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AUTHOR

Hildebrandt Andreas

showing 2 related works from this author

A computational method for studying the relation between alternative splicing and DNA methylation.

2015

Alternative splicing is an important mechanism in eukaryotes that expands the transcriptome and proteome significantly. It plays an important role in a number of biological processes. Understanding its regulation is hence an important challenge. Recently, increasing evidence has been collected that supports an involvement of intragenic DNA methylation in the regulation of alternative splicing. The exact mechanisms of regulation, however, are largely unknown, and speculated to be complex: different methylation profiles might exist, each of which could be associated with a different regulation mechanism. We present a computational technique that is able to determine such stable methylation pa…

7Alternative SplicingHumansRNAMethods OnlineExonsDNA MethylationTranscriptomeIntronsSoftware24Epigenesis GeneticNucleic acids research
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NightShift: NMR shift inference by general hybrid model training--a framework for NMR chemical shift prediction.

2012

Background NMR chemical shift prediction plays an important role in various applications in computational biology. Among others, structure determination, structure optimization, and the scoring of docking results can profit from efficient and accurate chemical shift estimation from a three-dimensional model. A variety of NMR chemical shift prediction approaches have been presented in the past, but nearly all of these rely on laborious manual data set preparation and the training itself is not automatized, making retraining the model, e.g., if new data is made available, or testing new models a time-consuming manual chore. Results In this work, we present the framework NightShift (NMR Shift …

Models StatisticalProteinsDatabases ProteinNuclear Magnetic Resonance BiomolecularAlgorithmsSoftwareResearch ArticleBMC bioinformatics
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