Search results for " RNA"

showing 10 items of 1405 documents

Long non-coding RNA and messenger RNA—the meeting of two worlds

2018

Long non-coding RNAs (lncRNAs), defined as transcripts without protein-coding potential, have recently emerged as key mediators in numerous biological functions. LncRNAs act as regulators of gene expression at different levels including transcriptional and post-transcriptional regulation as well as chromatin organization.

Pulmonary and Respiratory MedicineMessenger RNAEditorialbusiness.industryGene expressionMedicineComputational biologybusinessLong non-coding RNAChromatinJournal of Thoracic Disease
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Chronological expression of Ciliated Bronchial Epithelium 1 during pulmonary development

2009

Ciliated Bronchial Epithelium (CBE) 1 is a novel gene, which is expressed in ciliated cells. As cilia are important during embryogenesis, the present authors characterised the murine homologue of CBE1 (Cbe1) and compared its temporal expression during murine and human lung development. Cbe1 cDNA was cloned and characterised using sequencing, standard PCR and Western blotting. Mouse and human embryonic/fetal lungs (HELs) were harvested for mRNA analysis and protein localisation in vivo and in vitro using RT-PCR and immunohistochemistry. The Cbe1 amino acid sequence was >75% identical with CBE1 and its alternative splicing and tissue distribution were highly conserved. Pulmonary expression of…

Pulmonary and Respiratory MedicinePathologymedicine.medical_specialtyDNA ComplementaryTime FactorsBlotting WesternDNA Mutational AnalysisBiologyTransfectionStatistics NonparametricImmunoenzyme TechniquesMiceOpen Reading FramesCiliogenesisGene expressionmedicineAnimalsHumansAmino Acid SequenceRNA MessengerCloning MolecularLungDNA PrimersFetusMessenger RNALungReverse Transcriptase Polymerase Chain ReactionEmbryogenesisAlternative splicingNuclear ProteinsCell DifferentiationMolecular biologyEpitheliumDNA-Binding Proteinsmedicine.anatomical_structureBronchial epithelium Asthma DevelopmentTranscription FactorsEuropean Respiratory Journal
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Retrospective screening for SARS-CoV-2 among influenza-like illness hospitalizations: 2018-2019 and 2019-2020 seasons, Valencia region, Spain

2021

Este artículo se encuentra disponible en la siguiente URL: https://onlinelibrary.wiley.com/doi/epdf/10.1111/irv.12899 En este artículo de investigación también participan: Juan Mollar-Maseres, Germán Schwarz-Chavarri, Sandra García-Esteban, Joan Puig-Barberà, Javier Díez-Domingo y F. Xavier López-Labrador. On 9 March 2020, the World Health Organization (WHO) Global Influenza Programme (GIP) asked participant sites on the Global Influenza Hospital Surveillance Network (GIHSN) to contribute to data collection concerning severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). We re-analysed 5833 viral RNA archived samples collected prospectively from hospital admissions for influenza-lik…

Pulmonary and Respiratory Medicinemedicine.medical_specialty2019-20 coronavirus outbreakRT‐PCRSARS-CoV-2 (Virus) - Diagnóstico - 2018-2019 - España - Valencia (Comunidad Valenciana)EpidemiologyShort CommunicationSevere acute respiratory syndrome coronavirus 2 (SARS-CoV-2)PopulationShort CommunicationscoronavirusData analysis.COVID-19 - Diagnóstico - 2019-2020 - España - Valencia (Comunidad Autónoma)medicine.disease_causeWorld healthCOVID‐19Influenza HumanPandemicmedicineHumansCOVID-19 - Diagnóstico - 2018-2019 - España - Valencia (Comunidad Autónoma)Influenza - Diagnosis - 2019-2020 - Spain - Valencia (Autonomous Community)Viral rnaGripe - Diagnóstico - 2018-2019 - España - Valencia (Comunidad Autónoma)influenza‐like‐illnesseducationRetrospective StudiesCoronaviruseducation.field_of_studyInfluenza-like illnessSARS-CoV-2business.industrySARS-CoV-2 (Virus) - Diagnosis - 2018-2019 - Spain - Valencia (Autonomous Community)COVID-19 (Disease) - Diagnosis - 2019-2020 - Spain - Valencia (Autonomous Community)Public Health Environmental and Occupational HealthCOVID-19virus diseasesCOVID-19 (Disease) - Diagnosis - 2018-2019 - Spain - Valencia (Autonomous Community)Análisis de datos.HospitalizationSARS-CoV-2 (Virus) - Diagnóstico - 2019-2020 - España - Valencia (Comunidad Valenciana)Infectious DiseasesInfluenza - Diagnosis - 2018-2019 - Spain - Valencia (Autonomous Community)SpainGripe - Diagnóstico - 2019-2020 - España - Valencia (Comunidad Autónoma)Emergency medicineSARS-CoV-2 (Virus) - Diagnosis - 2019-2020 - Spain - Valencia (Autonomous Community)Seasonsbusiness
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Reconnoitering the Role of Long-Noncoding RNAs in Hypertrophic Cardiomyopathy: A Descriptive Review

2021

Hypertrophic cardiomyopathy (HCM) is the most common form of hereditary cardiomyopathy. It is characterized by an unexplained non-dilated hypertrophy of the left ventricle with a conserved or elevated ejection fraction. It is a genetically heterogeneous disease largely caused by variants of genes encoding for cardiac sarcomere proteins, including MYH7, MYBPC3, ACTC1, TPM1, MYL2, MYL3, TNNI3, and TNNT23. Preclinical evidence indicates that the enhanced calcium sensitivity of the myofilaments plays a key role in the pathophysiology of HCM. Notably, this is not always a direct consequence of sarcomeric variations but may also result from secondary mutation-driven alterations. Long non-coding R…

QH301-705.5CardiomyopathyTPM1ReviewBiologyCatalysisInorganic ChemistrymedicineHumansBiology (General)Physical and Theoretical ChemistryQD1-999Molecular BiologySpectroscopyGeneticslong non-coding RNAgenetic variantsOrganic ChemistryACTC1Hypertrophic cardiomyopathyGeneral MedicineCardiomyopathy Hypertrophichypertrophic cardiomyopathymedicine.diseaseLong non-coding RNAcardiovascular diseasesComputer Science ApplicationsChemistryMYL3Cardiovascular diseases Genetic variants Hypertrophic cardiomyopathy Long non-coding RNA Cardiomyopathy Hypertrophic Humans RNA Long NoncodingMYL2RNA Long NoncodingMYH7International Journal of Molecular Sciences
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Changes in the Transcriptome Profiles of Human Amnion-Derived Mesenchymal Stromal/Stem Cells Induced by Three-Dimensional Culture: A Potential Primin…

2022

Mesenchymal stromal/stem cells (MSCs) are believed to function in vivo as a homeostatic tool that shows therapeutic properties for tissue repair/regeneration. Conventionally, these cells are expanded in two-dimensional (2D) cultures, and, in that case, MSCs undergo genotypic/phenotypic changes resulting in a loss of their therapeutic capabilities. Moreover, several clinical trials using MSCs have shown controversial results with moderate/insufficient therapeutic responses. Different priming methods were tested to improve MSC effects, and three-dimensional (3D) culturing techniques were also examined. MSC spheroids display increased therapeutic properties, and, in this context, it is crucial…

QH301-705.5Cell Culture TechniquesCell SeparationRegenerative MedicineArticleCatalysisEpigenesis GeneticImmunophenotypingInorganic ChemistryHumansAmnionPhysical and Theoretical ChemistryBiology (General)Molecular BiologyQD1-999SpectroscopyCells CulturedGene Expression ProfilingOrganic ChemistryComputational BiologyRNA sequencingCell DifferentiationMesenchymal Stem CellsMolecular Sequence AnnotationGeneral MedicineMSC therapeutic propertiesComputer Science ApplicationsChemistryGene OntologyMSC spheroidsGene Expression Regulationhuman amnion-derived mesenchymal stromal/stem cells; RNA sequencing; 3D priming; MSC spheroids; MSC therapeutic properties; regenerative medicineHuman amnion-derived mesenchymal stromal/stem cells3D primingTranscriptomeBiomarkers
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GeneTonic: an R/Bioconductor package for streamlining the interpretation of RNA-seq data

2021

AbstractBackgroundThe interpretation of results from transcriptome profiling experiments via RNA sequencing (RNA-seq) can be a complex task, where the essential information is distributed among different tabular and list formats - normalized expression values, results from differential expression analysis, and results from functional enrichment analyses. A number of tools and databases are widely used for the purpose of identification of relevant functional patterns, yet often their contextualization within the data and results at hand is not straightforward, especially if these analytic components are not combined together efficiently.ResultsWe developed the GeneTonic software package, whi…

QH301-705.5Process (engineering)Computer scienceShinyComputer applications to medicine. Medical informaticsBioconductor610 MedizinR858-859.7Context (language use)Interactive data analysisReproducible researchBioconductorInteractivity610 Medical sciencesUse caseRNA-SeqBiology (General)MIT LicenseTranscriptomicsInformation retrievalBase SequenceSequence Analysis RNAData interpretationData visualizationRReproducibility of ResultsIdentification (information)WorkflowRNASoftwareFunctional enrichment analysis
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Biosensors for the determination of SARS-CoV-2 virus and diagnosis of COVID-19 infection

2022

Monitoring and tracking infection is required in order to reduce the spread of the coronavirus disease 2019 (COVID-19), induced by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). To achieve this goal, the development and deployment of quick, accurate, and sensitive diagnostic methods are necessary. The determination of the SARS-CoV-2 virus is performed by biosensing devices, which vary according to detection methods and the biomarkers which are inducing/providing an analytical signal. RNA hybridisation, antigen-antibody affinity interaction, and a variety of other biological reactions are commonly used to generate analytical signals that can be precisely detected using electro…

QH301-705.5immune complexSARS-CoV-2 virusBiosensing TechniquesReviewCatalysisInorganic Chemistryelectrochemical immunosensorsCOVID-19 TestingHumansSerologic TestsPhysical and Theoretical ChemistryBiology (General)Molecular BiologyQD1-999SpectroscopySARS-CoV-2bioelectrochemistryOrganic ChemistryCOVID-19General MedicineRNA analysisbiosensorsimmobilisation of biomoleculesNanostructuresComputer Science ApplicationsChemistryMolecular Diagnostic Techniquesmolecularly imprinted polymers (MIPs)antigen-antibody interactionCOVID-19 ; SARS-CoV-2 virus ; biosensors ; electrochemical immunosensors ; bioelectrochemistry ; RNA analysis ; antigen-antibody interaction ; immune complex ; immobilisation of biomolecules ; molecularly imprinted polymers (MIPs)
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Molecular Mediators of RNA Loading into Extracellular Vesicles

2021

In the last decade, an increasing number of studies have demonstrated that non-coding RNA (ncRNAs) cooperate in the gene regulatory networks with other biomolecules, including coding RNAs, DNAs and proteins. Among them, microRNAs (miRNAs), long non-coding RNAs (lncRNAs) and circular RNAs (circRNAs) are involved in transcriptional and translation regulation at different levels. Intriguingly, ncRNAs can be packed in vesicles, released in the extracellular space, and finally internalized by receiving cells, thus affecting gene expression also at distance. This review focuses on the mechanisms through which the ncRNAs can be selectively packaged into extracellular vesicles (EVs).

QH301-705.5non-coding RNAlncRNAsGene regulatory networkReviewexosomesModels BiologicalRNA TransportSettore BIO/13 - Biologia ApplicataGene expressionTranslational regulationmicroRNAExtracellularAnimalsHumansBiology (General)ChemistryProteinsRNAGeneral MedicineNon-coding RNAMicrovesiclesCell biologymiRNAsRNAextracellular vesiclesCells
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Single-molecule FRET studies of counterion effects on the free energy landscape of human mitochondrial lysine tRNA.

2011

The folding energy landscape of RNA is greatly affected by interactions between the RNA and counterions that neutralize the backbone negative charges and may also participate in tertiary contacts. Valence, size, coordination number, and electron shell structure can all contribute to the energetic stabilization of specific RNA conformations. Using single-molecule fluorescence resonance energy transfer (smFRET), we have examined the folding properties of the RNA transcript of human mitochondrial tRNA(Lys), which possesses two different folded states in addition to the unfolded one under conditions of thermodynamic equilibrium. We have quantitatively analyzed the degree of RNA tertiary structu…

Quantitative Biology::BiomoleculesChemistryNucleic acid tertiary structureRNA MitochondrialRNA StabilityRNA ConformationRNAEnergy landscapeSingle-molecule FRETQuantitative Biology::GenomicsBiochemistryProtein tertiary structureCrystallographyFörster resonance energy transferCationsTransfer RNAFluorescence Resonance Energy TransferHumansNucleic Acid ConformationRNARNA Transfer LysThermodynamicsRNA MessengerBiochemistry
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Non-coding RNAs at the Eukaryotic rDNA Locus: RNA–DNA Hybrids and Beyond

2019

The human ribosomal DNA (rDNA) locus encodes a variety of long non-coding RNAs (lncRNAs). Among them, the canonical ribosomal RNAs that are the catalytic components of the ribosomes, as well as regulatory lncRNAs including promoter-associated RNAs (pRNA), stress-induced promoter and pre-rRNA antisense RNAs (PAPAS), and different intergenic spacer derived lncRNA species (IGSRNA). In addition, externally encoded lncRNAs are imported into the nucleolus, which orchestrate the complex regulation of the nucleolar state in normal and stress conditions via a plethora of molecular mechanisms. This review focuses on the triplex and R-loop formation aspects of lncRNAs at the rDNA locus in yeast and hu…

R-loopNucleolusBiologyDNA RibosomalRibosome03 medical and health scienceschemistry.chemical_compound0302 clinical medicineStructural BiologyTranscription (biology)YeastsHumansMolecular BiologyRibosomal DNA030304 developmental biologyGenetics0303 health sciencesRibosomal RNANon-coding RNAchemistryDNA IntergenicRNA Long NoncodingR-Loop StructuresCell Nucleolus030217 neurology & neurosurgeryDNADNA DamageJournal of Molecular Biology
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