Bookedited by Maria E. Gracheva.
Contents:
Detecting and characterizing individual molecules with single nanopores
Protein sensing with engineered protein nanopores
Measurements of DNA immobilized in the alpha-hemolysin nanopore
DNA unzipping and protein unfolding using nanopores
DNA characterization with ion beam-sculpted silicon nitride nanopores
DNA sequencing by nanopore-induced photon emission
Optical tweezers for mechanical control over DNA in a nanopore
Analyzing single DNA molecules by nanopore translocation
DNA characterization by transverse electrical current in a nanochannel
Optimization of the molecular dynamics method for simulations of DNA and ion transport through biological nanopores
Polymer translocation through an electrically tunable nanopore in a multilayered semiconductor membrane
Graphene nanopore devices for DNA sensing
Measuring single-wall carbon nanotubes with solid-state nanopores
Passive and electrically actuated solid-state nanopores for sensing and manipulating DNA.