2024
Highly Reactive Group I Introns Ubiquitous in Pathogenic Fungi
Liu T, Pyle A. Highly Reactive Group I Introns Ubiquitous in Pathogenic Fungi. Journal Of Molecular Biology 2024, 436: 168513. PMID: 38447889, DOI: 10.1016/j.jmb.2024.168513.Peer-Reviewed Original ResearchGroup I intronsAntifungal drug targetsRNA metabolismPathogenic fungiPhylogeny of fungiSelf-splicing intronsDrug targetsSystemic fungal infectionsGenetic hotspotsRiboregulatory elementsMitochondrial intronsMitochondrial genesBioinformatics pipelineC. aurisCandida aurisRelevant fungiRNA elementsAspergillus fumigatusC. albicansHousekeeping genesCandida albicansNoncoding transcriptomeCryptococcus neoformansFungal infectionsFungi
2021
Discovery of highly reactive self-splicing group II introns within the mitochondrial genomes of human pathogenic fungi
Liu T, Pyle AM. Discovery of highly reactive self-splicing group II introns within the mitochondrial genomes of human pathogenic fungi. Nucleic Acids Research 2021, 49: 12422-12432. PMID: 34850132, PMCID: PMC8643640, DOI: 10.1093/nar/gkab1077.Peer-Reviewed Original ResearchConceptsGroup II intronsSelf-splicing group II intronsPathogenic fungiDrug targetsAntifungal drug targetsSelf-splicing intronsHuman pathogenic fungiMitochondrial genomeNear-physiological conditionsPromising drug targetProtein cofactorsStriking diversitySequence dataIntronsFungal pathogensInformatics searchBioinformatics workflowsFungiDimorphic fungusStructural signaturesPathogensGenomeCofactorDiversityTarget