Identification of the binding sites of the T-cell acute lymphocytic leukemia protein 1 (TAL1)

epigenetics-tal1-binding-site-identification/tal1-binding-site-identification-workflow

Author(s)

Version
5
Last updated
Oct 6, 2020
License
None Specified, defaults to CC-BY-4.0
Tags
epigenetics

Features
Tutorial
Identification of the binding sites of the T-cell acute lymphocytic leukemia protein 1 (TAL1)
Workflow Testing
Tests: ✅
Results: Not yet automated
FAIRness PURL
https://gxy.io/GTN:W00071
RO-Crate logo with flask Download Workflow RO-Crate Workflowhub cloud with gears logo View on WorkflowHub
Launch in Tutorial Mode
Download 
flowchart TD
  0["ℹ️ Input Dataset\nG1E_input_R1_downsampled_SRR507859.fastqsanger"];
  style 0 stroke:#2c3143,stroke-width:4px;
  1["ℹ️ Input Dataset\nG1E_input_R2_downsampled_SRR507860.fastqsanger"];
  style 1 stroke:#2c3143,stroke-width:4px;
  2["ℹ️ Input Dataset\nG1E_Tal1_R1_downsampled_SRR492444.fastqsanger"];
  style 2 stroke:#2c3143,stroke-width:4px;
  3["ℹ️ Input Dataset\nG1E_Tal1_R2_downsampled_SRR492445.fastqsanger"];
  style 3 stroke:#2c3143,stroke-width:4px;
  4["ℹ️ Input Dataset\nMegakaryocyte_input_R1_downsampled_SRR492453.fastqsanger"];
  style 4 stroke:#2c3143,stroke-width:4px;
  5["ℹ️ Input Dataset\nMegakaryocyte_input_R2_downsampled_SRR492454.fastqsanger"];
  style 5 stroke:#2c3143,stroke-width:4px;
  6["ℹ️ Input Dataset\nMegakaryocyte_Tal1_R1_downsampled_SRR549006.fastqsanger"];
  style 6 stroke:#2c3143,stroke-width:4px;
  7["ℹ️ Input Dataset\nMegakaryocytes_Tal1_R2_downsampled_SRR549007.fastqsanger"];
  style 7 stroke:#2c3143,stroke-width:4px;
  8["ℹ️ Input Dataset\nRefSeq_gene_annotations_mm10.bed"];
  style 8 stroke:#2c3143,stroke-width:4px;
  9["FastQC"];
  0 -->|output| 9;
  10["Trimmomatic"];
  0 -->|output| 10;
  11["FastQC"];
  1 -->|output| 11;
  12["Trimmomatic"];
  1 -->|output| 12;
  13["FastQC"];
  2 -->|output| 13;
  14["Trimmomatic"];
  2 -->|output| 14;
  15["FastQC"];
  3 -->|output| 15;
  16["Trimmomatic"];
  3 -->|output| 16;
  17["FastQC"];
  4 -->|output| 17;
  18["Trimmomatic"];
  4 -->|output| 18;
  19["FastQC"];
  5 -->|output| 19;
  20["Trimmomatic"];
  5 -->|output| 20;
  21["FastQC"];
  6 -->|output| 21;
  22["Trimmomatic"];
  6 -->|output| 22;
  23["FastQC"];
  7 -->|output| 23;
  24["Trimmomatic"];
  7 -->|output| 24;
  25["FastQC"];
  10 -->|fastq_out| 25;
  26["Map with BWA"];
  10 -->|fastq_out| 26;
  27["FastQC"];
  12 -->|fastq_out| 27;
  28["Map with BWA"];
  12 -->|fastq_out| 28;
  29["FastQC"];
  14 -->|fastq_out| 29;
  30["Map with BWA"];
  14 -->|fastq_out| 30;
  31["FastQC"];
  16 -->|fastq_out| 31;
  32["Map with BWA"];
  16 -->|fastq_out| 32;
  33["FastQC"];
  18 -->|fastq_out| 33;
  34["Map with BWA"];
  18 -->|fastq_out| 34;
  35["FastQC"];
  20 -->|fastq_out| 35;
  36["Map with BWA"];
  20 -->|fastq_out| 36;
  37["FastQC"];
  22 -->|fastq_out| 37;
  38["Map with BWA"];
  22 -->|fastq_out| 38;
  39["FastQC"];
  24 -->|fastq_out| 39;
  40["Map with BWA"];
  24 -->|fastq_out| 40;
  41["Samtools idxstats"];
  26 -->|bam_output| 41;
  42["Samtools idxstats"];
  28 -->|bam_output| 42;
  43["Samtools idxstats"];
  30 -->|bam_output| 43;
  44["bamCompare"];
  30 -->|bam_output| 44;
  26 -->|bam_output| 44;
  45["Samtools idxstats"];
  32 -->|bam_output| 45;
  46["plotFingerprint"];
  26 -->|bam_output| 46;
  28 -->|bam_output| 46;
  30 -->|bam_output| 46;
  32 -->|bam_output| 46;
  47["MACS2 callpeak"];
  26 -->|bam_output| 47;
  28 -->|bam_output| 47;
  30 -->|bam_output| 47;
  32 -->|bam_output| 47;
  48["bamCompare"];
  32 -->|bam_output| 48;
  28 -->|bam_output| 48;
  49["Samtools idxstats"];
  34 -->|bam_output| 49;
  50["Samtools idxstats"];
  36 -->|bam_output| 50;
  51["Samtools idxstats"];
  38 -->|bam_output| 51;
  52["bamCompare"];
  38 -->|bam_output| 52;
  34 -->|bam_output| 52;
  53["Samtools idxstats"];
  40 -->|bam_output| 53;
  54["multiBamSummary"];
  26 -->|bam_output| 54;
  28 -->|bam_output| 54;
  30 -->|bam_output| 54;
  32 -->|bam_output| 54;
  34 -->|bam_output| 54;
  36 -->|bam_output| 54;
  38 -->|bam_output| 54;
  40 -->|bam_output| 54;
  55["plotFingerprint"];
  34 -->|bam_output| 55;
  36 -->|bam_output| 55;
  38 -->|bam_output| 55;
  40 -->|bam_output| 55;
  56["MACS2 callpeak"];
  34 -->|bam_output| 56;
  36 -->|bam_output| 56;
  38 -->|bam_output| 56;
  40 -->|bam_output| 56;
  57["bamCompare"];
  40 -->|bam_output| 57;
  36 -->|bam_output| 57;
  58["computeMatrix"];
  44 -->|outFileName| 58;
  48 -->|outFileName| 58;
  47 -->|output_narrowpeaks| 58;
  59["plotCorrelation"];
  54 -->|outFile| 59;
  60["bedtools Intersect intervals"];
  47 -->|output_narrowpeaks| 60;
  56 -->|output_narrowpeaks| 60;
  0860c485-de8f-4567-aac8-076a97e72e0b["Output\noutput_overlapping_peaks"];
  60 --> 0860c485-de8f-4567-aac8-076a97e72e0b;
  style 0860c485-de8f-4567-aac8-076a97e72e0b stroke:#2c3143,stroke-width:4px;
  61["bedtools Intersect intervals"];
  47 -->|output_narrowpeaks| 61;
  56 -->|output_narrowpeaks| 61;
  5d82db54-6179-48a7-a501-f5f01b356e15["Output\noutput_g1e_peaks"];
  61 --> 5d82db54-6179-48a7-a501-f5f01b356e15;
  style 5d82db54-6179-48a7-a501-f5f01b356e15 stroke:#2c3143,stroke-width:4px;
  62["bedtools Intersect intervals"];
  56 -->|output_narrowpeaks| 62;
  47 -->|output_narrowpeaks| 62;
  fa94b01e-01d3-4243-980c-6e99f5917e62["Output\noutput_megakaryocyte_peaks"];
  62 --> fa94b01e-01d3-4243-980c-6e99f5917e62;
  style fa94b01e-01d3-4243-980c-6e99f5917e62 stroke:#2c3143,stroke-width:4px;
  63["computeMatrix"];
  52 -->|outFileName| 63;
  57 -->|outFileName| 63;
  56 -->|output_narrowpeaks| 63;
  64["plotHeatmap"];
  58 -->|outFileName| 64;
  65["plotHeatmap"];
  63 -->|outFileName| 65;

To use these workflows in Galaxy you can either click the links to download the workflows, or you can right-click and copy the link to the workflow which can be used in the Galaxy form to import workflows.

Importing into Galaxy

Below are the instructions for importing these workflows directly into your Galaxy server of choice to start using them!
Hands-on: Importing a workflow
  • Click on Workflow on the top menu bar of Galaxy. You will see a list of all your workflows.
  • Click on Import at the top-right of the screen
  • Provide your workflow
    • Option 1: Paste the URL of the workflow into the box labelled “Archived Workflow URL”
    • Option 2: Upload the workflow file in the box labelled “Archived Workflow File”
  • Click the Import workflow button

Below is a short video demonstrating how to import a workflow from GitHub using this procedure:

Video: Importing a workflow from URL

Version History

Version Commit Time Comments
5 818f00219 2020-10-06 20:46:16 Fixed JSON format.
4 473da245d 2020-10-06 20:22:32 Updated outputs in workflow and test.yml.
3 3bee4c537 2020-10-06 19:28:34 Updated inputs in workflow and test.yml.
2 e9f2fa109 2020-10-06 10:48:12 Updated workflow with tags.
1 7fe3ca36a 2020-10-05 19:06:49 Added workflow.

For Admins

Installing the workflow tools

wget https://training.galaxyproject.org/training-material/topics/epigenetics/tutorials/tal1-binding-site-identification/workflows/tal1-binding-site-identification-workflow.ga -O workflow.ga
workflow-to-tools -w workflow.ga -o tools.yaml
shed-tools install -g GALAXY -a API_KEY -t tools.yaml
workflow-install -g GALAXY -a API_KEY -w workflow.ga --publish-workflows