4.7 Article

Benchmarking ultra-high molecular weight DNA preservation methods for long-read and long-range sequencing

Journal

GIGASCIENCE
Volume 11, Issue -, Pages -

Publisher

OXFORD UNIV PRESS
DOI: 10.1093/gigascience/giac068

Keywords

long-read sequencing; genome assembly; tissue preservation; HMW DNA extraction

Funding

  1. Rockefeller University Startup funds
  2. Howard Hughes Medical Institute Funds
  3. Max Planck Institute of Molecular Cell Biology and Genetics
  4. Wellcome Trust
  5. Wellcome [WT207492, 104640/Z/14/Z, 092096/Z/10/Z]
  6. Wellcome Trust [092096/Z/10/Z, 104640/Z/14/Z] Funding Source: Wellcome Trust

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This study compares preservation methods for tissue sampling in vertebrates and finds that storage temperature is the most important factor affecting DNA fragment length. Samples preserved in 95% ethanol or 20-25% DMSO-EDTA at 4 degrees Celsius for 6 hours or 1 week can maintain sufficient DNA integrity and quantity. Tissue type affects total DNA yield, and preservation solution also influences fragment length and DNA yield.
Background Studies in vertebrate genomics require sampling from a broad range of tissue types, taxa, and localities. Recent advancements in long-read and long-range genome sequencing have made it possible to produce high-quality chromosome-level genome assemblies for almost any organism. However, adequate tissue preservation for the requisite ultra-high molecular weight DNA (uHMW DNA) remains a major challenge. Here we present a comparative study of preservation methods for field and laboratory tissue sampling, across vertebrate classes and different tissue types. Results We find that storage temperature was the strongest predictor of uHMW fragment lengths. While immediate flash-freezing remains the sample preservation gold standard, samples preserved in 95% EtOH or 20-25% DMSO-EDTA showed little fragment length degradation when stored at 4 degrees C for 6 hours. Samples in 95% EtOH or 20-25% DMSO-EDTA kept at 4 degrees C for 1 week after dissection still yielded adequate amounts of uHMW DNA for most applications. Tissue type was a significant predictor of total DNA yield but not fragment length. Preservation solution had a smaller but significant influence on both fragment length and DNA yield. Conclusion We provide sample preservation guidelines that ensure sufficient DNA integrity and amount required for use with long-read and long-range sequencing technologies across vertebrates. Our best practices generated the uHMW DNA needed for the high-quality reference genomes for phase 1 of the Vertebrate Genomes Project, whose ultimate mission is to generate chromosome-level reference genome assemblies of all similar to 70,000 extant vertebrate species.

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