Search results for " alignment"

showing 10 items of 587 documents

Crystal structure of vinorine synthase, the first representative of the BAHD superfamily.

2005

Vinorine synthase is an acetyltransferase that occupies a central role in the biosynthesis of the antiarrhythmic monoterpenoid indole alkaloid ajmaline in the plant Rauvolfia. Vinorine synthase belongs to the benzylalcohol acetyl-, anthocyanin-O-hydroxy-cinnamoyl-, anthranilate-N-hydroxy-cinnamoyl/benzoyl-, deacetylvindoline acetyltransferase (BAHD) enzyme superfamily, members of which are involved in the biosynthesis of several important drugs, such as morphine, Taxol, or vindoline, a precursor of the anti-cancer drugs vincaleucoblastine and vincristine. The x-ray structure of vinorine synthase is described at 2.6-angstrom resolution. Despite low sequence identity, the two-domain structure…

Models MolecularStereochemistryMolecular Sequence DataSequence alignmentBiologyCrystallography X-RayBiochemistryIndole AlkaloidsProtein structureAcetyltransferasesTransferaseCoenzyme AAmino Acid SequenceDihydrolipoyl transacetylaseMolecular BiologyPlant ProteinsAjmalineATP synthaseMolecular StructureActive siteCell BiologyProtein Structure TertiaryBiochemistryAcyltransferasesAcetyltransferasebiology.proteinAnti-Arrhythmia AgentsSequence AlignmentThe Journal of biological chemistry
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Comprehensive analysis of a Vibrio parahaemolyticus strain extracellular serine protease VpSP37

2015

Proteases play an important role in the field of tissue dissociation combined with regenerative medicine. During the years new sources of proteolytic enzymes have been studied including proteases from different marine organisms both eukaryotic and prokaryotic. Herein we have purified a secreted component of an isolate of Vibrio parahaemolyticus, with electrophoretic mobilities corresponding to 36 kDa, belonging to the serine proteases family. Sequencing of the N-terminus enabled the in silico identification of the whole primary structure consisting of 345 amino acid residues with a calculated molecular mass of 37.4 KDa. The purified enzyme, named VpSP37, contains a Serine protease domain be…

Models MolecularTMPRSS6Proteasesmedicine.medical_treatmentMolecular Sequence Datalcsh:MedicineBiologySettore BIO/19 - Microbiologia GeneraleSubstrate SpecificitySerine03 medical and health sciencesSettore BIO/10 - BiochimicamedicineAnimalsAmino Acid Sequencelcsh:Science030304 developmental biologySerine protease0303 health sciencesMultidisciplinaryProteaseEelsVibrio parahaemolyticuBiochemistry Genetics and Molecular Biology (all)030306 microbiologyAnimalMedicine (all)lcsh:RProteolytic enzymesEelVibrio InfectionTrypsinMolecular biology3. Good healthBiochemistryAgricultural and Biological Sciences (all)Vibrio InfectionsAmino Acid Sequence; Animals; Eels; Models Molecular; Molecular Sequence Data; Sequence Alignment; Serine Proteases; Substrate Specificity; Vibrio Infections; Vibrio parahaemolyticus; Agricultural and Biological Sciences (all); Biochemistry Genetics and Molecular Biology (all); Medicine (all)biology.proteinlcsh:QVibrio parahaemolyticusSerine ProteaseSerine ProteasesSequence AlignmentMASP1medicine.drugResearch Article
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Structural insights into the GTPase domain of Escherichia coli MnmE protein

2007

The Escherichia coli MnmE protein is a 50-kDa multidomain GTPase involved in tRNA modification. Its homologues in eukaryotes are crucial for mitochondrial respiration and, thus, it is thought that the human protein might be involved in mitochondrial diseases. Unlike Ras, MnmE shows a high intrinsic GTPase activity and requires effective GTP hydrolysis, and not simply GTP binding, to be functionally active. The isolated MnmE G-domain (165 residues) conserves the GTPase activity of the entire protein, suggesting that it contains the catalytic residues for GTP hydrolysis. To explore the GTP hydrolysis mechanism of MnmE, we analyzed the effect of low pH on binding and hydrolysis of GTP, as well…

Models MolecularTRNA modificationMagnetic Resonance SpectroscopyGTP'aluminium fluoridehomology modelingMolecular Sequence DataGTPaseGuanosine triphosphateGuanosine DiphosphateBiochemistryeraGTP Phosphohydrolaseschemistry.chemical_compoundStructural BiologyEscherichia coliAmino Acid SequenceHomology modelingBinding siteGTPaseMolecular BiologyBinding SitesSequence Homology Amino AcidChemistryEscherichia coli ProteinsTrmENMRRecombinant ProteinsKineticsBiochemistryMnmEGuanosine diphosphateRap2AGTP PhosphohydrolasesGuanosine TriphosphateSequence AlignmentRasProteins: Structure, Function, and Bioinformatics
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The Structure of Rauvolfia serpentina Strictosidine Synthase Is a Novel Six-Bladed β-Propeller Fold in Plant Proteins

2006

Abstract The enzyme strictosidine synthase (STR1) from the Indian medicinal plant Rauvolfia serpentina is of primary importance for the biosynthetic pathway of the indole alkaloid ajmaline. Moreover, STR1 initiates all biosynthetic pathways leading to the entire monoterpenoid indole alkaloid family representing an enormous structural variety of ∼2000 compounds in higher plants. The crystal structures of STR1 in complex with its natural substrates tryptamine and secologanin provide structural understanding of the observed substrate preference and identify residues lining the active site surface that contact the substrates. STR1 catalyzes a Pictet-Spengler–type reaction and represents a novel…

Models MolecularTryptamineProtein FoldingStrictosidine synthaseProtein ConformationMolecular Sequence DataSequence alignmentPlant ScienceCatalysisRauwolfiaSubstrate Specificitychemistry.chemical_compoundRauvolfia serpentinaCarbon-Nitrogen LyasesAmino Acid SequenceResearch ArticlesConserved SequencePlant ProteinsBinding SitesSequence Homology Amino AcidbiologyIndole alkaloidActive siteCell BiologyLyasebiology.organism_classificationTryptamineschemistryBiochemistrybiology.proteinSecologaninSequence AlignmentThe Plant Cell
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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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Crystal Structure of Perakine Reductase, Founding Member of a Novel Aldo-Keto Reductase (AKR) Subfamily That Undergoes Unique Conformational Changes …

2012

Perakine reductase (PR) catalyzes the NADPH-dependent reduction of the aldehyde perakine to yield the alcohol raucaffrinoline in the biosynthetic pathway of ajmaline in Rauvolfia, a key step in indole alkaloid biosynthesis. Sequence alignment shows that PR is the founder of the new AKR13D subfamily and is designated AKR13D1. The x-ray structure of methylated His(6)-PR was solved to 2.31 Å. However, the active site of PR was blocked by the connected parts of the neighbor symmetric molecule in the crystal. To break the interactions and obtain the enzyme-ligand complexes, the A213W mutant was generated. The atomic structure of His(6)-PR-A213W complex with NADPH was determined at 1.77 Å. Overal…

Models Molecularendocrine systemConformational changeProtein ConformationStereochemistryReductaseCrystallography X-Raycomplex mixturesMethylationBiochemistryProtein Structure SecondaryRauwolfiaEvolution MolecularProtein structurehemic and lymphatic diseasesheterocyclic compoundsMolecular BiologyAldo-keto reductaseCofactor bindingbiologyChemistryorganic chemicalsActive siteCell BiologyEnzyme structureAlcohol OxidoreductasesCrystallographyProtein Structure and Foldingbiology.proteinNADPH bindingSequence AlignmentNADPProtein BindingJournal of Biological Chemistry
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Interaction of Circadian Clock Proteins CRY1 and PER2 Is Modulated by Zinc Binding and Disulfide Bond Formation

2014

SummaryPeriod (PER) proteins are essential components of the mammalian circadian clock. They form complexes with cryptochromes (CRY), which negatively regulate CLOCK/BMAL1-dependent transactivation of clock and clock-controlled genes. To define the roles of mammalian CRY/PER complexes in the circadian clock, we have determined the crystal structure of a complex comprising the photolyase homology region of mouse CRY1 (mCRY1) and a C-terminal mouse PER2 (mPER2) fragment. mPER2 winds around the helical mCRY1 domain covering the binding sites of FBXL3 and CLOCK/BMAL1, but not the FAD binding pocket. Our structure revealed an unexpected zinc ion in one interface, which stabilizes mCRY1-mPER2 int…

Models Molecularendocrine systemanimal structuresPeriod (gene)Molecular Sequence DataCircadian clockBiologyCrystallography X-RayGeneral Biochemistry Genetics and Molecular BiologyMiceCryptochromeAnimalsProtein Interaction Domains and MotifsAmino Acid SequenceCircadian rhythmBinding siteBiochemistry Genetics and Molecular Biology(all)F-Box ProteinsPeriod Circadian ProteinsRecombinant ProteinsCryptochromesPER2ZincBiochemistryFAD bindingBiophysicsPeriod Circadian ProteinsSequence AlignmentCell
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Cloning, tissue distribution, pharmacology and three-dimensional modelling of melanocortin receptors 4 and 5 in rainbow trout suggest close evolution…

2004

The rainbow trout (Oncorhynchus mykiss) is one of the most widely used fish species in aquaculture and physiological research. In the present paper, we report the first cloning, 3D (three-dimensional) modelling, pharmacological characterization and tissue distribution of two melanocortin (MC) receptors in rainbow trout. Phylogenetic analysis indicates that these receptors are orthologues of the human MC4 and MC5 receptors. We created 3D molecular models of these rainbow trout receptors and their human counterparts. These models suggest greater divergence between the two human receptors than between their rainbow trout counterparts. The pharmacological analyses demonstrated that ACTH (adreno…

Models Molecularendocrine systemmedicine.medical_specialtyanimal structuresanimal diseasesMolecular Sequence DataAdrenocorticotropic hormoneBiologyKidneyBinding Competitivedigestive systemBiochemistryCell LineEvolution MolecularInternal medicinemedicineAnimalsHumansAmino Acid SequenceCloning MolecularBinding siteReceptorMolecular BiologyPhylogenyPharmacologyCloningBinding Sitesurogenital systemReceptors MelanocortinSequence Analysis DNACell BiologyCell biologyZincEndocrinologyReceptors CorticotropinOrgan SpecificityHypothalamusHormone receptorOncorhynchus mykissReceptor Melanocortin Type 4Rainbow troutMelanocortinSequence AlignmentResearch ArticleBiochemical Journal
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Leucine-58 in the putative 5th helical region of human interleukin (IL)-6 is important for activation of the IL-6 signal transducer, gp130

1995

A model of the tertiary structure of human IL-6, derived from the crystal-structure of granulocyte-colony stimulating factor, reveals a 5th helical region in the loop between the first and second alpha-helix. To investigate the importance of this region for biological activity of IL-6, residues Glu-52, Ser-53, Ser-54, Lys-55, Glu-56, Leu-58, and Glu-60 were individually replaced by alanine. IL-6.Leu-58Ala displayed a 5-fold reduced biological activity on the IL-6 responsive human cell lines XG-1 and A375. This reduction in bioactivity was shown to be due to a decreased capacity of the mutant protein to trigger IL-6 receptor-alpha-chain-dependent binding to the IL-6 signal transducer, gp130.

Models Molecularmedicine.medical_specialtyMolecular Sequence DataBiophysicsBiologyBiochemistryBinding CompetitiveProtein Structure SecondaryMiceStructure-function analysisgp130Structural BiologyMutant proteinAntigens CDLeucineInternal medicineGeneticsmedicineCytokine Receptor gp130Tumor Cells CulturedAnimalsHumansAmino Acid SequenceMolecular BiologyAlanineHybridomasMembrane GlycoproteinsBase SequenceInterleukin-6InterleukinBiological activityCell BiologyReceptors InterleukinGlycoprotein 130Receptors Interleukin-6Protein tertiary structureCell biologyProtein Structure TertiaryEndocrinologyMutationLeucineSignal transductionSequence AlignmentCell DivisionSignal TransductionFEBS Letters
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Caspase-mediated apoptosis in sponges: cloning and function of the phylogenetic oldest apoptotic proteases from Metazoa

2003

AbstractSponges (phylum Porifera) represent the phylogenetically oldest metazoan phylum. These animals have complex cell adhesion and powerful immune systems which allow the formation of a distinct body plan. Consequently, an apoptotic machinery has to be predicted that allows sponges to eliminate unwanted cells accumulating during development. With the marine sponge Geodia cydonium, it is shown that allografts of these animals undergo apoptosis as demonstrated by apoptotic DNA fragmentation. Extracts from allografts contain an enzymic activity characteristic for caspases; as substrate to determine the cleavage activity, Ac-DEVD-AMC was applied. cDNAs encoding predicted caspase-3-related pr…

Molecular Sequence DataApoptosisCaspase 3SpongeCoumarinsEndopeptidasesAnimalsInvertebrateAmino Acid SequenceCloning MolecularEnzyme InhibitorsMolecular BiologyPhylogenyCaspasebiologyCaspase 3Cell adhesion moleculeAlternative splicingApoptotic DNA fragmentationPotential proapoptotic molecule DD2Cell BiologyBcl-2 homologous proteinbiology.organism_classificationSuberites domunculaCaspaseCaspase InhibitorsPoriferaCell biologyIsoenzymesSuberites domunculaSpongeApoptosisCaspasesbiology.proteinOligopeptidesSequence AlignmentBiochimica et Biophysica Acta (BBA) - Molecular Cell Research
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