about
Computational verification of protein-protein interactions by orthologous co-expressionEvolution of gene sequence and gene expression are not correlated in yeast.Autocorrelation analysis reveals widespread spatial biases in microarray experiments.miR-142 orchestrates a network of actin cytoskeleton regulators during megakaryopoiesisEpigenetically-inherited centromere and neocentromere DNA replicates earliest in S-phaseCoupled evolution of transcription and mRNA degradation.Highly Parallel Genome-wide Expression Profiling of Individual Cells Using Nanoliter DropletsOpposite GC skews at the 5' and 3' ends of genes in unicellular fungi.Chromatin regulators as capacitors of interspecies variations in gene expression.Promoter nucleosome organization shapes the evolution of gene expressionEvolution of nucleosome occupancy: conservation of global properties and divergence of gene-specific patternsCRISPR targeting reveals a reservoir of common phages associated with the human gut microbiomeExpression noise and acetylation profiles distinguish HDAC functions.Extensive divergence of yeast stress responses through transitions between induced and constitutive activation.Inferring regulatory mechanisms from patterns of evolutionary divergenceChromatin mediation of a transcriptional memory effect in yeastA Genome-wide CRISPR Screen in Primary Immune Cells to Dissect Regulatory NetworksComparative analysis indicates regulatory neofunctionalization of yeast duplicates.Single-cell RNA-seq reveals changes in cell cycle and differentiation programs upon aging of hematopoietic stem cells.The pattern and evolution of yeast promoter bendability.Two strategies for gene regulation by promoter nucleosomesComparative biology: beyond sequence analysis.Dissecting the multicellular ecosystem of metastatic melanoma by single-cell RNA-seqPromoter architecture and the evolvability of gene expressionIFNγ-Dependent Tissue-Immune Homeostasis Is Co-opted in the Tumor Microenvironment.High-throughput Phenotyping of Lung Cancer Somatic MutationsReconstructing and reprogramming the tumor-propagating potential of glioblastoma stem-like cells.Genetic and Proteomic Interrogation of Lower Confidence Candidate Genes Reveals Signaling Networks in β-Catenin-Active Cancers.142 Genetic and Nongenetic Determinants of Cellular Architecture in IDH1-Mutant Oligodendrogliomas and Astrocytomas Using Single-Cell Transcriptome Analysis.Transcriptional priming of cytoplasmic post-transcriptional regulation.Widespread promoter-mediated coordination of transcription and mRNA degradation.Divergence of nucleosome positioning between two closely related yeast species: genetic basis and functional consequences.PBAN receptor: employment of anti-receptor antibodies for its characterization and for development of a microplate binding assay.Challenges and emerging directions in single-cell analysis.Widespread remodeling of mid-coding sequence nucleosomes by Isw1.Single-cell RNA-seq supports a developmental hierarchy in human oligodendroglioma.
P50
Q24804555-DB279631-A203-4706-AEE1-41C487AC418CQ30367576-8E31E13C-ECAA-4B74-91B1-16AE6F878348Q33287498-01A59F8C-00E5-4ABF-9123-CAE706CE20C6Q33415507-7DBEC96B-1D77-4B17-93F9-9B5337777B14Q33680694-E7EEE06E-50ED-4557-B819-CAE306DA2C32Q33979465-73011A72-8551-4D8C-948F-D659D1159E2BQ34044099-63D28ADD-5D97-4D4A-BD3D-14AE35F2E70BQ34114418-BB88C70D-BC24-4185-981B-807F781B0CD9Q34152568-69FE8E53-48A0-4EFE-BF4F-F44F07ABDF60Q34205949-1B5251EF-3842-416B-9D0E-79670579AD60Q34214013-7B1529C4-C2D4-4F1B-A75D-2F4BA4D68B0FQ34283959-B995FD10-7FD3-43DC-A590-4A49E166C50DQ34298517-C7D0FE7F-38B8-43AA-B98E-DF72F00F1AB3Q35289082-8EC36E44-C053-4EEE-BE5D-347BEDDE39A2Q35458609-83A9871D-3423-4AE1-935B-A9EB5CBADD40Q35589997-5FAD637E-1EA7-4CC5-B51A-29BA1DA9215CQ35696798-6371318B-ADD8-4A96-A5EE-DD13CB38DF96Q35850302-F80100C4-E556-4F70-BC95-99C7922D6F74Q36333706-7C970B6F-7635-41D7-87E5-DD662A0A8671Q36785640-97C82772-5E14-44BE-90EB-36977A64E671Q36804735-E6BACCC2-FE57-49D3-AF30-220CD8D49435Q36907995-C02073F5-64BB-4015-A9CA-368704914F18Q37094024-2415668B-7CAF-4A27-8905-70A59CB53266Q37657760-17CC74FF-6029-4385-994B-2EA0CB0B421FQ38699928-3C0499B0-1411-450E-AE36-368E86B68203Q38754469-F1424A16-AF52-4F1F-BDE8-FF2331185EEAQ39004963-713A2368-8F06-4DEA-96B3-526F7D03309FQ39340411-092759D4-FDCD-4AAE-A04B-947DA148E45EQ39614781-E986B333-9731-4C12-9C1F-8A66DF9532ABQ40645997-E555A8AF-AAF3-4A76-84DE-DF86E2DB636DQ40666069-ECF5B62D-8E68-4146-81A6-BADE63C839D9Q41330259-D0B12FD0-968C-4940-9FCD-D43B0EEC8A8DQ42025135-CEF41EA5-8E7C-413E-B172-7F01574294CAQ42353826-53DA5133-CC59-4D98-955A-AADB1E0B55FCQ42705199-0042EAEB-FBA7-4989-993A-31E51D28DEADQ42774833-0009186F-EF9E-48E6-93D2-A79E65860D4D
P50
description
onderzoeker
@nl
name
Itay Tirosh
@ast
Itay Tirosh
@en
Itay Tirosh
@es
Itay Tirosh
@nl
Itay Tirosh
@sl
type
label
Itay Tirosh
@ast
Itay Tirosh
@en
Itay Tirosh
@es
Itay Tirosh
@nl
Itay Tirosh
@sl
prefLabel
Itay Tirosh
@ast
Itay Tirosh
@en
Itay Tirosh
@es
Itay Tirosh
@nl
Itay Tirosh
@sl