Search results for "STING"

showing 10 items of 3756 documents

Spontaneous periodic and bursting current oscillations in iron corrosion by dichromate: a useful study for simulating biological systems

1995

Abstract Studies on chemical and electrochemical oscillating systems are very useful in understanding more complex biological systems. Spontaneous periodic and bursting current oscillations were found in iron/dichromate systems coupled with graphite or zinc electrodes. In this paper, we study some phenomenological features of the two systems: their typical oscillation profiles and the influence of external resistance. The results are explained by the Franck-Fitzhugh model using the mixed potential theory.

ChemistryMixed potential theoryOscillationInorganic chemistryBiophysicsElectrochemistryCorrosionBurstingChemical physicsElectrodeElectrochemistryGraphitePhysical and Theoretical ChemistryCurrent (fluid)Bioelectrochemistry and Bioenergetics
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Bioinspired self-assembly of tyrosinase-modified silicatein and fluorescent core-shell silica spheres.

2014

Inspired by the intermolecular cross-linking of mussel foot proteins and their adhesive properties, tyrosinase has been used to modify recombinant silicatein. DOPA/DOPAquinone-mediated cross-linking and interfacial interactions enhanced both self-assembly of silicatein building blocks and templating of core–shell silica spheres, resulting in fluorescent biomimetic silicatein–silica hybrid mesofibers.

ChemistryMonophenol MonooxygenaseTyrosinaseBiophysicsNanotechnologySilicon DioxideBiochemistryFluorescenceCathepsinsPoriferaCore shellNanoporesBiomimetic MaterialsMaterials TestingMolecular MedicineAnimalsSelf-assemblyAdhesiveEngineering (miscellaneous)NanospheresBiotechnologyFluorescent DyesBioinspirationbiomimetics
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Morphological parameters as predictors of successful correction of Class III malocclusion

2001

The aim of the study was to assess pre-treatment cephalometric parameters and measurements of the size of the apical bases as predictors of successful orthodontic correction of Class III malocclusions. Pre- and post-treatment lateral cephalograms and study models of 80 completed Class III subjects were examined to obtain 23 cephalometric parameters taken mainly from the analyses of McNamara and Schwarz, and to measure the size of the apical bases. Success of occlusal correction was evaluated as the percentage change of peer assessment rating score during treatment, which was used as the dependent variable in multivariate statistical analyses testing the predictive value of the parameters as…

ChinMultivariate analysisCephalometryDentistryOrthodonticsMandibleOrthodontics CorrectiveStatistics NonparametricDental ArchMaxillamedicineHumansCraniofacialChildRetrospective StudiesOrthodonticsbusiness.industryAge FactorsNonparametric statisticsMandibleVertical DimensionCraniometryPeer Review Health Caremedicine.diseaseModels DentalMalocclusion Angle Class IIITreatment OutcomeMaxillaMultivariate AnalysisTooth pathologyLinear ModelsMalocclusionbusinessToothFollow-Up StudiesForecastingThe European Journal of Orthodontics
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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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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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Synthesis and Functional Reconstitution of Light-Harvesting Complex II into Polymeric Membrane Architectures.

2015

One of most important processes in nature is the harvesting and dissipation of solar energy with the help of light-harvesting complex II (LHCII). This protein, along with its associated pigments, is the main solar-energy collector in higher plants. We aimed to generate stable, highly controllable, and sustainable polymer-based membrane systems containing LHCII-pigment complexes ready for light harvesting. LHCII was produced by cell-free protein synthesis based on wheat-germ extract, and the successful integration of LHCII and its pigments into different membrane architectures was monitored. The unidirectionality of LHCII insertion was investigated by protease digestion assays. Fluorescence …

Chlorophyll bChlorophyllChlorophyll aCell-Free SystemPolymersLipid BilayersLight-Harvesting Protein ComplexesGeneral ChemistryPhotochemistryFluorescenceCatalysisFluorescence spectroscopyFluorescenceLight-harvesting complexchemistry.chemical_compoundMembraneSpectrometry FluorescencechemistryChlorophyllBiophysicsLipid bilayerPeptide HydrolasesAngewandte Chemie (International ed. in English)
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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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Determination of relative chlorophyll binding affinities in the major light-harvesting chlorophyll a/b complex.

2002

The major light-harvesting complex (LHCIIb) of photosystem II can be reconstituted in vitro from its recombinant apoprotein in the presence of a mixture of carotenoids and chlorophylls a and b. By varying the chlorophyll a/b ratio in the reconstitution mixture, the relative amounts of chlorophyll a and chlorophyll b bound to LHCIIb can be changed. We have analyzed the chlorophyll stoichiometry in recombinant wild type and mutant LHCIIb reconstituted at different chlorophyll a/b ratios in order to assess relative affinities of the chlorophyll-binding sites. This approach reveals five sites that exclusively bind chlorophyll b. Another site exhibits a slight preference of chlorophyll b over ch…

Chlorophyll bChlorophyllChlorophyll aPhotosystem IIPhotosynthetic Reaction Center Complex ProteinsLight-Harvesting Protein ComplexesBiologyBiochemistrychemistry.chemical_compoundChlorophyll bindingBinding siteMolecular BiologyCarotenoidchemistry.chemical_classificationBinding SitesPeasPhotosystem II Protein ComplexCell BiologyRecombinant ProteinsB vitaminsKineticsBiochemistrychemistryAmino Acid SubstitutionChlorophyllMutagenesis Site-DirectedThe 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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