Identify Rare Disease Causing Mutations in Family of Four (WGS)

This workflow has been deprecated and will be retired in a future version of the software. It has been moved to the Legacy Workflows (Image legacy_wf_folder_closed_16_n_p) folder of the Toolbox, and its name has "(legacy)" appended to it. If you have concerns about the future retirement of this workflow, please contact QIAGEN Bioinformatics Support team at ts-bioinformatics@qiagen.com.

You can use the Identify Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) template workflow to identify de novo and compound heterozygous variants from an extended family of four, where the fourth individual is not affected.

Run the Identify Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) workflow

To run the Identify Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) workflow, go to:

        Toolbox | Template Workflows | Legacy Workflows (Image legacy_wf_folder_closed_16_n_p) | Identify Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) (Image rare_disease_muta_four_wgs_legacy_16_n_p)

  1. Double-click on the Identify Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) workflow to start the analysis. If you are connected to a server, you will first be asked where you would like to run the analysis.

  2. The trimmed sequencing reads from the different family members are specified one at a time in successive dialogs (figure 27.23).

    Image reads_ird4_wgs
    Figure 27.9: Specify the trimmed sequencing reads for the appropriate family member.

  3. Select which reference data set should be used to identify causal inherited variants (figure 27.24).

    Image identify_raredisease_variants_wgs
    Figure 27.10: Choose the relevant reference Data Set to identify causal inherited variants.

  4. Specify the Hapmap populations that should be used for filtering out variants found in Hapmap for each family member successively, with de novo and recessive being the proband variants (figure 27.25).

    Image removehapmap_ird4wgs
    Figure 27.11: Select the relevant Hapmap population(s).

  5. Similarly, specify the parameters for the Fixed Ploidy Variant Detection tool for each family member successively (figure 27.26).

    The parameters used by the Fixed Ploidy Variant Detection tool can be adjusted. We have optimized the parameters to the individual analyses, but you may want to tweak some of the parameters to fit your particular sequencing data. A good starting point could be to run an analysis with the default settings.

    Image fp_settings_ird4_wgs
    Figure 27.12: Specify the parameters for the Fixed Ploidy Variant Detection tool.

    The parameters that can be set are:

    • Required variant probability is the minimum probability value of the 'variant site' required for the variant to be called. Note that it is not the minimum value of the probability of the individual variant. For the Fixed Ploidy Variant detector, if a variant site - and not the variant itself - passes the variant probability threshold, then the variant with the highest probability at that site will be reported even if the probability of that particular variant might be less than the threshold. For example if the required variant probability is set to 0.9 then the individual probability of the variant called might be less than 0.9 as long as the probability of the entire variant site is greater than 0.9.
    • Ignore broken pairs: When ticked, reads from broken pairs are ignored. Broken pairs may arise for a number of reasons, one being erroneous mapping of the reads. In general, variants based on broken pair reads are likely to be less reliable, so ignoring them may reduce the number of spurious variants called. However, broken pairs may also arise for biological reasons (e.g. due to structural variants) and if they are ignored some true variants may go undetected. Please note that ignored broken pair reads will not be considered for any non-specific match filters.
    • Minimum coverage: Only variants in regions covered by at least this many reads are called.
    • Minimum count: Only variants that are present in at least this many reads are called.
    • Minimum frequency: Only variants that are present at least at the specified frequency (calculated as 'count'/'coverage') are called.

  6. Specify the affected sibling's gender (figure 27.27)

    Image gender_ird4_wgs
    Figure 27.13: Specify the proband's gender.

  7. In the last wizard step you can check the selected settings by clicking on the button labeled Preview All Parameters. In the Preview All Parameters wizard you can only check the settings, and if you wish to make changes you have to use the Previous button from the wizard to edit parameters in the relevant windows.

  8. Choose to Save your results and click on the button labeled Finish.

Output from the Rare Disease Causing Mutations in a Family of Four (WGS) (legacy) workflow

The following outputs are generated: