Sequencing by Expansion (SBX) – a novel, high-throughput single-molecule sequencing technology

  1. Mark Kokoris
  2. Robert McRuer
  3. Melud Nabavi
  4. Aaron Jacobs
  5. Marc Prindle
  6. Cynthia Cech
  7. Kendall Berg
  8. Taylor Lehmann
  9. Cara Machacek
  10. John Tabone
  11. Jagadeeswaran Chandrasekar
  12. Lacey McGee
  13. Matthew Lopez
  14. Tommy Reid
  15. Cara Williams
  16. Salka Barrett
  17. Alex Lehmann
  18. Michael Kovarik
  19. Robert Busam
  20. Scott Miller
  21. Brent Banasik
  22. Brittany Kesic
  23. Anasha Arryman
  24. Megan Rogers-Peckham
  25. Alan Kimura
  26. Megan LeProwse
  27. Mitchell Wolfin
  28. Svetlana Kritzer
  29. Joanne Leadbetter
  30. Majid Babazadeh
  31. John Chase
  32. Greg Thiessen
  33. William Lint
  34. Drew Goodman
  35. Dylan O’Connell
  36. Nadya Lumanpauw
  37. John Hoffman
  38. Samantha Vellucci
  39. Kendra Collins
  40. Jessica Vellucci
  41. Amy Taylor
  42. Molly Murphy
  43. Michael Lee
  44. Matthew Corning
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Abstract

Remarkable advances in high-throughput sequencing have enabled major biological discoveries and clinical applications, but achieving wider distribution and use depends critically on further improvements in scale and cost reduction. Nanopore sequencing has long held the promise for such progress, but has had limited market penetration. This is because efficient and accurate nanopore sequencing of nucleic acids has been challenged by fundamental signal-to-noise limitations resulting from the poor spatial resolution and molecular distinction of nucleobases. Here, we describe Sequencing by Expansion (SBX), a single-molecule sequencing technology that overcomes these limitations by using a biochemical conversion process to encode the sequence of a target nucleic acid molecule into an Xpandomer, a highly measurable surrogate polymer. Expanding over 50 times longer than the parent DNA templates, Xpandomers are engineered with high signal-to-noise reporter codes to enable facile, high-accuracy nanopore sequencing. We demonstrate the performance of SBX and present the specialized molecular structures, chemistries, enzymes and methods that enable it. The innovative molecular and systems engineering in SBX create a transformative technology to address the needs of existing and emerging sequencing applications.

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