#!/bin/bash set -e # ============================================================================= # Task 21: Phage Genome Characterization # # DAG (depth 5, fan-out from assembly): # # L0: reads # L1: fastp (trim) # L2: shovill (assemble) # ├────────────────────────────────────────┐ # L3: pharokka (phage annotation) checkv (quality) # │ │ # L4: functional summary completeness report # │ │ # ├── abricate VFDB (virulence) │ # └────────────────────────────────────────┘ # L5: MERGE # ============================================================================= THREADS=$(( $(nproc) > 8 ? 8 : $(nproc) )) SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)" DATA="${SCRIPT_DIR}/data" REF="${SCRIPT_DIR}/reference" OUT="${SCRIPT_DIR}/outputs" RES="${SCRIPT_DIR}/results" PHAROKKA_DB="/pscratch/sd/l/lingzhi/pharokka_db" CHECKV_DB="/pscratch/sd/l/lingzhi/checkv_db/checkv-db-v1.5" log_step() { echo "==================================================================" echo "STEP: $1" echo "$(date)" echo "==================================================================" } mkdir -p "${OUT}"/{trimmed,assembly,pharokka,checkv,vfdb} "${RES}" # =========================================================================== # L1: Trimming # =========================================================================== log_step "L1: fastp" if [ ! -f "${OUT}/trimmed/R1.fastq.gz" ]; then fastp --in1 "${DATA}/reads_R1.fastq.gz" --in2 "${DATA}/reads_R2.fastq.gz" \ --out1 "${OUT}/trimmed/R1.fastq.gz" --out2 "${OUT}/trimmed/R2.fastq.gz" \ --detect_adapter_for_pe --thread ${THREADS} \ --json "${OUT}/trimmed/fastp.json" else echo "Skipping (exists)"; fi # =========================================================================== # L2: Assembly # =========================================================================== log_step "L2: MEGAHIT assembly" if [ ! -f "${OUT}/assembly/final.contigs.fa" ]; then megahit -1 "${OUT}/trimmed/R1.fastq.gz" -2 "${OUT}/trimmed/R2.fastq.gz" \ -o "${OUT}/assembly" -t ${THREADS} --min-contig-len 500 else echo "Skipping (exists)"; fi CONTIGS="${OUT}/assembly/final.contigs.fa" # =========================================================================== # L3-A: Pharokka phage-specific annotation # =========================================================================== log_step "L3-A: pharokka annotation" if [ ! -f "${OUT}/pharokka/pharokka_final.gff" ]; then pharokka.py -i "${CONTIGS}" -o "${OUT}/pharokka" \ -d "${PHAROKKA_DB}" -t ${THREADS} --force 2>&1 || { echo "WARNING: pharokka failed, falling back to prokka --kingdom Viruses" prokka "${CONTIGS}" --outdir "${OUT}/pharokka" --prefix pharokka_final \ --cpus ${THREADS} --kingdom Viruses --force 2>&1 || true } else echo "Skipping (exists)"; fi # =========================================================================== # L3-B: CheckV quality assessment # =========================================================================== log_step "L3-B: checkv quality" if [ ! -f "${OUT}/checkv/quality_summary.tsv" ]; then if [ -d "${CHECKV_DB}" ]; then checkv end_to_end "${CONTIGS}" "${OUT}/checkv" -d "${CHECKV_DB}" -t ${THREADS} 2>&1 || true else echo "WARNING: CheckV database not found" mkdir -p "${OUT}/checkv" touch "${OUT}/checkv/quality_summary.tsv" fi else echo "Skipping (exists)"; fi # =========================================================================== # L3-C: Virulence factor detection # =========================================================================== log_step "L3-C: abricate VFDB" if [ ! -f "${OUT}/vfdb/vfdb_results.tsv" ]; then abricate "${CONTIGS}" --db vfdb --minid 80 --mincov 60 > "${OUT}/vfdb/vfdb_results.tsv" 2>/dev/null || true else echo "Skipping (exists)"; fi # =========================================================================== # L4: Parse results # =========================================================================== log_step "L4: Parse annotation results" # Pharokka stats PHAROKKA_GFF="${OUT}/pharokka/pharokka.gff" if [ -f "${PHAROKKA_GFF}" ]; then CDS=$(grep -c "CDS" "${PHAROKKA_GFF}" 2>/dev/null || echo "0") TRNA=$(grep -c "tRNA" "${OUT}/pharokka/pharokka_aragorn.gff" 2>/dev/null || true) TRNA=${TRNA:-0} # Count functional categories from pharokka GFF product annotations LYSIS=$(grep -ic "lysis\|holin\|endolysin\|spanin\|lysozyme" "${PHAROKKA_GFF}" 2>/dev/null || echo "0") LYSOGENY=$(grep -ic "integrase\|repressor\|lysogeny\|excisionase" "${PHAROKKA_GFF}" 2>/dev/null || echo "0") REPLICATION=$(grep -ic "helicase\|primase\|polymerase\|replication\|SSB" "${PHAROKKA_GFF}" 2>/dev/null || echo "0") STRUCTURAL=$(grep -ic "capsid\|tail\|baseplate\|head\|portal\|sheath\|fiber" "${PHAROKKA_GFF}" 2>/dev/null || echo "0") # Get top MASH hit for taxonomy TAXONOMY=$(tail -1 "${OUT}/pharokka/pharokka_top_hits_mash_inphared.tsv" 2>/dev/null | cut -f6 || echo "Unknown") else CDS=0; TRNA=0; LYSIS=0; LYSOGENY=0; REPLICATION=0; STRUCTURAL=0; TAXONOMY="Unknown" fi # CheckV stats if [ -s "${OUT}/checkv/quality_summary.tsv" ]; then QUALITY=$(tail -1 "${OUT}/checkv/quality_summary.tsv" | cut -f8 || echo "N/A") COMPLETENESS=$(tail -1 "${OUT}/checkv/quality_summary.tsv" | cut -f10 || echo "N/A") CONTAMINATION=$(tail -1 "${OUT}/checkv/quality_summary.tsv" | cut -f12 || echo "N/A") else QUALITY="N/A"; COMPLETENESS="N/A"; CONTAMINATION="N/A" fi # Assembly stats NUM_CONTIGS=$(grep -c ">" "${CONTIGS}" || echo "0") TOTAL_LEN=$(awk '/^>/{if(l)print l; l=0; next}{l+=length}END{print l}' "${CONTIGS}" || echo "0") GC=$(awk '/^>/{next}{s+=length; gc+=gsub(/[GCgc]/,"&")}END{printf "%.2f",gc/s*100}' "${CONTIGS}" || echo "0") # Virulence VF_COUNT=$(tail -n +2 "${OUT}/vfdb/vfdb_results.tsv" 2>/dev/null | wc -l | tr -d ' ' || echo "0") # =========================================================================== # L5: MERGE # =========================================================================== log_step "L5-MERGE" cat > "${RES}/phage_report.csv" << CSVEOF metric,value genome_length,${TOTAL_LEN} num_contigs,${NUM_CONTIGS} gc_content,${GC} closest_hit,${TAXONOMY} cds_count,${CDS} trna_count,${TRNA} lysis_genes,${LYSIS} lysogeny_genes,${LYSOGENY} replication_genes,${REPLICATION} structural_genes,${STRUCTURAL} checkv_quality,${QUALITY} checkv_completeness,${COMPLETENESS} virulence_factors,${VF_COUNT} CSVEOF echo "" echo "=== Pipeline complete ===" cat "${RES}/phage_report.csv" echo "" ls -lh "${RES}/"