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Using DeepTrio for small variant calling from the trio sequenced with PacBio HiFi

In this case study, we describe applying DeepTrio to a real PacBio WGS trio. Then we assess the quality of the DeepTrio variant calls with hap.py. In addition we evaluate a Mendelian violation rate for a merged VCF.

To make it faster to run over this case study, we run only on chromosome 20.

Prepare environment

Tools

Docker will be used to run DeepTrio and hap.py,

Download Reference

We will be using GRCh38 for this case study.

mkdir -p reference

FTPDIR=ftp://ftp.ncbi.nlm.nih.gov/genomes/all/GCA/000/001/405/GCA_000001405.15_GRCh38/seqs_for_alignment_pipelines.ucsc_ids

curl ${FTPDIR}/GCA_000001405.15_GRCh38_no_alt_analysis_set.fna.gz | gunzip > reference/GRCh38_no_alt_analysis_set.fasta
curl ${FTPDIR}/GCA_000001405.15_GRCh38_no_alt_analysis_set.fna.fai > reference/GRCh38_no_alt_analysis_set.fasta.fai

Download Genome in a Bottle Benchmarks

We will benchmark our variant calls against v4.2.1 of the Genome in a Bottle small variant benchmarks for HG002, HG003, and HG004 trio.

mkdir -p benchmark

FTPDIR=ftp://ftp-trace.ncbi.nlm.nih.gov/giab/ftp/release/AshkenazimTrio

curl ${FTPDIR}/HG002_NA24385_son/NISTv4.2.1/GRCh38/HG002_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed > benchmark/HG002_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed
curl ${FTPDIR}/HG002_NA24385_son/NISTv4.2.1/GRCh38/HG002_GRCh38_1_22_v4.2.1_benchmark.vcf.gz > benchmark/HG002_GRCh38_1_22_v4.2.1_benchmark.vcf.gz
curl ${FTPDIR}/HG002_NA24385_son/NISTv4.2.1/GRCh38/HG002_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi > benchmark/HG002_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi

curl ${FTPDIR}/HG003_NA24149_father/NISTv4.2.1/GRCh38/HG003_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed > benchmark/HG003_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed
curl ${FTPDIR}/HG003_NA24149_father/NISTv4.2.1/GRCh38/HG003_GRCh38_1_22_v4.2.1_benchmark.vcf.gz > benchmark/HG003_GRCh38_1_22_v4.2.1_benchmark.vcf.gz
curl ${FTPDIR}/HG003_NA24149_father/NISTv4.2.1/GRCh38/HG003_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi > benchmark/HG003_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi

curl ${FTPDIR}/HG004_NA24143_mother/NISTv4.2.1/GRCh38/HG004_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed > benchmark/HG004_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed
curl ${FTPDIR}/HG004_NA24143_mother/NISTv4.2.1/GRCh38/HG004_GRCh38_1_22_v4.2.1_benchmark.vcf.gz > benchmark/HG004_GRCh38_1_22_v4.2.1_benchmark.vcf.gz
curl ${FTPDIR}/HG004_NA24143_mother/NISTv4.2.1/GRCh38/HG004_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi > benchmark/HG004_GRCh38_1_22_v4.2.1_benchmark.vcf.gz.tbi

Download HG002, HG003, and HG004 BAM files

We'll use HG002, HG003, HG004 PacBio HiFi WGS reads publicly available from the PrecisionFDA Truth v2 Challenge. These reads have been aligned to the GRCh38_no_alt_analysis reference using pbmm2.

mkdir -p input
HTTPDIR=https://storage.googleapis.com/deepvariant/pacbio-case-study-testdata

curl ${HTTPDIR}/HG002.pfda_challenge.grch38.phased.chr20.bam > input/HG002.pfda_challenge.grch38.phased.chr20.bam
curl ${HTTPDIR}/HG002.pfda_challenge.grch38.phased.chr20.bam.bai > input/HG002.pfda_challenge.grch38.phased.chr20.bam.bai

curl ${HTTPDIR}/HG003.pfda_challenge.grch38.phased.chr20.bam > input/HG003.pfda_challenge.grch38.phased.chr20.bam
curl ${HTTPDIR}/HG003.pfda_challenge.grch38.phased.chr20.bam.bai > input/HG003.pfda_challenge.grch38.phased.chr20.bam.bai

curl ${HTTPDIR}/HG004.pfda_challenge.grch38.phased.chr20.bam > input/HG004.pfda_challenge.grch38.phased.chr20.bam
curl ${HTTPDIR}/HG004.pfda_challenge.grch38.phased.chr20.bam.bai > input/HG004.pfda_challenge.grch38.phased.chr20.bam.bai

Running DeepTrio with one command

DeepTrio pipeline consists of 4 steps: make_examples, call_variants, postprocess_variants and GLnexus merge. It is possible to run the first three steps with one command using the run_deeptrio script. GLnexus is run as a separate command.

Running on a CPU-only machine

mkdir -p output
mkdir -p output/intermediate_results_dir

BIN_VERSION="1.3.0"

sudo apt -y update
sudo apt-get -y install docker.io
sudo docker pull google/deepvariant:deeptrio-"${BIN_VERSION}"

time sudo docker run \
  -v "${PWD}/input":"/input" \
  -v "${PWD}/output":"/output" \
  -v "${PWD}/reference":"/reference" \
  google/deepvariant:deeptrio-"${BIN_VERSION}" \
  /opt/deepvariant/bin/deeptrio/run_deeptrio \
  --model_type PACBIO \
  --ref /reference/GRCh38_no_alt_analysis_set.fasta \
  --reads_child /input/HG002.pfda_challenge.grch38.phased.chr20.bam \
  --reads_parent1 /input/HG003.pfda_challenge.grch38.phased.chr20.bam \
  --reads_parent2 /input/HG004.pfda_challenge.grch38.phased.chr20.bam \
  --output_vcf_child /output/HG002.output.vcf.gz \
  --output_vcf_parent1 /output/HG003.output.vcf.gz \
  --output_vcf_parent2 /output/HG004.output.vcf.gz \
  --sample_name_child 'HG002' \
  --sample_name_parent1 'HG003' \
  --sample_name_parent2 'HG004' \
  --num_shards $(nproc) \
  --intermediate_results_dir /output/intermediate_results_dir \
  --output_gvcf_child /output/HG002.g.vcf.gz \
  --output_gvcf_parent1 /output/HG003.g.vcf.gz \
  --output_gvcf_parent2 /output/HG004.g.vcf.gz \
  --regions chr20 \
  --use_hp_information

The --use_hp_information arg makes use of a phased reads, thus allowing a further improvement of the accuracy. In order to use this feature input BAM files have to be phased. For the detailed description on how to do that please see DeepVariant PacBio case study.

By specifying --model_type PACBIO, you'll be using a model that is best suited for PacBio HiFi Whole Genome Sequencing data.

--intermediate_results_dir flag is optional. By specifying it, the intermediate outputs of make_examples and call_variants stages can be found in the directory. After the command, you can find these files in the directory:

call_variants_output_child.tfrecord.gz
call_variants_output_parent1.tfrecord.gz
call_variants_output_parent2.tfrecord.gz

gvcf_child.tfrecord-?????-of-?????.gz
gvcf_parent1.tfrecord-?????-of-?????.gz
gvcf_parent2.tfrecord-?????-of-?????.gz

make_examples_child.tfrecord-?????-of-?????.gz
make_examples_parent1.tfrecord-?????-of-?????.gz
make_examples_parent2.tfrecord-?????-of-?????.gz

For running on GPU machines, or using Singularity instead of Docker, see Quick Start or DeepVariant PacBio case study.

Merge VCFs using GLnexus

At this step we take all 3 VCFs generated in the previous step and merge them using GLnexus.

sudo docker pull quay.io/mlin/glnexus:v1.2.7

# bcftools and bgzip are now included in our docker images.
# You can also install them separately.
sudo docker run \
  -v "${PWD}/output":"/output" \
  quay.io/mlin/glnexus:v1.2.7 \
  /usr/local/bin/glnexus_cli \
  --config DeepVariant_unfiltered \
  /output/HG002.g.vcf.gz \
  /output/HG003.g.vcf.gz \
  /output/HG004.g.vcf.gz \
  | sudo docker run -i google/deepvariant:deeptrio-"${BIN_VERSION}" \
    bcftools view - \
  | sudo docker run -i google/deepvariant:deeptrio-"${BIN_VERSION}" \
    bgzip -c > output/HG002_trio_merged.vcf.gz

After completion of GLnexus command we should have a new merged VCF file in the output directory.

HG002_trio_merged.vcf.gz

Benchmark on chr20

Calculate Mendelian Violation rate

sudo docker pull realtimegenomics/rtg-tools

sudo docker run \
  -v "${PWD}/input":"/input" \
  -v "${PWD}/reference":"/reference" \
  realtimegenomics/rtg-tools format \
  -o /reference/GRCh38_no_alt_analysis_set.sdf "/reference/GRCh38_no_alt_analysis_set.fasta"

FILE="reference/trio.ped"
cat <<EOM >$FILE
#PED format pedigree
#
#fam-id/ind-id/pat-id/mat-id: 0=unknown
#sex: 1=male; 2=female; 0=unknown
#phenotype: -9=missing, 0=missing; 1=unaffected; 2=affected
#
#fam-id ind-id pat-id mat-id sex phen
1 HG002 HG003 HG004 1 0
1 HG003 0 0 1 0
1 HG004 0 0 2 0
EOM

sudo docker run \
-v "${PWD}/input":"/input" \
-v "${PWD}/reference":"/reference" \
-v "${PWD}/output":"/output" \
realtimegenomics/rtg-tools mendelian \
-i "/output/HG002_trio_merged.vcf.gz" \
-o "/output/HG002_trio_annotated.output.vcf.gz" \
--pedigree=/reference/trio.ped \
-t /reference/GRCh38_no_alt_analysis_set.sdf \
| tee output/deepvariant.input_rtg_output.txt

As a result we should get the following output:

Checking: /output/HG002_trio_merged.vcf.gz
Family: [HG003 + HG004] -> [HG002]
175 non-pass records were skipped
Concordance HG002: F:152203/153489 (99.16%)  M:153447/154331 (99.43%)  F+M:148795/151183 (98.42%)
Sample HG002 has less than 99.0 concordance with both parents. Check for incorrect pedigree or sample mislabelling.
0/165025 (0.00%) records did not conform to expected call ploidy
159539/165025 (96.68%) records were variant in at least 1 family member and checked for Mendelian constraints
7726/159539 (4.84%) records had indeterminate consistency status due to incomplete calls
2678/159539 (1.68%) records contained a violation of Mendelian constraints

Benchmark variant calls against 4.2.1 truth set with hap.py

mkdir -p happy

sudo docker pull jmcdani20/hap.py:v0.3.12

sudo docker run \
  -v "${PWD}/benchmark":"/benchmark" \
  -v "${PWD}/input":"/input" \
  -v "${PWD}/output":"/output" \
  -v "${PWD}/reference":"/reference" \
  -v "${PWD}/happy:/happy" \
  jmcdani20/hap.py:v0.3.12 /opt/hap.py/bin/hap.py \
  /benchmark/HG002_GRCh38_1_22_v4.2.1_benchmark.vcf.gz \
  /output/HG002.output.vcf.gz \
  -f /benchmark/HG002_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed \
  -r /reference/GRCh38_no_alt_analysis_set.fasta \
  -o /happy/HG002.output \
  --engine=vcfeval \
  --pass-only \
  -l chr20

sudo docker run \
  -v "${PWD}/benchmark":"/benchmark" \
  -v "${PWD}/input":"/input" \
  -v "${PWD}/output":"/output" \
  -v "${PWD}/reference":"/reference" \
  -v "${PWD}/happy:/happy" \
  jmcdani20/hap.py:v0.3.12 /opt/hap.py/bin/hap.py \
  /benchmark/HG003_GRCh38_1_22_v4.2.1_benchmark.vcf.gz \
  /output/HG003.output.vcf.gz \
  -f /benchmark/HG003_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed \
  -r /reference/GRCh38_no_alt_analysis_set.fasta \
  -o /happy/HG003.output \
  --engine=vcfeval \
  --pass-only \
  -l chr20

sudo docker run \
  -v "${PWD}/benchmark":"/benchmark" \
  -v "${PWD}/input":"/input" \
  -v "${PWD}/output":"/output" \
  -v "${PWD}/reference":"/reference" \
  -v "${PWD}/happy:/happy" \
  jmcdani20/hap.py:v0.3.12 /opt/hap.py/bin/hap.py \
  /benchmark/HG004_GRCh38_1_22_v4.2.1_benchmark.vcf.gz \
  /output/HG004.output.vcf.gz \
  -f /benchmark/HG004_GRCh38_1_22_v4.2.1_benchmark_noinconsistent.bed \
  -r /reference/GRCh38_no_alt_analysis_set.fasta \
  -o /happy/HG004.output \
  --engine=vcfeval \
  --pass-only \
  -l chr20
Benchmarking Summary for HG002:
Type Filter  TRUTH.TOTAL  TRUTH.TP  TRUTH.FN  QUERY.TOTAL  QUERY.FP  QUERY.UNK  FP.gt  FP.al  METRIC.Recall  METRIC.Precision  METRIC.Frac_NA  METRIC.F1_Score  TRUTH.TOTAL.TiTv_ratio  QUERY.TOTAL.TiTv_ratio  TRUTH.TOTAL.het_hom_ratio  QUERY.TOTAL.het_hom_ratio
INDEL    ALL        11256     11233        23        23105        62      11332     15     43       0.997957          0.994734        0.490457         0.996343                     NaN                     NaN                   1.561710                   2.316632
INDEL   PASS        11256     11233        23        23105        62      11332     15     43       0.997957          0.994734        0.490457         0.996343                     NaN                     NaN                   1.561710                   2.316632
  SNP    ALL        71333     71272        61       100735        22      29369     15      7       0.999145          0.999692        0.291547         0.999418                2.314904                1.932428                   1.715978                   2.093416
  SNP   PASS        71333     71272        61       100735        22      29369     15      7       0.999145          0.999692        0.291547         0.999418                2.314904                1.932428                   1.715978                   2.093416

Benchmarking Summary for HG003:
Type Filter  TRUTH.TOTAL  TRUTH.TP  TRUTH.FN  QUERY.TOTAL  QUERY.FP  QUERY.UNK  FP.gt  FP.al  METRIC.Recall  METRIC.Precision  METRIC.Frac_NA  METRIC.F1_Score  TRUTH.TOTAL.TiTv_ratio  QUERY.TOTAL.TiTv_ratio  TRUTH.TOTAL.het_hom_ratio  QUERY.TOTAL.het_hom_ratio
INDEL    ALL        10628     10595        33        23047        54      11901     22     30       0.996895          0.995155        0.516380         0.996024                     NaN                     NaN                   1.748961                   2.557273
INDEL   PASS        10628     10595        33        23047        54      11901     22     30       0.996895          0.995155        0.516380         0.996024                     NaN                     NaN                   1.748961                   2.557273
  SNP    ALL        70166     70144        22        99173        19      28954      9      2       0.999686          0.999729        0.291954         0.999708                2.296566                1.923292                   1.883951                   2.164234
  SNP   PASS        70166     70144        22        99173        19      28954      9      2       0.999686          0.999729        0.291954         0.999708                2.296566                1.923292                   1.883951                   2.164234

Benchmarking Summary for HG004:
Type Filter  TRUTH.TOTAL  TRUTH.TP  TRUTH.FN  QUERY.TOTAL  QUERY.FP  QUERY.UNK  FP.gt  FP.al  METRIC.Recall  METRIC.Precision  METRIC.Frac_NA  METRIC.F1_Score  TRUTH.TOTAL.TiTv_ratio  QUERY.TOTAL.TiTv_ratio  TRUTH.TOTAL.het_hom_ratio  QUERY.TOTAL.het_hom_ratio
INDEL    ALL        11000     10967        33        23397        53      11867     19     33       0.997000          0.995403        0.507202         0.996201                     NaN                     NaN                   1.792709                   2.553655
INDEL   PASS        11000     10967        33        23397        53      11867     19     33       0.997000          0.995403        0.507202         0.996201                     NaN                     NaN                   1.792709                   2.553655
  SNP    ALL        71659     71594        65       100530        38      28814      9     11       0.999093          0.999470        0.286621         0.999281                2.310073                1.949802                   1.878340                   2.053544
  SNP   PASS        71659     71594        65       100530        38      28814      9     11       0.999093          0.999470        0.286621         0.999281                2.310073                1.949802                   1.878340                   2.053544