After running source install.sh, the executable versions of the example programs are located in bazel-bin/nucleus/examples/. For example, to run ascii_pileup, you would actually run a command like

bazel-bin/nucleus/examples/ascii_pileup input.sam chr3:99393

If you would like to rebuild just the example programs -- after modifying one of them, perhaps -- this can be done with

bazel build -c opt $BAZEL_FLAGS nucleus/examples:all

Here is a summary of the example programs included with Nucleus:

• add_ad_to_vcf input.vcf output.vcf

  If input.vcf is a VCF file in which the variant calls have allele depths (in their 'AD' FORMAT fields), then output.vcf will be the same but with the allele depths summed into the 'AD' INFO field of the variants. This program is a good example of writing out a file with a modified header, as well as demonstrating the variant_utils and variantcall_utils routines for setting and getting INFO and FORMAT information.

• ascii_pileup input.sam chrX:3029

  This will print the reads from input.sam that overlap with the given location. The location is highlighted in each read and the reads are sorted and visually aligned by location, so the end result is surprisingly pretty, particularly if you have a wide monitor. Demonstrates the SAM reader and using range queries.

• count_variants input.vcf

  Prints the number of variants in input.vcf, broken down by type (ref/SNP/indel) and by chromosome. If you want to just read in a VCF file and print out some information about it, this is a good one to copy.

• filter_vcf input.vcf output.vcf

  output.vcf will contain all of the variants in input.vcf that have a quality score greater than 3.01. This is the example program used in the overview.

• dna_sequencing_error_correction.ipynb

  This tutorial shows how Nucleus can be used alongside TensorFlow to apply machine learning to problems in genomics. It can be run on Colaboratory, a free hosted Jupyter notebook environment.

  The context for this tutorial is that there are errors in the next generation sequencing reads, and we can formulate the error correction as a pattern recogition problem which then can be solved using deep learning.

  In this example, you can see how different readers and writers of Nucleus are used together to parse genomics data from 3 different formats (VCF, Fasta and BAM), and then to construct features and labels to be fed into Tensorflow's tf.layers and tf.Estimators APIs.

  This is the longest example, but it really displays the power of Nucleus in taking genomics data and turning it into machine learning inputs.

  The accompanying blog post can be found here.

• validate_vcf ref.fasta input.vcf

  This will print a warning if the input FASTA reference file and the input VCF file are mismatched, which can happen if a) they mention a different set of contigs, b) the VCF files contains variants not covered by the reference, c) the VCF file contains a variant covered by the reference, but the VCF and FASTA file disagree about the correct reference bases for the range. This program shows how to use the IndexedFastaReader, and to query it using ranges taken from a VCF file.