Library fragment size distribution is shifted from expected range, with either smaller or larger inserts than intended, or discrepancy between fragment analyzer measurement and sequencer-determined insert size.
Common Causes
1PCR size bias: short fragments amplify more efficiently than long ones during PCR
2FFPE DNA crosslinking inhibits amplification of longer PCR products (crosslinks cannot be reversed)
3Incorrect size selection ratios or bead volumes used, or sample volume inaccurate due to evaporation
4Sample not in correct reagent/buffer specified in previous protocol step before size selection
5Clustering bias during sequencing: short fragments cluster more efficiently than long ones
Solutions
1If sufficient input material available, perform size selection after ligation to narrow input size range; reduce PCR cycles
2For FFPE samples: use less fragmentation before library prep to shift library towards longer inserts (crosslinks cannot be reversed)
3Ensure sample is in correct reagent/buffer from previous step; use accurate volumes; top off evaporated samples with water to expected volume
4For discrepancy between analyzer and sequencer: perform more stringent size selection (gel cut or Pippin Prep) to remove short fragments
5Note: Additional size selection may result in lower library yields but increased average insert size