Kai Bernd Stadermann scite author profile

Motivation: Fast algorithms and well-arranged visualizations are required for the comprehensive analysis of the ever-growing size of genomic and transcriptomic next-generation sequencing data.Results: ReadXplorer is a software offering straightforward visualization and extensive analysis functions for genomic and transcriptomic DNA sequences mapped on a reference. A unique specialty of ReadXplorer is the quality classification of the read mappings. It is incorporated in all analysis functions and displayed in ReadXplorer's various synchronized data viewers for (i) the reference sequence, its base coverage as (ii) normalizable plot and (iii) histogram, (iv) read alignments and (v) read pairs. ReadXplorer's analysis capability covers RNA secondary structure prediction, single nucleotide polymorphism and deletion–insertion polymorphism detection, genomic feature and general coverage analysis. Especially for RNA-Seq data, it offers differential gene expression analysis, transcription start site and operon detection as well as RPKM value and read count calculations. Furthermore, ReadXplorer can combine or superimpose coverage of different datasets.Availability and implementation: ReadXplorer is available as open-source software at http://www.readxplorer.org along with a detailed manual.Contact: rhilker@mikrobio.med.uni-giessen.deSupplementary information: Supplementary data are available at Bioinformatics online.

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ReadXplorer 2—detailed read mapping analysis and visualization from one single source

Hilker

Stadermann

Schwengers

et al. 2016

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Motivation: The vast amount of already available and currently generated read mapping data requires comprehensive visualization, and should benefit from bioinformatics tools offering a wide spectrum of analysis functionality from just one source. Appropriate handling of multiple mapped reads during mapping analyses remains an issue that demands improvement.Results: The capabilities of the read mapping analysis and visualization tool ReadXplorer were vastly enhanced. Here, we present an even finer granulated read mapping classification, improving the level of detail for analyses and visualizations. The spectrum of automatic analysis functions has been broadened to include genome rearrangement detection as well as correlation analysis between two mapping data sets. Existing functions were refined and enhanced, namely the computation of differentially expressed genes, the read count and normalization analysis and the transcription start site detection. Additionally, ReadXplorer 2 features a highly improved support for large eukaryotic data sets and a command line version, enabling its integration into workflows. Finally, the new version is now able to display any kind of tabular results from other bioinformatics tools.Availability and Implementation: http://www.readxplorer.orgContact: readxplorer@computational.bio.uni-giessen.deSupplementary information: Supplementary data are available at Bioinformatics online.

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A chromosome-level sequence assembly reveals the structure of the Arabidopsis thaliana Nd-1 genome and its gene set

et al. 2019

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In addition to the BAC-based reference sequence of the accession Columbia-0 from the year 2000, several short read assemblies of THE plant model organism Arabidopsis thaliana were published during the last years. Also, a SMRT-based assembly of Landsberg erecta has been generated that identified translocation and inversion polymorphisms between two genotypes of the species. Here we provide a chromosome-arm level assembly of the A . thaliana accession Niederzenz-1 (AthNd-1_v2c) based on SMRT sequencing data. The best assembly comprises 69 nucleome sequences and displays a contig length of up to 16 Mbp. Compared to an earlier Illumina short read-based NGS assembly (AthNd-1_v1), a 75 fold increase in contiguity was observed for AthNd-1_v2c. To assign contig locations independent from the Col-0 gold standard reference sequence, we used genetic anchoring to generate a de novo assembly. In addition, we assembled the chondrome and plastome sequences. Detailed analyses of AthNd-1_v2c allowed reliable identification of large genomic rearrangements between A . thaliana accessions contributing to differences in the gene sets that distinguish the genotypes. One of the differences detected identified a gene that is lacking from the Col-0 gold standard sequence. This de novo assembly extends the known proportion of the A . thaliana pan-genome.

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SMRT sequencing only de novo assembly of the sugar beet (Beta vulgaris) chloroplast genome

2015

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BackgroundThird generation sequencing methods, like SMRT (Single Molecule, Real-Time) sequencing developed by Pacific Biosciences, offer much longer read length in comparison to Next Generation Sequencing (NGS) methods. Hence, they are well suited for de novo- or re-sequencing projects. Sequences generated for these purposes will not only contain reads originating from the nuclear genome, but also a significant amount of reads originating from the organelles of the target organism. These reads are usually discarded but they can also be used for an assembly of organellar replicons. The long read length supports resolution of repetitive regions and repeats within the organelles genome which might be problematic when just using short read data. Additionally, SMRT sequencing is less influenced by GC rich areas and by long stretches of the same base.ResultsWe describe a workflow for a de novo assembly of the sugar beet (Beta vulgaris ssp. vulgaris) chloroplast genome sequence only based on data originating from a SMRT sequencing dataset targeted on its nuclear genome. We show that the data obtained from such an experiment are sufficient to create a high quality assembly with a higher reliability than assemblies derived from e.g. Illumina reads only. The chloroplast genome is especially challenging for de novo assembling as it contains two large inverted repeat (IR) regions. We also describe some limitations that still apply even though long reads are used for the assembly.ConclusionsSMRT sequencing reads extracted from a dataset created for nuclear genome (re)sequencing can be used to obtain a high quality de novo assembly of the chloroplast of the sequenced organism. Even with a relatively small overall coverage for the nuclear genome it is possible to collect more than enough reads to generate a high quality assembly that outperforms short read based assemblies. However, even with long reads it is not always possible to clarify the order of elements of a chloroplast genome sequence reliantly which we could demonstrate with Fosmid End Sequences (FES) generated with Sanger technology. Nevertheless, this limitation also applies to short read sequencing data but is reached in this case at a much earlier stage during finishing.Electronic supplementary materialThe online version of this article (doi:10.1186/s12859-015-0726-6) contains supplementary material, which is available to authorized users.

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Antifibrotic effects of low dose SGLT2 Inhibition with empagliflozin in comparison to Ang II receptor blockade with telmisartan in 5/6 nephrectomised rats on high salt diet

Zeng

Delić²,

Chu³

et al. 2022

Biomedicine & Pharmacotherapy

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A Novel Antagonistic CD73 Antibody for Inhibition of the Immunosuppressive Adenosine Pathway

Wurm

Schaaf

Reutner

et al. 2021

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Chloroplast Genome Sequence of Arabidopsis thaliana Accession Landsberg erecta , Assembled from Single-Molecule, Real-Time Sequencing Data

2016

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A Chromosome-level Sequence Assembly Reveals the Structure of theArabidopsis thalianaNd-1 Genome and its Gene Set

Pucker

Holtgräwe

Stadermann

et al. 2018

Preprint

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28Background 29In addition to the BAC-based reference sequence of the accession Columbia-0 from the year 30 2000, several short read assemblies of THE plant model organism Arabidopsis thaliana were 31 published during the last years. Also, a SMRT-based assembly of Landsberg erecta has 32 been generated that identified translocation and inversion polymorphisms between two 33 genotypes of the species. 34 Results 35Here we provide a chromosome-arm level assembly of the A. thaliana accession 36Niederzenz-1 (AthNd-1_v2c) based on SMRT sequencing data. The best assembly 37 comprises 69 nucleome sequences and displays a contig length of up to 16 Mbp. Compared 38 to an earlier Illumina short read-based NGS assembly (AthNd-1_v1), a 75 fold increase in 39 contiguity was observed for AthNd-1_v2c. To assign contig locations independent from the 40 Col-0 gold standard reference sequence, we used genetic anchoring to generate a de novo 41assembly. In addition, we assembled the chondrome and plastome sequences. 42 43 Conclusions 44

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