Andreas Gogol‐Döring
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View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Figure from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Figure from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Figure from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Metastasis, a complex, multistep process, is responsible for the overwhelming majority of cancer-related deaths. Despite its devastating consequences, it is not possible to effectively treat cancer that has spread to vital organs, the mech…
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Metastasis, a complex, multistep process, is responsible for the overwhelming majority of cancer-related deaths. Despite its devastating consequences, it is not possible to effectively treat cancer that has spread to vital organs, the mech…
View article: Supplementary Figure from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Figure from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Figure from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
Supplementary Data from <i>In Vitro</i> Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis Open
Supplementary Data from In Vitro Insertional Mutagenesis Screen Identifies Novel Genes Driving Breast Cancer Metastasis
View article: Taxonomic analysis of metagenomic data with kASA
Taxonomic analysis of metagenomic data with kASA Open
The taxonomic analysis of sequencing data has become important in many areas of life sciences. However, currently available tools for that purpose either consume large amounts of RAM or yield insufficient quality and robustness. Here, we p…
View article: Integrative analysis revealed the molecular mechanism underlying RBM10-mediated splicing regulation: RBM10 mediated alternative splicing
Integrative analysis revealed the molecular mechanism underlying RBM10-mediated splicing regulation: RBM10 mediated alternative splicing Open
RBM10 encodes an RNA binding protein. Mutations in RBM10 are known to cause multiple congenital anomaly syndrome in male humans, the TARP syndrome. However, the molecular function of RBM10 is unknown. Here we used PAR-CLIP to identify thou…
View article: RNA-guided retargeting of Sleeping Beauty transposition in human cells
RNA-guided retargeting of Sleeping Beauty transposition in human cells Open
An ideal tool for gene therapy would enable efficient gene integration at predetermined sites in the human genome. Here we demonstrate biased genome-wide integration of the Sleeping Beauty (SB) transposon by combining it with components of…
Correction: Genomic Analysis of Sleeping Beauty Transposon Integration in Human Somatic Cells Open
[This corrects the article DOI: 10.1371/journal.pone.0112712.].
View article: RNA-guided Retargeting of <i>Sleeping Beauty</i> Transposition in Human Cells
RNA-guided Retargeting of <i>Sleeping Beauty</i> Transposition in Human Cells Open
Two different approaches of genomic modification are currently used for genome engineering and gene therapy: integrating vectors, which can efficiently integrate large transgenes but are unspecific with respect to their integration sites, …
View article: A56 Visualization of recombination in deformed wing virus infecting bees
A56 Visualization of recombination in deformed wing virus infecting bees Open
Honey bees suffer increasing colony mortality worldwide, partially caused by the spread of viral pathogens. Among these pathogens, deformed wing virus (DWV) is one of the major, widespread viruses of honey bees resulting in wing deformitie…
View article: kASA: Taxonomic Analysis of Metagenomic Data on a Notebook
kASA: Taxonomic Analysis of Metagenomic Data on a Notebook Open
The taxonomic analysis of sequencing data has become important in many areas of life sciences. However, currently available software tools for that purpose either consume large amounts of RAM or yield an insufficient quality of the results…
View article: Enhort: a platform for deep analysis of genomic positions
Enhort: a platform for deep analysis of genomic positions Open
The rise of high-throughput methods in genomic research greatly expanded our knowledge about the functionality of the genome. At the same time, the amount of available genomic position data increased massively, e.g., through genome-wide pr…
View article: Peer Review #2 of "Enhort: a platform for deep analysis of genomic positions (v0.2)"
Peer Review #2 of "Enhort: a platform for deep analysis of genomic positions (v0.2)" Open
The rise of high-throughput methods in genomic research greatly expanded our knowledge about the functionality of the genome.At the same time, the amount of available genomic position data increased massively, e.g., through genome-wide pro…
View article: Peer Review #2 of "Enhort: a platform for deep analysis of genomic positions (v0.1)"
Peer Review #2 of "Enhort: a platform for deep analysis of genomic positions (v0.1)" Open
The rise of high-throughput methods in genomic research greatly expanded our knowledge about the functionality of the genome.At the same time, the amount of available genomic position data increased massively, e.g., through genome-wide pro…