--- name: bio-small-rna-seq-smrna-preprocessing description: Preprocess small RNA sequencing data with adapter trimming and size selection optimized for miRNA, piRNA, and other small RNAs. Use when preparing small RNA-seq reads for downstream quantification or discovery analysis. tool_type: cli primary_tool: cutadapt measurable_outcome: Execute skill workflow successfully with valid output within 15 minutes. allowed-tools: - read_file - run_shell_command --- # Small RNA Preprocessing ## Adapter Trimming with Cutadapt Small RNA libraries have specific 3' adapters that must be removed: ```bash # Standard Illumina TruSeq small RNA adapter cutadapt \ -a TGGAATTCTCGGGTGCCAAGG \ -m 18 \ -M 30 \ --discard-untrimmed \ -o trimmed.fastq.gz \ input.fastq.gz # -a: 3' adapter sequence # -m 18: Minimum length (miRNAs are 18-25 nt) # -M 30: Maximum length (exclude longer fragments) # --discard-untrimmed: Remove reads without adapter (likely not small RNA) ``` ## Common Small RNA Adapters | Kit | 3' Adapter Sequence | |-----|---------------------| | Illumina TruSeq | TGGAATTCTCGGGTGCCAAGG | | NEBNext | AGATCGGAAGAGCACACGTCT | | QIAseq | AACTGTAGGCACCATCAAT | | Lexogen | TGGAATTCTCGGGTGCCAAGGAACTCCAGTCAC | ## Size Selection ```bash # Filter by length after trimming cutadapt \ -a TGGAATTCTCGGGTGCCAAGG \ -m 18 -M 26 \ -o mirna_length.fastq.gz \ input.fastq.gz # miRNA: 18-26 nt (typically 21-23 nt) # piRNA: 26-32 nt # snoRNA: variable, typically longer ``` ## Quality Trimming ```bash # Trim low-quality bases from 3' end before adapter removal cutadapt \ -q 20 \ -a TGGAATTCTCGGGTGCCAAGG \ -m 18 \ -o trimmed.fastq.gz \ input.fastq.gz ``` ## Using fastp for Small RNA ```bash # fastp with small RNA settings fastp \ --in1 input.fastq.gz \ --out1 trimmed.fastq.gz \ --adapter_sequence TGGAATTCTCGGGTGCCAAGG \ --length_required 18 \ --length_limit 30 \ --html report.html # Note: fastp auto-detects adapters but specifying is more reliable ``` ## Collapse Identical Reads For small RNAs, collapsing identical sequences reduces computation: ```bash # Using seqkit seqkit rmdup -s trimmed.fastq.gz -o collapsed.fasta # Using fastx_toolkit (legacy) fastx_collapser -i trimmed.fastq -o collapsed.fasta ``` ## Python Preprocessing ```python import gzip from collections import Counter def collapse_reads(fastq_path): '''Collapse identical sequences and count occurrences''' counts = Counter() with gzip.open(fastq_path, 'rt') as f: while True: header = f.readline() if not header: break seq = f.readline().strip() f.readline() # + f.readline() # qual # Only keep reads in miRNA size range if 18 <= len(seq) <= 26: counts[seq] += 1 return counts # Write collapsed FASTA def write_collapsed_fasta(counts, output_path): with open(output_path, 'w') as f: for i, (seq, count) in enumerate(counts.most_common()): f.write(f'>seq_{i}_x{count}\n{seq}\n') ``` ## QC Metrics for Small RNA Key metrics to check: - Read length distribution (should peak at 21-23 nt for miRNA) - Adapter content (high if library is good) - Percentage of reads in target size range ```python import matplotlib.pyplot as plt from collections import Counter def plot_length_distribution(fastq_path): lengths = Counter() with gzip.open(fastq_path, 'rt') as f: for i, line in enumerate(f): if i % 4 == 1: # Sequence line lengths[len(line.strip())] += 1 plt.bar(lengths.keys(), lengths.values()) plt.xlabel('Read Length') plt.ylabel('Count') plt.title('Small RNA Length Distribution') plt.savefig('length_dist.png') ``` ## Related Skills - mirdeep2-analysis - Novel miRNA discovery - mirge3-analysis - Fast miRNA quantification - read-qc/adapter-trimming - General adapter trimming