Search results for "Chlorophyll A"

showing 10 items of 159 documents

The N-terminal domain of the light-harvesting chlorophyll a/b-binding protein complex (LHCII) is essential for its acclimative proteolysis.

2000

AbstractVariations in the amount of the light-harvesting chlorophyll a/b-binding protein complex (LHCII) is essential for regulation of the uptake of light into photosystem II. An endogenous proteolytic system was found to be involved in the degradation of LHCII in response to elevated light intensities and the proteolysis was shown to be under tight regulation [Yang, D.-H. et al. (1998) Plant Physiol. 118, 827–834]. In this study, the substrate specificity and recognition site towards the protease were examined using reconstituted wild-type and mutant recombinant LHCII. The results show that the LHCII apoprotein and the monomeric form of the holoprotein are targeted for proteolysis while t…

Acclimative proteaseChlorophyll aN-terminal domainPhotosystem IImedicine.medical_treatmentProteolysisMutantMolecular Sequence DataPhotosynthetic Reaction Center Complex ProteinsBiophysicsLight-Harvesting Protein ComplexesRecognition siteEndogenyLight-harvesting complex IIBiochemistrylaw.inventionchemistry.chemical_compoundStructural BiologylawSpinacia oleraceaGeneticsmedicineAmino Acid SequenceMolecular BiologyProteasemedicine.diagnostic_testSequence Homology Amino AcidChemistryBinding proteinHydrolysisPhotosystem II Protein ComplexCell BiologyBiochemistryRecombinant light-harvesting complex IIProteolysisRecombinant DNAFEBS letters
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Distribution patterns of epiphytic reed-associated macroinvertebrate communities across European shallow lakes

2021

So far, research on plant-associated macroinvertebrates, even if conducted on a large number of water bodies, has mostly focused on a relatively small area, permitting limited conclusions to be drawn regarding potentially broader geographic effects, including climate. Some recent studies have shown that the composition of epiphytic communities may differ considerably among climatic zones. To assess this phenomenon, we studied macroinvertebrates associated with the common reed Phragmites australis (Cav.) Trin. ex Steud in 46 shallow lakes using a common protocol. The lakes, located in nine countries, covered almost the entire European latitudinal range (from <48°N to 61°N) and captured much …

Aquatic Ecology and Water Quality ManagementEnvironmental Engineering010504 meteorology & atmospheric sciencesRange (biology)FaunaClimate ChangeClimateContext (language use)010501 environmental sciences01 natural sciencesChironomidaePhragmitesPhragmites.Epiphytic faunaAsellidae[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyAnimalsEnvironmental Chemistry14. Life underwaterRelative species abundanceWaste Management and DisposalEcosystem0105 earth and related environmental sciences[SDV.EE]Life Sciences [q-bio]/Ecology environmentbiologyEcologyChlorophyll APlan_S-Compliant_NONutrients15. Life on landAquatische Ecologie en Waterkwaliteitsbeheerbiology.organism_classificationHelophytesInvertebratesPollutionLakesGeography13. Climate actioninternationalLittoralarticlesEpiphyteIce coverPhragmitesScience of the Total Environment
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Spatial distribution of phytoplankton in the Gulf of Riga during spring and summer stages

1999

Distribution patterns of chlorophyll a, phytoplankton species and biomass were studied in the Gulf of Riga, one of the most eutrophicated areas of the Baltic Sea. Quasi-synoptic measurements were carried out during four seasonal stages (spring bloom 1995, early-summer stage 1994, cyanobacterial bloom 1994, and late summer stage 1993). For each stage, common factor analysis was used to simplify the highly correlated patterns of nutrients, salinity, temperature and the depth of mixed layer. Obtained latent variables were used to explain spatial distribution of phytoplankton. Generally, the distribution of phytoplankton variables followed closely the patterns of nutrient rich fresh water. Duri…

Biomass (ecology)Chlorophyll aAquatic ScienceBiologySpring bloomOceanographyAphanizomenonbiology.organism_classificationchemistry.chemical_compoundOceanographychemistryPhytoplanktonPicoplanktonBloomEutrophicationEcology Evolution Behavior and SystematicsJournal of Marine Systems
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Empirical calibration of shell chemistry of Cyprideis torosa (Jones, 1850) (Crustacea: Ostracoda)

2012

Abstract Cyprideis torosa is a species of ostracode that inhabits a wide range of aquatic habitats in which its low Alk/Ca requirement is met. Its fossil remains are widely used in palaeoecological studies of coastal environments and inland salt lakes. We collected C. torosa from 20 water bodies near Valencia, Spain. Temperature, chlorophyll a concentration, electrical conductivity, and the concentration of major ions and oxygen isotopes were measured at each site. Between 2 and 20 live individuals of C. torosa were collected per site, their instar stage and sex determined and their shell chemistry (Mg/Ca, Sr/Ca and carbon and oxygen isotope composition) analyzed. Three of these sites were …

CalciteChlorophyll abiologyδ18OAquatic ecosystemMineralogyTotal dissolved solidsbiology.organism_classificationCrustaceanChlorideIsotopes of oxygenchemistry.chemical_compoundchemistryGeochemistry and PetrologyEnvironmental chemistrymedicinemedicine.drugGeochimica et Cosmochimica Acta
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CHLOROPHYLL a AGGREGATES IN HYDROCARBON SOLUTION, A PICOSECOND SPECTROSCOPY AND MOLECULAR MODELING STUDY

1993

Chlorophyll a aggregates in 3-methylpentane solution have been studied by using picosecond absorption and fluorescence spectroscopy and molecular modeling. Chlorophyll a aggregates give rise to reversible temperature changes in the absorption and fluorescence spectra. Time-dependent anisotropies were used to estimate rotational correlation times of the aggregates. These were indicative of the sizes of the aggregates. The rotational diffusion of the monomer and the two identified aggregates was hydrodynamic over the viscosity range studied (0.29–1.8 cP). Molecular mechanics calculations were used to predict the minimum energy structures of several chlorophyll a dimers suggested earlier in th…

Chlorophyll a010304 chemical physicsExcitonRotational diffusionGeneral Medicine010402 general chemistryPhotochemistry01 natural sciencesBiochemistryFluorescence spectroscopy0104 chemical scienceschemistry.chemical_compoundViscositychemistryChemical physicsPicosecond0103 physical sciencesPhysical and Theoretical ChemistryAbsorption (electromagnetic radiation)SpectroscopyPhotochemistry and Photobiology
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Effects of SO2 fumigations on photosynthetic CO2 gas exchange, chlorophyll a fluorescence emission and antioxidant enzymes in the lichens Evernia pru…

1999

The effects of elevated gaseous SO2 concentrations in the lichens Evernia prunastri (L.) Ach. and Ramalina farinacea (L.) Ach. were investigated by means of gas exchange, modulated chlorophyll fluorescence analysis and antioxidant enzyme assays. The response to SO2 of the studied species differed markedly. Net photosynthetic rates were more adversely affected in E. prunastri than in R. farinacea. In addition, processes dependent on thylakoid membrane integrity such as PSII-mediated electron flow and nonphotochemical quenching were reduced to a greater extent by exposure to SO2 in E. prunastri. Moreover, the ability to reoxidize the quinone pool was lower in this species. Finally, the activi…

Chlorophyll aAntioxidantbiologyEvernia prunastriPhysiologymedicine.medical_treatmentCell BiologyPlant ScienceGeneral MedicinePhotosynthesiscomplex mixturesEnzyme assayrespiratory tract diseasesRamalina farinaceachemistry.chemical_compoundchemistryThylakoidBotanyGeneticsmedicinebiology.proteinChlorophyll fluorescencePhysiologia Plantarum
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Comparison of thermal stratification, light attenuation and Chlorophyll-a dynamics between the ends of Lake Tanganyika

2002

Thermal structure, light attenuation, and chlorophyll-a dynamics within the upper 100 m at the northern and southern ends of Lake Tanganyika were measured from August 1995–July 1996. Pronounced variability of thermal structure in time, depth and region were observed. During the dry windy season (June–September), the water column in the south was largely isothermal down to 100 m, while in the north stratification was detectable. Subsequently, in October, cessation of winds coincided with a reestablishment and strengthening of thermal stratification in the south, and a distinct rise of a weakened thermocline in the north was accompanied by an increase in epilimnetic concentrations of dissolve…

Chlorophyll aAquatic Ecology and Water Quality ManagementWIMEKEcologyStratification (water)Thermal stabilityManagement Monitoring Policy and LawAquatic ScienceAquatische Ecologie en WaterkwaliteitsbeheerTotal dissolved solidschemistry.chemical_compoundWater columnOceanographychemistryDeep chlorophyllMixingChlorophyllTropical LakesRadiancePhotic zonePARThermoclineGeologyAquatic Ecosystem Health and Management
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Long-term phytoplankton changes in a shallow hypertrophic lake, Albufera of Valencia (Spain)

1994

A long-term phytoplankton study was carried out in the Albufera of Valencia, a shallow hypertrophic lake (surface area 21 km2, mean depth 1 m, total inorganic nitrogen load 155 g m-2 y-1, total inorganic phosphate load 15 g m-2 y-1) from 1980 to 1988. The lake functions as a reservoir for the surrounding rice cultivation. From 1940's to 1988, its phytoplankton assemblage has been altered from a mesotrophic to a hypertrophic character, as consequence of the increasing pollution. For 1980–88, annual variations in the phytoplankton were less pronounced than seasonal changes. The hypertrophic and morphometric features of the lake favoured the stability of the phytoplankton assemblage and chloro…

Chlorophyll aBiomass (ecology)biologyEcologySeasonalitybiology.organism_classificationmedicine.diseaseWaves and shallow waterchemistry.chemical_compoundOceanographychemistryAlgaePhytoplanktonmedicineEnvironmental sciencePaddy fieldEutrophication
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Folding in vitro of light-harvesting chlorophyll a/b protein is coupled with pigment binding.

2002

The major light-harvesting chlorophyll a/b protein (LHCIIb) of the plant photosynthetic apparatus is able to self-organise in vitro. When the recombinant apoprotein, Lhcb1, is solubilised in the denaturing detergent sodium (or lithium) dodecylsulfate (SDS or LDS) and then mixed with chlorophylls and carotenoids under renaturing conditions, structurally authentic LHCIIb forms. Assembly of functional LHCIIb, as indicated by the establishment of energy transfer between complex-bound chlorophyll molecules, occurs in two apparent kinetic steps with time constants of 10 to 30 seconds and 50 to 300 seconds, depending on the reaction conditions. Here, we use circular dichroism (CD) in the far-UV ra…

Chlorophyll aCircular dichroismProtein FoldingCircular DichroismPigment bindingProtein domainPhotosynthetic Reaction Center Complex ProteinsLight-Harvesting Protein ComplexesPhotochemistryPhotosynthesisProtein Structure SecondaryRecombinant Proteinschemistry.chemical_compoundPigmentchemistryStructural BiologyChlorophyllvisual_artvisual_art.visual_art_mediumMolecular BiologyProtein secondary structureMicellesSequence DeletionJournal of molecular biology
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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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