Search results for "B vitamin"

showing 10 items of 54 documents

Metabolomics of Human Amniotic Fluid and Maternal Plasma during Normal Pregnancy

2016

Metabolic profiles of amniotic fluid and maternal blood are sources of valuable information about fetus development and can be potentially useful in diagnosis of pregnancy disorders. In this study, we applied 1H NMR-based metabolic profiling to track metabolic changes occurring in amniotic fluid (AF) and plasma (PL) of healthy mothers over the course of pregnancy. AF and PL samples were collected in the 2nd (T2) and 3rd (T3) trimester, prolonged pregnancy (PP) until time of delivery (TD). A multivariate data analysis of both biofluids reviled a metabolic switch-like transition between 2nd and 3rd trimester, which was followed by metabolic stabilization throughout the rest of pregnancy proba…

B Vitamins0301 basic medicineAmniotic fluidPhysiologyMaternal HealthPlacentalcsh:MedicineSpectrum analysis techniquesBiochemistryAcetoacetatesFetal DevelopmentPlasmachemistry.chemical_compoundGlucose MetabolismPregnancyPyruvic AcidBlood plasmaMedicine and Health SciencesMetabolitesAmino Acidslcsh:ScienceMultidisciplinary3-Hydroxybutyric AcidOrganic CompoundsObstetrics and GynecologyHematologyVitaminsKetonesBody FluidsChemistryBloodmedicine.anatomical_structurePregnancy Trimester SecondPhysical SciencesMetabolomeKetone bodiesCarbohydrate MetabolismFemaleAnatomyResearch Articlemedicine.drugPyruvateAdultmedicine.medical_specialtyPregnancy Trimester ThirdGestational AgeCholinesBiologyBlood PlasmaYoung Adult03 medical and health sciencesNMR spectroscopyInternal medicinePlacentamedicineHumansMetabolomicsCarnitineFetusPregnancy030102 biochemistry & molecular biologylcsh:ROrganic ChemistryChemical CompoundsBiology and Life SciencesAmniotic Fluidmedicine.diseaseResearch and analysis methodsMetabolismGlucose030104 developmental biologyEndocrinologychemistryWomen's Healthlcsh:QPyruvic acidAcidsPLOS ONE
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MTHFR 677C → T genotype modulates the effect of a 5-year supplementation with B-vitamins on homocysteine concentration: The SU.FOL.OM3 randomized con…

2018

Aims To study how MTHFR 677C→T genotype modulates the effect of supplementation with B-vitamins on total homocysteine (tHcy) and B-vitamin concentrations. Methods 2381 patients with a personal history of cardiovascular disease were randomly assigned to one of four groups: 1) B-vitamins alone (560 μg of 5-methyl-THF, 3 mg of vitamin B6 and 20 μg of vitamin B12), 2) n-3 fatty acids alone (600 mg of EPA and DHA in a 2:1 ratio), 3) B-vitamins and n-3 fatty acids, and 4) placebo. Participants were followed up for 4.7 years. At baseline and annually thereafter, biological parameters were assessed. Multivariate and linear mixed models were fit to study the interaction between B-vitamins and MTHFR …

B VitaminsMaleHomocysteinePhysiologylcsh:Medicine[SDV.GEN] Life Sciences [q-bio]/Genetics030204 cardiovascular system & hematologyBiochemistryGastroenterologychemistry.chemical_compound0302 clinical medicineBlood plasmaGenotypeMedicine and Health Sciences030212 general & internal medicinelcsh:ScienceHomocysteine[SDV.MHEP] Life Sciences [q-bio]/Human health and pathologyMultidisciplinarybiologyOrganic CompoundsFatty AcidsPyridoxineVitaminsMiddle AgedLipidsBody Fluids3. Good healthChemistryBloodCardiovascular DiseasesCreatininePhysical SciencesVitamin B ComplexFemaleAnatomyResearch Articlemedicine.medical_specialtyGenotypePlaceboBlood PlasmaCobalamins03 medical and health sciencesFolic AcidDouble-Blind MethodInternal medicine[SDV.BBM] Life Sciences [q-bio]/Biochemistry Molecular BiologymedicineHumans[SDV.BBM]Life Sciences [q-bio]/Biochemistry Molecular BiologyVitamin B12Methylenetetrahydrofolate Reductase (NADPH2)[SDV.GEN]Life Sciences [q-bio]/GeneticsCreatininePolymorphism Geneticbusiness.industryOrganic Chemistrylcsh:RChemical CompoundsBiology and Life Sciences[SDV.AEN] Life Sciences [q-bio]/Food and NutritionB vitaminschemistry[SDV.SPEE] Life Sciences [q-bio]/Santé publique et épidémiologieMethylenetetrahydrofolate reductaseDietary Supplementsbiology.protein[SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologielcsh:Qbusiness[SDV.AEN]Life Sciences [q-bio]/Food and NutritionBiomarkers[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyPLoS ONE
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Effects of oral niacin on endothelial dysfunction in patients with coronary artery disease: Results of the randomized, double-blind, placebo-controll…

2009

High-density-lipoproteins-cholesterol (HDL-C) is invertedly related to the incidence of cardiovascular events. Recent studies suggest that HDL-C directly improves endothelial function. Nicotinic acid (niacin) effectively raises serum HDL-C. We therefore hypothesized that treatment with niacin improves endothelial dysfunction in patients with coronary artery disease (CAD). One hundred seven patients with CAD were randomly assigned to double-blinded treatment for 12 weeks with extended-release (ER)-niacin 1000 mg/day (N) or placebo (C), respectively. Flow-mediated dilation (FMD) of the brachial artery, nitroglycerin-mediated endothelium-independent dilation (NMD) and serum lipid concentration…

Blood GlucoseMalemedicine.medical_specialtyBrachial ArteryVasodilator AgentsAdministration OralCoronary Artery DiseasePlaceboNiacinGastroenterologyCoronary artery diseaseNitroglycerinchemistry.chemical_compoundHigh-density lipoproteinDouble-Blind MethodInternal medicinemedicine.arterymedicineHumansProspective StudiesPhosphorylationEndothelial dysfunctionBrachial arteryTriglyceridesAgedUltrasonographyVascular diseasebusiness.industryCholesterol HDLMicrofilament Proteinsnutritional and metabolic diseasesCholesterol LDLMiddle AgedPhosphoproteinsmedicine.diseaseVasodilationB vitaminsTreatment OutcomeEndocrinologychemistryDelayed-Action PreparationsFemalelipids (amino acids peptides and proteins)Endothelium VascularCardiology and Cardiovascular MedicinebusinessCell Adhesion MoleculesBiomarkersNiacinAtherosclerosis
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Comparison of quantum dot-binding protein tags: Affinity determination by ultracentrifugation and FRET

2013

Abstract Background Hybrid complexes of proteins and colloidal semiconductor nanocrystals (quantum dots, QDs) are of increasing interest in various fields of biochemistry and biomedicine, for instance for biolabeling or drug transport. The usefulness of protein–QD complexes for such applications is dependent on the binding specificity and strength of the components. Often the binding properties of these components are difficult and time consuming to assess. Methods In this work we characterized the interaction between recombinant light harvesting chlorophyll a / b complex (LHCII) and CdTe/CdSe/ZnS QDs by using ultracentrifugation and fluorescence resonance energy transfer (FRET) assay exper…

ChemistryBinding proteinBiophysicsNanoparticleProtein tagBiochemistryCrystallographyB vitaminsFörster resonance energy transferQuantum dotQuantum DotsFluorescence Resonance Energy TransferNanoparticlesUltracentrifugeChlorophyll Binding ProteinsUltracentrifugationMolecular BiologyBinding selectivityProtein BindingBiochimica et Biophysica Acta (BBA) - General Subjects
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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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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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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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Exchange of Pigment-Binding Amino Acids in Light-Harvesting Chlorophyll a/b Protein

1999

Four amino acids in the major light-harvesting chlorophyll (Chl) a/b complex (LHCII) that are thought to coordinate Chl molecules have been exchanged with amino acids that presumably cannot bind Chl. Amino acids H68, Q131, Q197, and H212 are positioned in helixes B, C, A, and D, respectively, and, according to the LHCII crystal structure [Kühlbrandt, W., et al. (1994) Nature 367, 614-621], coordinate the Chl molecules named a(5), b(6), a(3), and b(3). Moreover, a double mutant was analyzed carrying exchanges at positions E65 and H68, presumably affecting Chls a(4) and a(5). All mutant proteins could be reconstituted in vitro with pigments, although the thermal stability of the resulting mut…

ChlorophyllChloroplastsMacromolecular SubstancesStereochemistryMolecular Sequence DataPhotosynthetic Reaction Center Complex ProteinsPigment bindingLight-Harvesting Protein ComplexesTrimerBiochemistrychemistry.chemical_compoundAmino Acid SequenceAmino AcidsPeptide sequencePlant Proteinschemistry.chemical_classificationBinding SitesChlorophyll APeasPhotosystem II Protein Complexfood and beveragesAmino acidChloroplastB vitaminsAmino Acid SubstitutionchemistryChlorophyllThylakoidMutagenesis Site-DirectedCarrier ProteinsBiochemistry
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