Login / Signup

Capture and elongation of single chromosomal DNA molecules using optically driven microchopsticks.

Ryo InukaiHidekuni TakaoFusao ShimokawaKyohei Terao
Published in: Biomicrofluidics (2020)
DNA analysis based on the observation of single DNA molecules has been a key technology in molecular biology. Several techniques for manipulating single DNA molecules have been proposed for this purpose; however, these techniques have limits on the manipulatable DNA. To overcome this, we demonstrate a method of DNA manipulation using microstructures captured by optical tweezers that allow the manipulation of a chromosomal DNA molecule. For proper DNA handling, we developed microstructures analogous to chopsticks to capture and elongate single DNA molecules under an optical microscope. Two microstructures (i.e., microchopsticks) were captured by two focused laser beams to pinch a single yeast chromosomal DNA molecule between them and thereby manipulate it. The experiments demonstrated successful DNA manipulation and revealed that the size and geometry of the microchopsticks are important factors for effective DNA handling. This technique allows a high degree of freedom in handling single DNA molecules, potentially leading to applications in the study of chromosomal DNA.
Keyphrases
  • circulating tumor
  • cell free
  • single molecule
  • nucleic acid
  • high resolution
  • single cell
  • saccharomyces cerevisiae
  • cell wall