Search results for "Archaeal Proteins"

showing 10 items of 10 documents

GH57 amylopullulanase from Desulfurococcus amylolyticus JCM 9188 can make highly branched cyclodextrin via its transglycosylation activity.

2018

Abstract Desulfurococcus amylolyticus is an anaerobic and hyperthermophilic crenarchaeon that can use various carbohydrates as energy sources. We found a gene encoding a glycoside hydrolase family 57 amylolytic enzymes (DApu) in a putative carbohydrate utilization gene cluster in the genome of D. amylolyticus . This gene has an open reading frame of 1,878 bp and consists of 626 amino acids with a molecular mass of 71 kDa. Recombinant DApu (rDApu) completely hydrolyzed pullulan to maltotriose by attacking α-1,6-glycosidic linkages, and was able to produce glucose and maltose from soluble starch and amylopectin. Although rDApu showed no activity toward α-cyclodextrin (CD) and β-CD, maltooctao…

0301 basic medicineGlycosylationGlycoside HydrolasesArchaeal ProteinsBioengineeringApplied Microbiology and BiotechnologyBiochemistrySubstrate Specificity03 medical and health scienceschemistry.chemical_compoundHydrolysisOpen Reading FramesGene clusterEnzyme StabilityMaltotrioseGlycoside hydrolaseCloning MolecularMaltoseGlucansCyclodextrins030102 biochemistry & molecular biologyDesulfurococcaceaePullulanMaltoseMolecular Weight030104 developmental biologychemistryBiochemistryAmylopectinEnergy sourceTrisaccharidesBiotechnologyEnzyme and microbial technology
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Molecular organization of selected prokaryotic S-layer proteins.

2005

Regular crystalline surface layers (S-layers) are widespread among prokaryotes and probably represent the earliest cell wall structures. S-layer genes have been found in approximately 400 different species of the prokaryotic domains bacteria and archaea. S-layers usually consist of a single (glyco-)protein species with molecular masses ranging from about 40 to 200 kDa that form lattices of oblique, tetragonal, or hexagonal architecture. The primary sequen ces of hyperthermophilic archaeal species exhibit some characteristic signatures. Further adaptations to their specific environments occur by various post-translational modifications, such as linkage of glycans, lipids, phosphate, and sulf…

GlycanArchaeal ProteinsImmunologyMolecular Sequence DataApplied Microbiology and BiotechnologyMicrobiologyCell wallBacterial ProteinsCell WallGeneticsExtracellularMolecular BiologyGeneMembrane GlycoproteinsbiologyBacteriaBase SequenceGeneral Medicinebiology.organism_classificationArchaeaBiochemistryCytoplasmbiology.proteinProtein stabilizationBacteriaArchaeaCanadian journal of microbiology
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Ligation Tunes Protein Reactivity in an Ancient Haemoglobin: Kinetic Evidence for an Allosteric Mechanism in Methanosarcina acetivorans Protoglobin

2012

Abstract: Protoglobin from Methanosarcina acetivorans (MaPgb) is a dimeric globin with peculiar structural properties such as a completely buried haem and two orthogonal tunnels connecting the distal cavity to the solvent. CO binding to and dissociation from MaPgb occur through a biphasic kinetics. We show that the heterogenous kinetics arises from binding to (and dissociation from) two tertiary conformations in ligation-dependent equilibrium. Ligation favours the species with high binding rate (and low dissociation rate). The equilibrium is shifted towards the species with low binding (and high dissociation) rates for the unliganded molecules. A quantitative model is proposed to describe t…

HEME ENVIRONMENTStereochemistrySILICA-GELSArchaeal ProteinsAllosteric regulationKineticsBiophysicslcsh:MedicinePlasma protein bindingBiochemistryDissociation (chemistry)HemoglobinsAllosteric RegulationBINDINGINTERNAL HYDROPHOBIC CAVITIESMoleculeGlobinFerrous CompoundsMethanosarcina acetivoransSettore BIO/10lcsh:ScienceBiologyT STATE HEMOGLOBINCarbon MonoxideMultidisciplinaryPhotolysisbiologyChemistryPhysicslcsh:RProteinsMethanosarcinabiology.organism_classificationRecombinant ProteinsEnzymesGlobinsKineticsOXYGEN-AFFINITYBiochemistryMethanosarcinaARABIDOPSIS-THALIANAlcsh:QGLOBIN-COUPLED SENSORSHuman medicineProtein MultimerizationLIGAND MIGRATIONNEUROGLOBINResearch ArticleProtein Binding
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Primary Structure of Selected Archaeal Mesophilic and Extremely Thermophilic Outer Surface Layer Proteins

2002

The archaea are recognized as a separate third domain of life together with the bacteria and eucarya. The archaea include the methanogens, extreme halophiles, thermoplasmas, Sulfate reducers and Sulfur metabolizing thermophiles, which thrive in different habitats such as anaerobic niches, salt lakes, and marine hydrothermals systems and continental solfataras. Many of these habitats represent extreme environments in respect to temperature, osmotic pressure and pH-values and remind on the conditions of the early earth. The cell envelope structures were one of the first biochemical characteristics of archaea studied in detail. The most common archaeal cell envelope is composed of a single cry…

Hot TemperaturebiologyArchaeal ProteinsThermophileThermoplasmaMembrane ProteinsProtein Sorting Signalsbiology.organism_classificationArchaeaApplied Microbiology and BiotechnologyMicrobiologyProtein Structure SecondaryHalophileBiochemistryExtreme environmentAmino Acid SequenceAmino AcidsCell envelopeProtein stabilizationSequence AlignmentS-layerEcosystemEcology Evolution Behavior and SystematicsArchaeaSystematic and Applied Microbiology
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Optogenetically blocking sharp wave ripple events in sleep does not interfere with the formation of stable spatial representation in the CA1 area of …

2016

During hippocampal sharp wave/ripple (SWR) events, previously occurring, sensory inputdriven neuronal firing patterns are replayed. Such replay is thought to be important for plasticity-related processes and consolidation of memory traces. It has previously been shown that the electrical stimulation-induced disruption of SWR events interferes with learning in rodents in different experimental paradigms. On the other hand, the cognitive map theory posits that the plastic changes of the firing of hippocampal place cells constitute the electrophysiological counterpart of the spatial learning, observable at the behavioral level. Therefore, we tested whether intact SWR events occurring during th…

LightPhysiologylcsh:MedicineHippocampusTetrodesMiceAnimal Cells571 PhysiologyMedicine and Health Scienceslcsh:ScienceNeuronsLight PulsesBrain MappingNeuronal PlasticityPyramidal CellsPhysicsElectromagnetic RadiationBrainLaboratory EquipmentSignal Filteringsharp wave ripple eventesBioassays and Physiological AnalysisOptical EquipmentVacuum ApparatusPhysical SciencesEngineering and TechnologyFemaleCellular TypesAnatomyResearch ArticleGanglion CellsArchaeal ProteinsSpatial LearningEquipmentResearch and Analysis Methodsuni (lepotila)AnimalshippokampusCA1 Region HippocampalLaserslcsh:RCorrectionBiology and Life SciencesNeurophysiological AnalysisCell BiologyBrain WavesMice Inbred C57BLOptogeneticsCellular NeuroscienceSignal ProcessingExploratory Behavior570 Life sciences; biologylcsh:QPhysiological ProcessesSleepNeuroscience
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Genes and derived amino acid sequences of S-layer proteins from mesophilic, thermophilic, and extremely thermophilic methanococci

2002

Cells of methanococci are covered by a single layer of protein subunits (S-layer) in hexagonal arrangement, which are directly exposed to the environment and which cannot be stabilized by cellular components. We have isolated S-layer proteins from cells of Methanococcus vannielii ( T(opt.)=37 degrees C), Methanococcus thermolithotrophicus ( T(opt.)=65 degrees C), and Methanococcus jannaschii ( T(opt.)=85 degrees C). The primary structure of the S-layer proteins was determined by sequencing the corresponding genes. According to the predicted amino acid sequence, the molecular masses of the S-layer proteins of the different methanococci are in a small range between 59,064 and 60,547 Da. Compa…

MethanococcusArchaeal ProteinsMethanococcusMolecular Sequence DataMicrobiologySpecies SpecificityMethanococcalesAmino Acid SequencePeptide sequencechemistry.chemical_classificationSequence Homology Amino AcidbiologyThermophileTemperatureProtein primary structureGeneral Medicinebiology.organism_classificationMethanococciAmino acidchemistryBiochemistryGenes BacterialMolecular MedicineSequence AlignmentS-layerBacterial Outer Membrane ProteinsExtremophiles
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Genomic determinants of protein folding thermodynamics in prokaryotic organisms.

2004

Here we investigate how thermodynamic properties of orthologous proteins are influenced by the genomic environment in which they evolve. We performed a comparative computational study of 21 protein families in 73 prokaryotic species and obtained the following main results. (i) Protein stability with respect to the unfolded state and with respect to misfolding are anticorrelated. There appears to be a trade-off between these two properties, which cannot be optimized simultaneously. (ii) Folding thermodynamic parameters are strongly correlated with two genomic features, genome size and G+C composition. In particular, the normalized energy gap, an indicator of folding efficiency in statistical…

Models MolecularProtein DenaturationProtein FoldingProtein familyArchaeal ProteinsThermodynamicsdeleterious mutationsthermophilic proteinsBiologymonte-carlo algorithmGenomeNegative selectionBacterial ProteinsStructural BiologyMolecular evolutionGenome ArchaealevolutionbuchneraMolecular BiologyGenome sizeGeneticsPrincipal Component Analysisacid side-chainsBacteriaSequence Homology Amino Acidreplica approachComputational BiologystabilityGenetic codeArchaeaPRI BioscienceFolding (chemistry)endosymbiotic bacteriacation-pi interactionsThermodynamicsProtein foldingHydrophobic and Hydrophilic InteractionsGenome BacterialJournal of molecular biology
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NMR structure of hypothetical protein TA0938 from Thermoplasma acidophilum.

2007

Models MolecularbiologySequence Homology Amino AcidChemistryThermoplasmaArchaeal ProteinsArchaeal ProteinsHypothetical proteinThermoplasmaMolecular Sequence DataThermoplasma acidophilumSequence alignmentComputational biologybiology.organism_classificationBiochemistryStructural genomicsProtein Structure TertiaryStructural BiologyAmino Acid SequenceMolecular BiologyPeptide sequenceNuclear Magnetic Resonance BiomolecularSequence AlignmentProteins
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Reading the Evolution of Compartmentalization in the Ribosome Assembly Toolbox: The YRG Protein Family.

2016

Reconstructing the transition from a single compartment bacterium to a highly compartmentalized eukaryotic cell is one of the most studied problems of evolutionary cell biology. However, timing and details of the establishment of compartmentalization are unclear and difficult to assess. Here, we propose the use of molecular markers specific to cellular compartments to set up a framework to advance the understanding of this complex intracellular process. Specifically, we use a protein family related to ribosome biogenesis, YRG (YlqF related GTPases), whose evolution is linked to the establishment of cellular compartments, leveraging the current genomic data. We analyzed orthologous proteins …

ProteomesArchaeal ProteinsMycologyBioenergeticsResearch and Analysis MethodsBiochemistryMicrobiologyMolecular EvolutionGTP PhosphohydrolasesEvolution MolecularFungal ProteinsEukaryotic EvolutionBacterial ProteinsFungal EvolutionAnimalsMolecular Biology TechniquesMolecular BiologyEnergy-Producing OrganellesCell NucleusEvolutionary BiologyMolecular Biology Assays and Analysis TechniquesBacterial EvolutionBiology and Life SciencesProteinsPhylogenetic AnalysisBacteriologyNucleolusCell BiologyOrganismal EvolutionCell CompartmentationMitochondriaProtein TransportMicrobial EvolutionCellular Structures and OrganellesRibosomesResearch ArticlePloS one
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Novel Glutamate–Putrescine Ligase Activity in Haloferax mediterranei: A New Function for glnA-2 Gene

2021

This article belongs to the Section Cellular Biochemistry.

Salmonella typhimuriumTranscription GeneticNitrogen assimilationHaloferax mediterraneiGene ExpressionBiochemistryGlutamate-putrescine ligase activitySubstrate SpecificityLigasesAdenosine TriphosphateputrescineCloning MolecularPhylogenyhaloarchaeachemistry.chemical_classification0303 health sciencesbiologyChemistryHaloarchaeaEscherichia coli Proteinsglutamine synthetaseBioquímica y Biología MolecularQR1-502Recombinant ProteinsNitrogen assimilationHaloferax mediterraneiIsoenzymesBiochemistryArchaeal ProteinsGenetic VectorsGlutamic AcidGlutamate–putrescine ligaseMicrobiologyArticleglutamate–putrescine ligaseGlutamine synthetase03 medical and health sciencesAmmoniaGlutamine synthetaseNitrogen FixationEscherichia coliPutrescineAmino Acid SequenceMolecular Biology030304 developmental biologyDNA ligaseSequence Homology Amino Acid030306 microbiologyComputational Biologynitrogen assimilationbiology.organism_classificationMetabolic pathwayEnzymeProtein BiosynthesisHaloarchaeaGene Expression Regulation ArchaealSequence AlignmentBiomolecules
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