Search results for "Ribozyme"

showing 10 items of 29 documents

Mutational analysis of eggplant latent viroid RNA processing in Chlamydomonas reinhardtii chloroplast.

2009

Viroids of the family Avsunviroidae, such as eggplant latent viroid (ELVd), contain hammerhead ribozymes and replicate in the chloroplasts of the host plant through an RNA-based symmetrical rolling-circle mechanism in which oligomeric RNAs of both polarity are processed to monomeric linear RNAs (by cleavage) and to monomeric circular RNAs (by ligation). Using an experimental system consisting of transplastomic lines of the alga Chlamydomonas reinhardtii, a mutational analysis of sequence and structural elements in the ELVd molecule that are involved in transcript processing in vivo in a chloroplastic context was carried out. A collection of six insertion and three deletion ELVd mutants was …

GeneticsHammerhead ribozymeChloroplastsbiologyViroidRibozymeChlamydomonas reinhardtiiRNARNA Circularbiology.organism_classificationVirologyViroidsTerminal loopCell biologyAvsunviroidaeVirologyMutationbiology.proteinRNARNA ViralRNA CatalyticSolanum melongenaRNA Processing Post-TranscriptionalChlamydomonas reinhardtiiTransplastomic plantThe Journal of general virology
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A chimeric ribozyme in Clostridium difficile combines features of group I introns and insertion elements

2002

CdlSt1, a DNA insertion of 1975 bp, was identified within tcdA-C34, the enterotoxin gene of the Clostridium difficile isolate C34. Located in the catalytic domain A1-C34, Cd/St1 combines features of two genetic elements. Within the first 434 nt structures characteristic for group I introns were found; encoding the two transposase-like proteins tlpA and tlpB nucleotides 435-1975 represent the remainder of a IS605-like insertion element. We show that the entire CdlSt1 is accurately spliced from tcdA-C34 primary transcripts and that purified TcdA-C34 toxin is of regular size and catalytic activity. A search for CdlSt1-related sequences demonstrates that the element is widespread in toxinogenic…

GeneticsOpen reading framebiologyRNA splicingIntronRibozymebiology.proteinInterrupted geneGroup I catalytic intronGroup II intronORFSMolecular BiologyMicrobiologyMolecular Microbiology
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Closer to nature: an ATP-driven bioinspired catalytic oxidation process

2013

The capability of DNA to acquire enzyme-like properties has led to the emergence of the so-called DNAzyme field; herein, we take a further leap along this nature-inspired road, demonstrating that a template assembled synthetic G-quartet (TASQ) can act as a pre-catalyst for catalytic peroxidase-mimicking oxidation reactions, whatever its nature (guanine or guanosine-based G-quartets), in an ATP-dependent manner, thereby bringing this bioinspired TASQzyme process even closer to nature.

GuanineDeoxyribozymeGuanosineNanotechnology010402 general chemistry01 natural sciencesRedox[ CHIM ] Chemical SciencesCatalysisCatalysischemistry.chemical_compoundAdenosine TriphosphateMaterials Chemistry[CHIM]Chemical SciencesComputingMilieux_MISCELLANEOUS010405 organic chemistryMetals and AlloysDNA CatalyticGeneral Chemistry[CHIM.CATA]Chemical Sciences/Catalysis0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsG-QuadruplexeschemistryCatalytic oxidationScientific methodCeramics and CompositesOxidation-Reduction
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An oxidatively damaged G-quadruplex/hemin DNAzyme.

2020

International audience; Oxidative damage of guanine to 8-oxoguanine triggers a partial and variable loss of G-quadruplex/hemin DNAzyme activity and provides clues to the mechanistic origins of DNAzyme deactivation, which originates from an interplay between decreased G-quadruplex stability, lower hemin affinity and a modification of the nature of hemin binding sites.

GuanineGuanineDeoxyribozyme010402 general chemistryG-quadruplex01 natural sciencesCatalysisOxidative damage03 medical and health scienceschemistry.chemical_compoundMaterials Chemistrypolycyclic compoundsheterocyclic compoundsBinding site[SDV.BBM.BC]Life Sciences [q-bio]/Biochemistry Molecular Biology/Biochemistry [q-bio.BM]030304 developmental biology0303 health sciencesMolecular StructureMetals and AlloysGeneral ChemistryDNA Catalyticequipment and supplies0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsG-QuadruplexeschemistryCeramics and CompositesBiophysicsOxidation-ReductionHeminChemical communications (Cambridge, England)
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The Hammerhead Ribozyme: A Long History for a Short RNA

2017

Small nucleolytic ribozymes are a family of naturally occurring RNA motifs that catalyse a self-transesterification reaction in a highly sequence-specific manner. The hammerhead ribozyme was the first reported and the most extensively studied member of this family. However, and despite intense biochemical and structural research for three decades since its discovery, the history of this model ribozyme seems to be far from finished. The hammerhead ribozyme has been regarded as a biological oddity typical of small circular RNA pathogens of plants. More recently, numerous and new variations of this ribozyme have been found to inhabit the genomes of organisms from all life kingdoms, although th…

Models Molecular0301 basic medicineHammerhead ribozymephosphodiester bondPharmaceutical ScienceReviewHistory 21st CenturyGenomeAnalytical ChemistryRNA Motifslcsh:QD241-44103 medical and health scienceslcsh:Organic chemistryCircular RNACatalytic DomainDrug DiscoveryAnimalsRNA CatalyticPhysical and Theoretical ChemistryBase PairingLigase ribozymeGeneticsRNA catalysisBase SequencebiologyHydrolysisOrganic ChemistryRibozymeRNARNA CircularSchistosoma mansoniHistory 20th CenturyPlantsbiology.organism_classification030104 developmental biologyChemistry (miscellaneous)Biocatalysisbiology.proteinNucleic Acid ConformationRNAMolecular Medicineself-cleavingMammalian CPEB3 ribozymeMolecules
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Can multiscale simulations unravel the function of metallo-enzymes to improve knowledge-based drug discovery?

2019

Metallo-enzymes are a large class of biomolecules promoting specialized chemical reactions. Quantum-classical quantum mechanics/molecular mechanics molecular dynamics, describing the metal site at quantum mechanics level, while accounting for the rest of system at molecular mechanics level, has an accessible time-scale limited by its computational cost. Hence, it must be integrated with classical molecular dynamics and enhanced sampling simulations to disentangle the functions of metallo-enzymes. In this review, we provide an overview of these computational methods and their capabilities. In particular, we will focus on some systems such as CYP19A1 a Fe-dependent enzyme involved in estroge…

Models MolecularSpliceosomeQM/MM molecular dynamicsProtein ConformationComputer scienceMetallo enzymeComputational biology01 natural sciencesMolecular mechanicsribozymeStructure-Activity Relationship03 medical and health sciencesMolecular dynamicsMM molecular dynamicsAromataseCatalytic DomainDrug Discoverysteroid synthesisCYP19A1RNA CatalyticDensity Functional Theory030304 developmental biologyQMPharmacologychemistry.chemical_classificationDNA processing enzymes0303 health sciencesMetallo-proteinsbiologyDrug discoveryBiomoleculeRibozymeDNABiosynthetic PathwaysEnzymes0104 chemical sciences010404 medicinal & biomolecular chemistrychemistrySettore CHIM/03 - Chimica Generale E InorganicaMetalsbiology.proteinRNAThermodynamicsMolecular MedicinespliceosomeFunction (biology)Protein BindingFuture Medicinal Chemistry
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Extremely high mutation rate of a hammerhead viroid

2009

Supporting information (Materials and methods, figs. S1-S3, suppl. references) available at: http://www.sciencemag.org/cgi/data/323/5919/1308/DC1/1

Mutation rateViroidvirusesMolecular Sequence DataPopulationChrysanthemum chlorotic mottle viroidGenome ViralVirus ReplicationMutation ratesRNA CatalyticRepliconSelection GeneticeducationGeneticseducation.field_of_studyMultidisciplinarybiologyReverse Transcriptase Polymerase Chain ReactionRibozymeRNAbiology.organism_classificationVirologyViroidsReplication fidelityAvsunviroidaeHammerhead ribozymesMutationMutation (genetic algorithm)biology.proteinNucleic Acid ConformationRNA ViralRepliconRNA replication
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Signal-Processing and Adaptive Prototissue Formation in Metabolic DNA Protocells

2021

Abstract The fundamental life-defining processes in living cells, such as replication, division, adaptation, and tissue formation, take place via intertwined metabolic reaction networks orchestrating downstream signal processing in a confined, crowded environment with high precision. Hence, it is crucial to understand and reenact some of these functions in wholly synthetic cell-like entities (protocells) to envision designing soft-materials with life-like traits. Herein, we report on a programmable all-DNA protocell (PC) composed of a liquid DNA interior and a hydrogel-like shell, harboring DNAzyme active sites in the interior whose catalytic bond-cleaving activity leads to a downstream phe…

ProtocellSignal processing540 Chemistry and allied sciencesMultidisciplinaryDeoxyribozymeProteinsGeneral Physics and AstronomyHydrogelsDNAGeneral ChemistryGeneral Biochemistry Genetics and Molecular BiologyDisplacement reactionschemistry.chemical_compoundchemistry540 ChemieBiophysicsA-DNAArtificial CellsTissue formationRNA CleavageDNA
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Engineering a Circular Riboregulator in Escherichia coli

2020

RNAs of different shapes and sizes, natural or synthetic, can regulate gene expression in prokaryotes and eukaryotes. Circular RNAs have recently appeared to be more widespread than previously thought, but their role in prokaryotes remains elusive. Here, by inserting a riboregulatory sequence within a group I permuted intron-exon ribozyme, we created a small noncoding RNA that self-splices to produce a circular riboregulator in Escherichia coli . We showed that the resulting riboregulator can trans -activate gene expression by interacting with a cis -repressed messenger RNA. We characterized the system with a fluorescent reporter and with an antibiotic resistance marker, and we modeled thi…

Riboregulator0303 health sciencesMessenger RNAbiologyRibozymeRNAGeneral MedicineComputational biologyQH426-470Non-coding RNA03 medical and health sciencesSynthetic biology0302 clinical medicineCircular RNAGene expressionGeneticsbiology.proteinTP248.13-248.65030217 neurology & neurosurgeryBiotechnology030304 developmental biologyBioDesign Research
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RNAs That Behave Like Prions

2020

The term “prion” was originally coined to describe the proteinaceous infectious agents involved in mammalian neurological disorders. More recently, a prion has been defined as a nonchromosomal, protein-based genetic element that is capable of converting the copies of its own benign variant into the prion form, with the new phenotypic effects that can be transmitted through the cytoplasm. Some prions are toxic to the cell, are able to aggregate and/or form amyloid structures, and may be infectious in the wild, but none of those traits are seen as an integral property of all prions. We propose that the definition of prion should be expanded, to include the inducible transmissible entities und…

RiboswitchMolecular Biology and PhysiologyAmyloidProtein ConformationPrionsanimal diseaseslcsh:QR1-502viroidsPiwi-interacting RNApiRNABiologyribozymesMicrobiologylcsh:Microbiology03 medical and health sciencesMice0302 clinical medicineAnimalsHumansRibozymesprionsMolecular Biology030304 developmental biologyGenetics0303 health sciencesRibozymeRNAOpinion/HypothesisPhenotypeViroidsQR1-502nervous system diseasesCytoplasmbiology.proteinGenetic elementRNA030217 neurology & neurosurgerymSphere
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