2024
A compact regulatory RNA element in mouse Hsp70 mRNA
Wang W, Liu F, Ugalde M, Pyle A. A compact regulatory RNA element in mouse Hsp70 mRNA. 2024, 1: ugae002. PMID: 38318492, PMCID: PMC10840451, DOI: 10.1093/narmme/ugae002.Peer-Reviewed Original ResearchOpen reading frameRNA elementsHeat shockOpen reading frame sequenceRegulatory RNA elementsSecondary structure modelMessenger RNACap-independent mannerCap-dependent translationMolecular chaperone functionSequences of HSP70Reading frameMisfolded proteinsRNA foldingRegulate protein expressionChaperone functionMRNA sequencesUntranslated regionShort stretchSecondary structureCell stressGene expressionHSP70 gene expressionStructural basisMolecular mechanisms
2021
The molecular mechanism of RIG‐I activation and signaling
Thoresen D, Wang W, Galls D, Guo R, Xu L, Pyle AM. The molecular mechanism of RIG‐I activation and signaling. Immunological Reviews 2021, 304: 154-168. PMID: 34514601, PMCID: PMC9293153, DOI: 10.1111/imr.13022.Peer-Reviewed Original ResearchConceptsRIG-I activationTranscription of interferonEvolutionary implicationsAdapter proteinHost RNAPathogenic RNAsPattern recognition receptorsCell biologyInactive conformationMolecular mechanismsRNA virusesRole of RIGRNA duplexesInitial RNARNAStructural determinantsRecognition receptorsInnate immunityViral RNAInterferon expressionImportant receptorViral pathogensCellular spaceMolecular featuresReceptors
2016
Transcriptome analysis of human cumulus cells reveals hypoxia as the main determinant of follicular senescence
Molinari E, Bar H, Pyle AM, Patrizio P. Transcriptome analysis of human cumulus cells reveals hypoxia as the main determinant of follicular senescence. Molecular Human Reproduction 2016, 22: 866-876. PMID: 27268410, PMCID: PMC4986421, DOI: 10.1093/molehr/gaw038.Peer-Reviewed Original ResearchConceptsRNA sequencingHuman cumulus cellsCumulus cellsGEO accession numberHypoxia stress responseWhole transcriptome analysisTranscriptome analysisSomatic cellsEmbryonic developmentBioinformatics toolsGene pathwaysSpecific molecular findingsAccession numbersCell agingMolecular mechanismsStress responseVasculature developmentGenetic differencesSAMPLES/MATERIALSGenetic platformMolecular pathwaysReproductive potentialCAMP turnoverGenesSenescence
2015
HOTAIR Forms an Intricate and Modular Secondary Structure
Somarowthu S, Legiewicz M, Chillón I, Marcia M, Liu F, Pyle AM. HOTAIR Forms an Intricate and Modular Secondary Structure. Molecular Cell 2015, 58: 353-361. PMID: 25866246, PMCID: PMC4406478, DOI: 10.1016/j.molcel.2015.03.006.Peer-Reviewed Original ResearchConceptsFunctional secondary structureFundamental cellular processesSecondary structureProtein-binding motifsProtein-binding domainsGroup II intronsMetastasis suppressor geneSecondary structure elementsCellular processesPhylogenetic analysisLncRNA moleculesEpidermal developmentChemical probingMolecular mechanismsSuppressor geneCancer progressionStructural organizationKey playersLncRNA HOTAIRHOTAIRStructure elementsRNAHomogenous formReceptor activatorIntrons