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Showing results for "rnaseq" (Show all)
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rnaseq-header.cwl
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https://github.com/datirium/workflows.git
Path: metadata/rnaseq-header.cwl Branch/Commit ID: 942f453603bc1df04cee28d6ac6b3b8b649fda55 |
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rnaseq-header.cwl
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https://github.com/datirium/workflows.git
Path: metadata/rnaseq-header.cwl Branch/Commit ID: 7b9956c9560b187198f7fa211dbb2c54834dc45a |
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TOPMed_RNA-seq
TOPMed RNA-seq CWL workflow. Documentation on the workflow can be found [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md). Example input files: [Dockstore.json](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/Dockstore.json) and [rnaseq_pipeline_fastq-example.yml](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/rnaseq_pipeline_fastq-example.yml). Quickstart instructions are [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md#Quick Start). [GitHub Repo](https://github.com/heliumdatacommons/cwl_workflows) Pipeline steps: 1. Align RNA-seq reads with [STAR v2.5.3a](https://github.com/alexdobin/STAR). 2. Run [Picard](https://github.com/broadinstitute/picard) [MarkDuplicates](https://broadinstitute.github.io/picard/command-line-overview.html#MarkDuplicates). 2a. Create BAM index for MarkDuplicates BAM with [Samtools 1.6](https://github.com/samtools/samtools/releases) index. 3. Transcript quantification with [RSEM 1.3.0](https://deweylab.github.io/RSEM/) 4. Gene quantification and quality control with [RNA-SeQC 1.1.9](https://github.com/francois-a/rnaseqc) |
https://github.com/FarahZKhan/cwl_workflows.git
Path: topmed-workflows/TOPMed_RNAseq_pipeline/rnaseq_pipeline_fastq.cwl Branch/Commit ID: 6b76cf01df36e5a324140303c01b752723ba8b51 |
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TOPMed_RNA-seq
TOPMed RNA-seq CWL workflow. Documentation on the workflow can be found [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md). Example input files: [Dockstore.json](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/Dockstore.json) and [rnaseq_pipeline_fastq-example.yml](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/rnaseq_pipeline_fastq-example.yml). Quickstart instructions are [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md#Quick Start). [GitHub Repo](https://github.com/heliumdatacommons/cwl_workflows) Pipeline steps: 1. Align RNA-seq reads with [STAR v2.5.3a](https://github.com/alexdobin/STAR). 2. Run [Picard](https://github.com/broadinstitute/picard) [MarkDuplicates](https://broadinstitute.github.io/picard/command-line-overview.html#MarkDuplicates). 2a. Create BAM index for MarkDuplicates BAM with [Samtools 1.6](https://github.com/samtools/samtools/releases) index. 3. Transcript quantification with [RSEM 1.3.0](https://deweylab.github.io/RSEM/) 4. Gene quantification and quality control with [RNA-SeQC 1.1.9](https://github.com/francois-a/rnaseqc) |
https://github.com/FarahZKhan/cwl_workflows.git
Path: topmed-workflows/TOPMed_RNAseq_pipeline/rnaseq_pipeline_fastq.cwl Branch/Commit ID: 018d344b12e9e1b888e21e0819096f9b337d371d |
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xenbase-rnaseq-pe.cwl
XenBase workflow for analysing RNA-Seq paired-end data |
https://github.com/datirium/workflows.git
Path: workflows/xenbase-rnaseq-pe.cwl Branch/Commit ID: 942f453603bc1df04cee28d6ac6b3b8b649fda55 |
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rnaseq.cwl
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https://github.com/IFB-ElixirFr/ReproHackathon.git
Path: reprohackathon1/cwl/tools/rnaseq.cwl Branch/Commit ID: 85f24cd377748ada3d64688637e668bcbf75fd97 |
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rnaseq_pipeline_fastq_checker.cwl
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https://github.com/heliumdatacommons/TOPMed_RNAseq_CWL.git
Path: workflow/checker-workflows/rnaseq_pipeline_fastq_checker.cwl Branch/Commit ID: 6f1cbe68f7c8b7ae5d3ed00ac7f912a8265ea50b |
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TOPMed_RNA-seq
TOPMed RNA-seq CWL workflow. Documentation on the workflow can be found [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md). Example input files: [Dockstore.json](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/Dockstore.json) and [rnaseq_pipeline_fastq-example.yml](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/rnaseq_pipeline_fastq-example.yml). Quickstart instructions are [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md#Quick Start). [GitHub Repo](https://github.com/heliumdatacommons/cwl_workflows) Pipeline steps: 1. Align RNA-seq reads with [STAR v2.5.3a](https://github.com/alexdobin/STAR). 2. Run [Picard](https://github.com/broadinstitute/picard) [MarkDuplicates](https://broadinstitute.github.io/picard/command-line-overview.html#MarkDuplicates). 2a. Create BAM index for MarkDuplicates BAM with [Samtools 1.6](https://github.com/samtools/samtools/releases) index. 3. Transcript quantification with [RSEM 1.3.0](https://deweylab.github.io/RSEM/) 4. Gene quantification and quality control with [RNA-SeQC 1.1.9](https://github.com/francois-a/rnaseqc) |
https://github.com/heliumdatacommons/TOPMed_RNAseq_CWL.git
Path: workflow/rnaseq_pipeline_fastq.cwl Branch/Commit ID: adc00cfb4abbeab5b975f28780dc50b7c1f555bd |
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TOPMed_RNA-seq
TOPMed RNA-seq CWL workflow. Documentation on the workflow can be found [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md). Example input files: [Dockstore.json](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/Dockstore.json) and [rnaseq_pipeline_fastq-example.yml](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/input-examples/rnaseq_pipeline_fastq-example.yml). Quickstart instructions are [here](https://github.com/heliumdatacommons/cwl_workflows/blob/master/topmed-workflows/TOPMed_RNAseq_pipeline/README.md#Quick Start). [GitHub Repo](https://github.com/heliumdatacommons/cwl_workflows) Pipeline steps: 1. Align RNA-seq reads with [STAR v2.5.3a](https://github.com/alexdobin/STAR). 2. Run [Picard](https://github.com/broadinstitute/picard) [MarkDuplicates](https://broadinstitute.github.io/picard/command-line-overview.html#MarkDuplicates). 2a. Create BAM index for MarkDuplicates BAM with [Samtools 1.6](https://github.com/samtools/samtools/releases) index. 3. Transcript quantification with [RSEM 1.3.0](https://deweylab.github.io/RSEM/) 4. Gene quantification and quality control with [RNA-SeQC 1.1.9](https://github.com/francois-a/rnaseqc) |
https://github.com/FarahZKhan/cwl_workflows.git
Path: topmed-workflows/TOPMed_RNAseq_pipeline/rnaseq_pipeline_fastq.cwl Branch/Commit ID: 027e8af41b906173aafdb791351fb29efc044120 |
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rnaseq-header.cwl
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https://github.com/datirium/workflows.git
Path: metadata/rnaseq-header.cwl Branch/Commit ID: 7518b100d8cbc80c8be32e9e939dfbb27d6b4361 |
