Version Compatibility

Reference examples tested with: Bowtie2 2.5.3+, Bracken 2.9+, HUMAnN 3.8+, Kraken2 2.1+, MetaPhlAn 4.1+, fastp 0.23+, matplotlib 3.8+, pandas 2.2+, seaborn 0.13+

Before using code patterns, verify installed versions match. If versions differ:

• Python: pip show <package> then help(module.function) to check signatures
• CLI: <tool> --version then <tool> --help to confirm flags

If code throws ImportError, AttributeError, or TypeError, introspect the installed package and adapt the example to match the actual API rather than retrying.

Metagenomics Pipeline

"Analyze my metagenomic samples from FASTQ to taxonomic and functional profiles" → Orchestrate host depletion, Kraken2/Bracken taxonomic classification, MetaPhlAn profiling, HUMAnN3 functional analysis, and AMR gene detection.

Complete workflow from metagenomic FASTQ to taxonomic and functional profiles.

Workflow Overview

FASTQ files
    |
    v
[1. QC & Host Removal] --> fastp + Bowtie2
    |
    v
[2. Taxonomic Classification]
    |
    +---> Kraken2 + Bracken (fast, database-dependent)
    |
    +---> MetaPhlAn (marker-based, standardized)
    |
    v
[3. Functional Profiling] --> HUMAnN
    |
    v
Taxonomic profiles + Pathway abundances

Primary Path: Kraken2 + Bracken + HUMAnN

Step 1: Quality Control and Host Removal

# QC with fastp
for sample in sample1 sample2 sample3; do
    fastp -i ${sample}_R1.fastq.gz -I ${sample}_R2.fastq.gz \
        -o trimmed/${sample}_R1.fq.gz -O trimmed/${sample}_R2.fq.gz \
        --detect_adapter_for_pe \
        --qualified_quality_phred 20 \
        --length_required 50 \
        --html qc/${sample}_fastp.html
done

# Remove host reads (human example)
for sample in sample1 sample2 sample3; do
    bowtie2 -p 8 -x human_index \
        -1 trimmed/${sample}_R1.fq.gz \
        -2 trimmed/${sample}_R2.fq.gz \
        --un-conc-gz host_removed/${sample}_R%.fq.gz \
        > /dev/null 2> qc/${sample}_host_removal.log
done

Step 2A: Kraken2 Classification

# Classify reads
for sample in sample1 sample2 sample3; do
    kraken2 --db kraken2_db \
        --threads 8 \
        --paired \
        --report kraken/${sample}.report \
        --output kraken/${sample}.output \
        host_removed/${sample}_R1.fq.gz \
        host_removed/${sample}_R2.fq.gz
done

Step 2B: Bracken Abundance Estimation

# Estimate species abundance
for sample in sample1 sample2 sample3; do
    bracken -d kraken2_db \
        -i kraken/${sample}.report \
        -o bracken/${sample}.species.txt \
        -r 150 \
        -l S \
        -t 10
done

# Combine samples into abundance matrix
combine_bracken_outputs.py \
    --files bracken/*.species.txt \
    -o bracken/combined_species.txt

Step 2C: Alternative - MetaPhlAn Profiling

# Profile with MetaPhlAn 4
for sample in sample1 sample2 sample3; do
    metaphlan host_removed/${sample}_R1.fq.gz,host_removed/${sample}_R2.fq.gz \
        --bowtie2out metaphlan/${sample}.bowtie2.bz2 \
        --input_type fastq \
        --nproc 8 \
        -o metaphlan/${sample}_profile.txt
done

# Merge profiles
merge_metaphlan_tables.py metaphlan/*_profile.txt > metaphlan/merged_abundance.txt

Step 3: Functional Profiling with HUMAnN

# Run HUMAnN
for sample in sample1 sample2 sample3; do
    # Concatenate paired reads
    cat host_removed/${sample}_R1.fq.gz host_removed/${sample}_R2.fq.gz > \
        host_removed/${sample}_concat.fq.gz

    humann --input host_removed/${sample}_concat.fq.gz \
        --output humann/${sample} \
        --threads 8 \
        --metaphlan-options "--bowtie2db metaphlan_db"
done

# Normalize and join tables
humann_renorm_table --input humann/sample1/sample1_pathabundance.tsv \
    --output humann/sample1/sample1_pathabundance_cpm.tsv \
    --units cpm

humann_join_tables --input humann \
    --output humann/merged_pathabundance.tsv \
    --file_name pathabundance

Visualization

import pandas as pd
import matplotlib.pyplot as plt
import seaborn as sns

# Load Bracken species table
species = pd.read_csv('bracken/combined_species.txt', sep='\t', index_col=0)

# Top 20 species heatmap
top20 = species.sum(axis=1).nlargest(20).index
plt.figure(figsize=(12, 8))
sns.heatmap(species.loc[top20], cmap='viridis', annot=False)
plt.title('Top 20 Species Abundance')
plt.tight_layout()
plt.savefig('top20_species_heatmap.pdf')

# Stacked bar plot
species_norm = species.div(species.sum()) * 100
top10 = species_norm.sum(axis=1).nlargest(10).index
other = species_norm.loc[~species_norm.index.isin(top10)].sum()

plot_data = species_norm.loc[top10].T
plot_data['Other'] = other
plot_data.plot(kind='bar', stacked=True, figsize=(10, 6))
plt.ylabel('Relative Abundance (%)')
plt.legend(bbox_to_anchor=(1.05, 1))
plt.tight_layout()
plt.savefig('species_barplot.pdf')

Parameter Recommendations

Troubleshooting

Complete Pipeline Script

#!/bin/bash
set -e

THREADS=8
KRAKEN_DB="kraken2_standard_db"
HOST_INDEX="human_bt2_index"
SAMPLES="sample1 sample2 sample3"
OUTDIR="metagenomics_results"

mkdir -p ${OUTDIR}/{trimmed,host_removed,kraken,bracken,metaphlan,humann,qc}

# Step 1: QC
echo "=== QC ==="
for sample in $SAMPLES; do
    fastp -i ${sample}_R1.fastq.gz -I ${sample}_R2.fastq.gz \
        -o ${OUTDIR}/trimmed/${sample}_R1.fq.gz \
        -O ${OUTDIR}/trimmed/${sample}_R2.fq.gz \
        --length_required 50 \
        --html ${OUTDIR}/qc/${sample}_fastp.html -w ${THREADS}
done

# Host removal
echo "=== Host Removal ==="
for sample in $SAMPLES; do
    bowtie2 -p ${THREADS} -x ${HOST_INDEX} \
        -1 ${OUTDIR}/trimmed/${sample}_R1.fq.gz \
        -2 ${OUTDIR}/trimmed/${sample}_R2.fq.gz \
        --un-conc-gz ${OUTDIR}/host_removed/${sample}_R%.fq.gz \
        > /dev/null 2> ${OUTDIR}/qc/${sample}_host.log
done

# Step 2: Kraken2
echo "=== Kraken2 ==="
for sample in $SAMPLES; do
    kraken2 --db ${KRAKEN_DB} --threads ${THREADS} --paired \
        --report ${OUTDIR}/kraken/${sample}.report \
        --output ${OUTDIR}/kraken/${sample}.output \
        ${OUTDIR}/host_removed/${sample}_R1.fq.gz \
        ${OUTDIR}/host_removed/${sample}_R2.fq.gz
done

# Bracken
echo "=== Bracken ==="
for sample in $SAMPLES; do
    bracken -d ${KRAKEN_DB} \
        -i ${OUTDIR}/kraken/${sample}.report \
        -o ${OUTDIR}/bracken/${sample}.species.txt \
        -r 150 -l S -t 10
done

echo "=== Pipeline Complete ==="
echo "Kraken reports: ${OUTDIR}/kraken/"
echo "Bracken abundances: ${OUTDIR}/bracken/"

Related Skills

• metagenomics/kraken-classification - Kraken2 details
• metagenomics/metaphlan-profiling - MetaPhlAn parameters
• metagenomics/abundance-estimation - Bracken options
• metagenomics/functional-profiling - HUMAnN workflow
• metagenomics/metagenome-visualization - Plotting functions