Search results for "protein engineering"

showing 10 items of 54 documents

Recombinant NeutraLite Avidin: a non-glycosylated, acidic mutant of chicken avidin that exhibits high affinity for biotin and low non-specific bindin…

2000

AbstractA recombinant non-glycosylated and acidic form of avidin was designed and expressed in soluble form in baculovirus-infected insect cells. The mutations were based on the same principles that guided the design of the chemically and enzymatically modified avidin derivative, known as NeutraLite Avidin. In this novel recombinant avidin derivative, five out of the eight arginine residues were replaced with neutral amino acids, and two of the lysine residues were replaced by glutamic acid. In addition, the carbohydrate-bearing asparagine-17 residue was altered to an isoleucine, according to the known sequences of avidin-related genes. The resultant mutant protein, termed recombinant Neutr…

StreptavidinGlycosylationMolecular Sequence DataBiophysicsBiotinChick EmbryoNon-specific bindingBiochemistrylaw.inventionchemistry.chemical_compoundBiotinstomatognathic systemStructural BiologylawMutant proteinNon-glycosylated mutantGeneticsAnimalsHumansAmino Acid SequenceIsoelectric PointProtein Structure QuaternaryMolecular BiologyCells CulturedbiologyAvidin-biotin technologyDNACell BiologyProtein engineeringrespiratory systemAvidinRecombinant ProteinsKineticsAmino Acid SubstitutionchemistryBiochemistryBiotinylationMutationbiology.proteinRecombinant DNAThermodynamicsProtein engineeringEndopeptidase KIsoleucineBaculoviridaeProtein BindingAvidinFEBS Letters
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Synthesis and Evaluation of Novel Ring‐Strained Noncanonical Amino Acids for Residue‐Specific Bioorthogonal Reactions in Living Cells

2021

Abstract Bioorthogonal reactions are ideally suited to selectively modify proteins in complex environments, even in vivo. Kinetics and product stability of these reactions are crucial parameters to evaluate their usefulness for specific applications. Strain promoted inverse electron demand Diels–Alder cycloadditions (SPIEDAC) between tetrazines and strained alkenes or alkynes are particularly popular, as they allow ultrafast labeling inside cells. In combination with genetic code expansion (GCE)‐a method that allows to incorporate noncanonical amino acids (ncAAs) site‐specifically into proteins in vivo. These reactions enable residue‐specific fluorophore attachment to proteins in living mam…

FluorophoreKinetics010402 general chemistry01 natural sciencesCatalysischemistry.chemical_compoundIn vivoChemical BiologyAnimalsAmino AcidsFluorescent Dyeschemistry.chemical_classificationCycloaddition ReactionFull Paper010405 organic chemistryChemistryOrganic ChemistryProteinsprotein engineeringGeneral ChemistryProtein engineeringFull PapersGenetic codelive-cell labeling0104 chemical sciencesAmino acidkineticsAlkynesclick chemistryBiophysicsClick chemistryBioorthogonal chemistryunnatural amino acidsChemistry – A European Journal
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Engineered Trx2p industrial yeast strain protects glycolysis and fermentation proteins from oxidative carbonylation during biomass propagation

2012

Abstract Background In the yeast biomass production process, protein carbonylation has severe adverse effects since it diminishes biomass yield and profitability of industrial production plants. However, this significant detriment of yeast performance can be alleviated by increasing thioredoxins levels. Thioredoxins are important antioxidant defenses implicated in many functions in cells, and their primordial functions include scavenging of reactive oxygen species that produce dramatic and irreversible alterations such as protein carbonylation. Results In this work we have found several proteins specifically protected by yeast Thioredoxin 2 (Trx2p). Bidimensional electrophoresis and carbony…

Saccharomyces cerevisiae ProteinsAntioxidantProtein Carbonylationmedicine.medical_treatmentlcsh:QR1-502CarbonylationBioengineeringSaccharomyces cerevisiaeBiomassaBiologyProtein EngineeringOxidacióStressApplied Microbiology and Biotechnologylcsh:MicrobiologyProtein CarbonylationThioredoxinsYeastsmedicineGlycolysisBiomasschemistry.chemical_classificationReactive oxygen speciesResearchAlcohol Dehydrogenasefood and beveragesYeastOxidative StressEnzymechemistryBiochemistryFermentationFermentationLlevatsThioredoxinGlycolysisOxidation-ReductionBiotechnologyMicrobial Cell Factories
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High-resolution solution NMR structure of the Z domain of staphylococcal protein A

1997

Staphylococcal protein A (SpA) is a cell-wall-bound pathogenicity factor from the bacterium Staphylococcus aureus. Because of their small size and immunoglobulin (IgG)-binding activities, domains of protein A are targets for protein engineering efforts and for the development of computational approaches for de novo protein folding. The NMR solution structure of an engineered IgG-binding domain of SpA, the Z domain (an analog of the B domain of SpA), has been determined by simulated annealing with restrained molecular dynamics on the basis of 671 conformational constraints. The Z domain contains three well-defined alpha-helices corresponding to polypeptide segments Lys7 to Leu17 (helix 1), G…

Models MolecularMagnetic Resonance SpectroscopyProtein ConformationChemistryMolecular Sequence DataProtein engineeringHydrogen-Ion ConcentrationCrystallography X-RayAntiparallel (biochemistry)CrystallographyModels ChemicalStructural BiologyHelixHumansHydrogen–deuterium exchangeAmino Acid SequenceB3 domainStaphylococcal Protein AMolecular BiologyTwo-dimensional nuclear magnetic resonance spectroscopyConformational isomerismHeteronuclear single quantum coherence spectroscopyJournal of Molecular Biology
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Design and construction of highly stable, protease-resistant chimeric avidins.

2005

The chicken avidin gene family consists of avidin and seven separate avidin-related genes (AVRs) 1-7. Avidin protein is a widely used biochemical tool, whereas the other family members have only recently been produced as recombinant proteins and characterized. In our previous study, AVR4 was found to be the most stable biotin binding protein thus far characterized (T(m) = 106.4 degrees C). In this study, we studied further the biotin-binding properties of AVR4. A decrease in the energy barrier between the biotin-bound and unbound state of AVR4 was observed when compared with that of avidin. The high resolution structure of AVR4 facilitated comparison of the structural details of avidin and …

Models MolecularBiotin bindingInsectaProtein familyProtein subunitRecombinant Fusion ProteinsMolecular Sequence DataBiotinBiosensing TechniquesBiologyProtein EngineeringBiochemistryProtein Structure SecondaryProtein structureAnimalsAmino Acid SequenceMolecular BiologyThermostabilityCalorimetry Differential ScanningSequence Homology Amino AcidTemperatureCell BiologyProtein engineeringAvidinRecombinant ProteinsProtein Structure TertiaryKineticsBiochemistryMicroscopy FluorescenceMutagenesisBiotinylationMutationbiology.proteinChromatography GelThermodynamicsElectrophoresis Polyacrylamide GelEndopeptidase KBaculoviridaeChickensAvidinChromatography LiquidPeptide HydrolasesProtein BindingThe Journal of biological chemistry
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Exploration of Evolutionary Relations between Protein Structures

2008

We describe a new method for the exploration of evolutionary relations between protein structures.

GeneticsProtein structureChemistryProtein domainProtein designProtein function predictionProtein engineeringSupersecondary structureComputational biologyProtein structure predictionProtein tertiary structure
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Computational design of biological catalysts

2008

The purpose of this tutorial review is to illustrate the way to design new and powerful catalysts. The first possibility to get a biological catalyst for a given chemical process is to use existing enzymes that catalyze related reactions. The second possibility is the use of immune systems that recognize stable molecules resembling the transition structure of the target reaction. We finally show how computational techniques are able to provide an enormous quantity of information, providing clues to guide the development of new biological catalysts

Molecular StructureProcess (engineering)ChemistryCatalytic DomainBiocatalysisComputational designComputer SimulationNanotechnologyGeneral ChemistryBiochemical engineeringProtein EngineeringBiologia molecularCatalysisChemical Society Reviews
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A novel cell model to study the function of the adrenoleukodystrophy-related protein

2006

X-linked adrenoleukodystrophy (X-ALD) is a neurodegenerative disorder due to mutations in the ABCD1 (ALD) gene. ALDRP, the closest homolog of ALDP, has been shown to have partial functional redundancy with ALDP and, when overexpressed, can compensate for the loss-of-function of ALDP. In order to characterize the function of ALDRP and to understand the phenomenon of gene redundancy, we have developed a novel system that allows the controlled expression of the ALDRP-EGFP fusion protein (normal or non-functional mutated ALDRP) using the Tet-On system in H4IIEC3 rat hepatoma cells. The generated stable cell lines express negligible levels of endogenous ALDRP and doxycycline dosage-dependent lev…

Carcinoma Hepatocellularendocrine system diseasesRecombinant Fusion ProteinsBiophysicsGene redundancyATP-binding cassette transporterContext (language use)BiologyATP Binding Cassette Transporter Subfamily DProtein EngineeringTransfectionBiochemistryCell Line TumormedicineAnimalsAdrenoleukodystrophyMolecular BiologyGeneCell BiologyPeroxisomemedicine.diseaseFusion proteinRatsCell biologyDisease Models AnimalBiochemistryATP-Binding Cassette TransportersAdrenoleukodystrophyFunction (biology)
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Synthetic biomolecular condensates to engineer eukaryotic cells

2021

Abstract The compartmentalization of specific functions into specialized organelles is a key feature of eukaryotic life. In particular, dynamic biomolecular condensates that are not membrane enclosed offer exciting opportunities for synthetic biology. In recent years, multiple approaches to generate and control condensates have been reported. Notably, multiple orthogonally translating organelles were designed that enable precise protein engineering inside living cells. Despite being built from only very few components, orthogonal translation can be engineered with subresolution precision at different places inside the same cell to create mammalian cells with multiple expanded genetic codes.…

Biomolecular CondensatesMammalsOrganellesComputer scienceProteinsProtein engineeringComputational biologyBiochemistryAnalytical ChemistrySynthetic biologyEukaryotic CellsGenetic CodeOrganelleAnimalsCurrent Opinion in Chemical Biology
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Engineering Proteins at Interfaces: From Complementary Characterization to Material Surfaces with Designed Functions

2018

Abstract Once materials come into contact with a biological fluid containing proteins, proteins are generally—whether desired or not—attracted by the material's surface and adsorb onto it. The aim of this Review is to give an overview of the most commonly used characterization methods employed to gain a better understanding of the adsorption processes on either planar or curved surfaces. We continue to illustrate the benefit of combining different methods to different surface geometries of the material. The thus obtained insight ideally paves the way for engineering functional materials that interact with proteins in a predetermined manner.

Surface (mathematics)Protein FoldingMaterials scienceSurface PropertiesengineeringReviewsNanotechnology02 engineering and technologyReview010402 general chemistryProtein Engineering01 natural sciencesCatalysisBiological fluidTheranostic NanomedicineNanomaterialsinterfacesAdsorptionPlanarCharacterization methodscharacterizationnanomaterialsDrug CarriersProteinsGeneral Chemistry021001 nanoscience & nanotechnologyprotein adsorption0104 chemical sciencesCharacterization (materials science)NanostructuresProtein Corona0210 nano-technologyProtein adsorptionProtein BindingAngewandte Chemie (International Ed. in English)
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