Andreas Buneß scite author profile

Gene expression data from microarrays are being applied to predict preclinical and clinical endpoints, but the reliability of these predictions has not been established. In the MAQC-II project, 36 independent teams analyzed six microarray data sets to generate predictive models for classifying a sample with respect to one of 13 endpoints indicative of lung or liver toxicity in rodents, or of breast cancer, multiple myeloma or neuroblastoma in humans. In total, >30,000 models were built using many combinations of analytical methods. The teams generated predictive models without knowing the biological meaning of some of the endpoints and, to mimic clinical reality, tested the models on data that had not been used for training. We found that model performance depended largely on the endpoint and team proficiency and that different approaches generated models of similar performance. The conclusions and recommendations from MAQC-II should be useful for regulatory agencies, study committees and independent investigators that evaluate methods for global gene expression analysis.

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Nuclear Architecture Organized by Rif1 Underpins the Replication-Timing Program

Foti

et al. 2016

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Summary DNA replication is temporally and spatially organized in all eukaryotes, yet the molecular control and biological function of the replication-timing program are poorly understood. A role for three-dimensional chromatin organization has been proposed. Rif1 is required for normal genome-wide regulation of replication timing, but its molecular function is poorly understood. Here we show that in mouse embryonic stem cells Rif1 coats late replicating domains and, together with Lamin B1 identifies the majority of the late replicating genome. Rif1 is an essential determinant of replication timing of non-Lamin B1-bound late domains. We further demonstrate that Rif1 defines and restricts the interactions between replication-timing domains during G1, thereby revealing a novel function of Rif1 as organizer of nuclear architecture. Loss of Rif1 affects both number and replication-timing specificity of the interactions between replication-timing domains. In addition, during S-phase Rif1 ensures temporal coordination of replication of interacting domains. In summary our study identifies Rif1 as the first molecular link between nuclear architecture organization and replication-timing establishment in mammals.

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Quantitative predictions of protein interactions with long noncoding RNAs

et al. 2016

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Identification of a Common Gene Expression Signature in Dilated Cardiomyopathy Across Independent Microarray Studies

Barth¹,

Kuner

Buneß

et al. 2006

Journal of the American College of Cardiology

163

162

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Andreas Buneß

The MicroArray Quality Control (MAQC)-II study of common practices for the development and validation of microarray-based predictive models

Nuclear Architecture Organized by Rif1 Underpins the Replication-Timing Program

Quantitative predictions of protein interactions with long noncoding RNAs

Identification of a Common Gene Expression Signature in Dilated Cardiomyopathy Across Independent Microarray Studies

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