode of excitonic coupling of Chl and bacterio-Chl molecules in light harvesting complexes and reaction centers of all photosynthetic organisms, the unique structural pigment array in the Chl dimer of WSCP gives rise to an upper excitonic state with a large oscillator strength. This property opens the way for thorou…

ChlorophyllPhysiologyTetrameric proteinDimerLight-Harvesting Protein ComplexesTemperatureWatermacromolecular substancesPlant SciencePlantsPhotochemistryPhotosynthesisModels BiologicalLight-harvesting complexchemistry.chemical_compoundPigmentchemistryChlorophyllvisual_artvisual_art.visual_art_mediumChlorophyll bindingMoleculeAgronomy and Crop ScienceJournal of Plant Physiology
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The Light-Harvesting Chlorophyll a/b Complex Can Be Reconstituted in Vitro from Its Completely Unfolded Apoprotein

2003

The major light-harvesting chlorophyll a/b protein (LHCIIb) of higher plants is one of the few membrane proteins that can be refolded in vitro. During folding, the apoprotein is assembled with pigments to form a structurally authentic and functional pigment--protein complex. All reconstitution procedures used so far include solubilization of the apoprotein in sodium dodecyl sulfate (SDS) where the protein adopts approximately half of its alpha-helical folding present in the native structure. This paper shows that this preformed alpha-helix is not a prerequisite for LHCIIb folding in vitro. The apoprotein can also be reconstituted starting from a solution in guanidinium hydrochloride (Gnd) w…

ChlorophyllProtein FoldingChlorophyll ACircular DichroismPhotosynthetic Reaction Center Complex ProteinsKineticsLight-Harvesting Protein Complexesfood and beveragesBiochemistryFluorescenceIn vitroFolding (chemistry)B vitaminschemistry.chemical_compoundPigmentSpectrometry FluorescenceBiochemistrychemistryMembrane proteinvisual_artvisual_art.visual_art_mediumSodium dodecyl sulfateApoproteinsBiochemistry
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The intensification of absorbance changes in leaves by light-dispersion

1979

In dispersive samples, like leaves, the absorbance of pigments is intensified. The intensification is due to a longer optical path through the dispersive sample. However, in chloroplast suspensions the optical path is not much longer than in clear solutions. The factor of intensification β (=the lengthening of the optical path) is calculated by comparing the absorbance of leaves and the absorbance of chloroplast suspensions with equal pigment-content. This method also includes the influence of possible sieve effects which could decrease absorbance. The measurements are carried out with high- and low-light leaves of different thickness and pigment content. The intensification of absorbance w…

ChloroplastAbsorbanceCytochrome fPigmentChromatographyChemistryvisual_artLight dispersionGeneticsAnalytical chemistryvisual_art.visual_art_mediumsense organsPlant SciencePlanta
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