Featured Publications
High-plex protein and whole transcriptome co-mapping at cellular resolution with spatial CITE-seq
Liu Y, DiStasio M, Su G, Asashima H, Enninful A, Qin X, Deng Y, Nam J, Gao F, Bordignon P, Cassano M, Tomayko M, Xu M, Halene S, Craft J, Hafler D, Fan R. High-plex protein and whole transcriptome co-mapping at cellular resolution with spatial CITE-seq. Nature Biotechnology 2023, 41: 1405-1409. PMID: 36823353, PMCID: PMC10567548, DOI: 10.1038/s41587-023-01676-0.Peer-Reviewed Original ResearchDeconvolution of in vivo protein-RNA contacts using fractionated eCLIP-seq
Biancon G, Busarello E, Joshi P, Lesch B, Halene S, Tebaldi T. Deconvolution of in vivo protein-RNA contacts using fractionated eCLIP-seq. STAR Protocols 2022, 3: 101823. PMID: 36595959, PMCID: PMC9676202, DOI: 10.1016/j.xpro.2022.101823.Peer-Reviewed Original ResearchConceptsProtein-RNA interactionsIndividual RNA-binding proteinsTranscriptome-wide analysisThousands of RNAsProtein-RNA contactsRNA-binding proteinSingle nucleotide levelComputational analysis pipelineRNA processingMulticomponent complexesRNA immunoprecipitationRead countsComplete detailsAnalysis pipelineAdditional levelProteinImmunoprecipitationRNAInteractionComplexesHigh-Spatial-Resolution Multi-Omics Sequencing via Deterministic Barcoding in Tissue
Liu Y, Yang M, Deng Y, Su G, Enninful A, Guo CC, Tebaldi T, Zhang D, Kim D, Bai Z, Norris E, Pan A, Li J, Xiao Y, Halene S, Fan R. High-Spatial-Resolution Multi-Omics Sequencing via Deterministic Barcoding in Tissue. Cell 2020, 183: 1665-1681.e18. PMID: 33188776, PMCID: PMC7736559, DOI: 10.1016/j.cell.2020.10.026.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutomationBrainCluster AnalysisDNA Barcoding, TaxonomicDNA, ComplementaryEmbryo, MammalianEyeFemaleGene Expression Regulation, DevelopmentalGenomicsHuman Umbilical Vein Endothelial CellsHumansMice, Inbred C57BLMicrofluidicsOrgan SpecificityReproducibility of ResultsRNA, MessengerSingle-Cell AnalysisTranscriptomeConceptsDeterministic barcodingNext-generation sequencingSingle-cell transcriptomesGene expression profilesMajor tissue typesDBiT-seqDNA barcodesDevelopmental biologyExpression profilesEarly organogenesisCancer biologyCell typesBarcodingTissue typesSequencingBarcodesBiologyRapid identificationSets of barcodesTranscriptomeParallel microfluidic channelsOrganogenesisEmbryosProteinTissue pixels
2024
Ezrin drives adaptation of monocytes to the inflamed lung microenvironment
Gudneppanavar R, Di Pietro C, H Öz H, Zhang P, Cheng E, Huang P, Tebaldi T, Biancon G, Halene S, Hoppe A, Kim C, Gonzalez A, Krause D, Egan M, Gupta N, Murray T, Bruscia E. Ezrin drives adaptation of monocytes to the inflamed lung microenvironment. Cell Death & Disease 2024, 15: 864. PMID: 39613751, PMCID: PMC11607083, DOI: 10.1038/s41419-024-07255-8.Peer-Reviewed Original ResearchConceptsActivation of focal adhesion kinaseExtracellular matrixActin-binding proteinsFocal adhesion kinaseLung extracellular matrixKnock-out mouse modelProtein kinase signalingCortical cytoskeletonLoss of ezrinKinase signalingPlasma membraneCell migrationSignaling pathwayEzrinResponse to lipopolysaccharideTissue-resident macrophagesMouse modelLipopolysaccharideCytoskeletonEzrin expressionLung microenvironmentKinaseMonocyte recruitmentProteinAktThe human CD47 checkpoint is targeted by an immunosuppressive Aedes aegypti salivary factor to enhance arboviral skin infectivity
Marin-Lopez A, Huck J, Esterly A, Azcutia V, Rosen C, Garcia-Milian R, Sefik E, Vidal-Pedrola G, Raduwan H, Chen T, Arora G, Halene S, Shaw A, Palm N, Flavell R, Parkos C, Thangamani S, Ring A, Fikrig E. The human CD47 checkpoint is targeted by an immunosuppressive Aedes aegypti salivary factor to enhance arboviral skin infectivity. Science Immunology 2024, 9: eadk9872. PMID: 39121194, DOI: 10.1126/sciimmunol.adk9872.Peer-Reviewed Original ResearchConceptsSuppress antiviral responsesArthropod proteinsPathogen replicationAntiviral responseProtein AVertebrate hostsMosquito salivary proteinsUp-regulatedBlood feedingHuman macrophagesPleomorphic effectsSkin infectionsZika virus disseminationInhibit proinflammatory responsesSalivary proteinsProteinNatural ligandWhite blood cellsHuman skin explantsProinflammatory responseMosquito salivaVirus disseminationHuman CD47Salivary factorsArbovirus infection
2022
Widespread association of the Argonaute protein AGO2 with meiotic chromatin suggests a distinct nuclear function in mammalian male reproduction
Griffin KN, Walters BW, Li H, Wang H, Biancon G, Tebaldi T, Kaya CB, Kanyo J, Lam TT, Cox AL, Halene S, Chung JJ, Lesch BJ. Widespread association of the Argonaute protein AGO2 with meiotic chromatin suggests a distinct nuclear function in mammalian male reproduction. Genome Research 2022, 32: 1655-1668. PMID: 36109149, PMCID: PMC9528986, DOI: 10.1101/gr.276578.122.Peer-Reviewed Original ResearchMammalian male reproductionArgonaute 2Distinct nuclear functionsConditional knockoutMale reproductionProtein Argonaute 2Abnormal sperm head morphologyMeiotic chromatinAnimal developmentCytoplasmic roleNuclear functionsMale meiosisNuclear roleMRNA translationAgo2 proteinImportant genesNuclear compartmentMRNA transcriptsBiological relevanceSperm head morphologyHead morphologySpermatogenic cellsWidespread associationChromatinProtein
2018
Role of alternative splicing in hematopoietic stem cells during development
Gao Y, Vasic R, Halene S. Role of alternative splicing in hematopoietic stem cells during development. Stem Cell Investigation 2018, 5: 26-26. PMID: 30221171, PMCID: PMC6131231, DOI: 10.21037/sci.2018.08.02.Commentaries, Editorials and LettersAlternative splicingSingle genomic locusRNA nuclear exportSplicing of mRNAGenomic lociMature proteinHematopoietic stem cellsNuclear exportSplicing isoformsTranscript stabilityAlternative isoformsTranscript levelsSplicingNormal developmentStem cellsSequencing modalitiesIsoformsTranscriptomeProteomeLociProteinDiversityMRNACellsExportSRSF2 mutations drive oncogenesis by activating a global program of aberrant alternative splicing in hematopoietic cells
Liang Y, Tebaldi T, Rejeski K, Joshi P, Stefani G, Taylor A, Song Y, Vasic R, Maziarz J, Balasubramanian K, Ardasheva A, Ding A, Quattrone A, Halene S. SRSF2 mutations drive oncogenesis by activating a global program of aberrant alternative splicing in hematopoietic cells. Leukemia 2018, 32: 2659-2671. PMID: 29858584, PMCID: PMC6274620, DOI: 10.1038/s41375-018-0152-7.Peer-Reviewed Original ResearchConceptsSplicing factorsRNA processingAlternative splicingGene productsSplicing factor SRSF2Gene regulatory eventsAberrant alternative splicingSplice alterationsRecurrent mutationsSplicing proteinsHITS-CLIPSR familyMRNA splicingSplicing genesHematopoietic differentiationRegulatory eventsImpairs hematopoietic differentiationMolecular explanationWidespread modificationSplicingHematopoietic cellsMutationsBinding eventsOncogenesisProtein