2023
The EN-TEx resource of multi-tissue personal epigenomes & variant-impact models
Rozowsky J, Gao J, Borsari B, Yang Y, Galeev T, Gürsoy G, Epstein C, Xiong K, Xu J, Li T, Liu J, Yu K, Berthel A, Chen Z, Navarro F, Sun M, Wright J, Chang J, Cameron C, Shoresh N, Gaskell E, Drenkow J, Adrian J, Aganezov S, Aguet F, Balderrama-Gutierrez G, Banskota S, Corona G, Chee S, Chhetri S, Cortez Martins G, Danyko C, Davis C, Farid D, Farrell N, Gabdank I, Gofin Y, Gorkin D, Gu M, Hecht V, Hitz B, Issner R, Jiang Y, Kirsche M, Kong X, Lam B, Li S, Li B, Li X, Lin K, Luo R, Mackiewicz M, Meng R, Moore J, Mudge J, Nelson N, Nusbaum C, Popov I, Pratt H, Qiu Y, Ramakrishnan S, Raymond J, Salichos L, Scavelli A, Schreiber J, Sedlazeck F, See L, Sherman R, Shi X, Shi M, Sloan C, Strattan J, Tan Z, Tanaka F, Vlasova A, Wang J, Werner J, Williams B, Xu M, Yan C, Yu L, Zaleski C, Zhang J, Ardlie K, Cherry J, Mendenhall E, Noble W, Weng Z, Levine M, Dobin A, Wold B, Mortazavi A, Ren B, Gillis J, Myers R, Snyder M, Choudhary J, Milosavljevic A, Schatz M, Bernstein B, Guigó R, Gingeras T, Gerstein M. The EN-TEx resource of multi-tissue personal epigenomes & variant-impact models. Cell 2023, 186: 1493-1511.e40. PMID: 37001506, PMCID: PMC10074325, DOI: 10.1016/j.cell.2023.02.018.Peer-Reviewed Original Research
2022
Building integrative functional maps of gene regulation
Xu J, Pratt HE, Moore JE, Gerstein MB, Weng Z. Building integrative functional maps of gene regulation. Human Molecular Genetics 2022, 31: r114-r122. PMID: 36083269, PMCID: PMC9585680, DOI: 10.1093/hmg/ddac195.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsGene regulationRegulatory mapSame genetic informationNon-coding genesSuch regulatory elementsEvolutionary analysisHuman genomeRegulatory elementsGenetic informationGene expressionType diversityRegulatory roleGenomeBase pairsIndividual cellsFunctional assaysSpecific functionsRegulationCellsFunctional mapsGenesDNADiversityCopiesSequenceMafB, WDR77, and ß-catenin interact with each other and have similar genome association profiles
He L, Gao M, Pratt H, Weng Z, Struhl K. MafB, WDR77, and ß-catenin interact with each other and have similar genome association profiles. PLOS ONE 2022, 17: e0264799. PMID: 35482762, PMCID: PMC9049301, DOI: 10.1371/journal.pone.0264799.Peer-Reviewed Original Research
2021
Investigating the Potential Roles of SINEs in the Human Genome
Zhang X, Pratt H, Weng Z. Investigating the Potential Roles of SINEs in the Human Genome. Annual Review Of Genomics And Human Genetics 2021, 22: 1-20. PMID: 33792357, DOI: 10.1146/annurev-genom-111620-100736.Peer-Reviewed Original ResearchConceptsShort interspersed nuclear elementsHuman genomePol II-transcribed genesFunctional regulatory elementsGene-rich regionsRNA polymerase IIIProximity to genesInterspersed nuclear elementsRegulate gene expressionPotential regulatory functionsSINE RNAsNonautonomous retrotransposonsPolymerase IIIGene regulationRegulatory elementsAutonomous retroelementsGenomeNuclear elementsGene expressionGenesRNARNA levelsPolPotential roleRetrotransposons
2020
Expanded encyclopaedias of DNA elements in the human and mouse genomes
Moore J, Purcaro M, Pratt H, Epstein C, Shoresh N, Adrian J, Kawli T, Davis C, Dobin A, Kaul R, Halow J, Van Nostrand E, Freese P, Gorkin D, Shen Y, He Y, Mackiewicz M, Pauli-Behn F, Williams B, Mortazavi A, Keller C, Zhang X, Elhajjajy S, Huey J, Dickel D, Snetkova V, Wei X, Wang X, Rivera-Mulia J, Rozowsky J, Zhang J, Chhetri S, Zhang J, Victorsen A, White K, Visel A, Yeo G, Burge C, Lécuyer E, Gilbert D, Dekker J, Rinn J, Mendenhall E, Ecker J, Kellis M, Klein R, Noble W, Kundaje A, Guigó R, Farnham P, Cherry J, Myers R, Ren B, Graveley B, Gerstein M, Pennacchio L, Snyder M, Bernstein B, Wold B, Hardison R, Gingeras T, Stamatoyannopoulos J, Weng Z. Expanded encyclopaedias of DNA elements in the human and mouse genomes. Nature 2020, 583: 699-710. PMID: 32728249, PMCID: PMC7410828, DOI: 10.1038/s41586-020-2493-4.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsChromatinDatabases, GeneticDeoxyribonuclease IDNADNA FootprintingDNA MethylationDNA Replication TimingGenomeGenome, HumanGenomicsHistonesHumansMiceMice, TransgenicMolecular Sequence AnnotationRegistriesRegulatory Sequences, Nucleic AcidRNA-Binding ProteinsTranscription, GeneticTransposasesConceptsMouse genomeCandidate cis-regulatory elementsCis-regulatory elementsDNA Elements (ENCODE) projectMouse fetal developmentChromatin structureGene regulationRespective genomesCellular contextDNA elementsDNA methylationENCODE dataTranscription factorsRNA transcriptionWeb-based serverGenomeExpansive resourceRNAEncyclopediaProteinFetal developmentChromatinTranscriptionHumansMethylation
2018
Decoding the non-coding genome: Opportunities and challenges of genomic and epigenomic consortium data
Pratt H, Weng Z. Decoding the non-coding genome: Opportunities and challenges of genomic and epigenomic consortium data. Current Opinion In Systems Biology 2018, 11: 82-90. DOI: 10.1016/j.coisb.2018.09.002.Peer-Reviewed Original ResearchGenome-wide chromatin structureNext-generation sequencing dataCellular responses to stimuliFeatures of gene regulationUniform data processingNon-coding genomeTranscription factor bindingCell type differentiationIntegrated analysisGene expression changesSequence dataChromatin structureFactor bindingGene regulationOrganismal developmentTranscriptional activityExpression changesPhenotypic changesResponse to stimuliConsortium dataDisease mechanismsType differentiationComputational analysisInternational consortiumGenome