Biomedical Engineering Reference
In-Depth Information
28. Clarke J, Wu HC, Jayasinghe L, Patel1 A, Reid S, Bayley H (2009) Continuous base identifi-
cation for single-molecule nanopore DNA sequencing Nature Nanotechnology 4: 265-270.
29. Drmanac R, Drmanac S, Labat I, Crkvenjakov R, Vicentric A, Gemmell A (1992) Sequencing
by hybridization: towards an automated sequencing of one million M13 clones arrayed on
membranes. Electrophoresis 13: 566-573.
30. Southern EM (1996) DNA chips: analyzing sequence by hybridization to oligonucleotides on a
large scale Trends Genet. 12(3): 110-115.
31. Fologea D, Uplinger J, Thomas B, McNabb DS, Li J (2005) Slowing DNA Translocation in a
Solid-State Nanopore Nano Lett. 5: 1734-1737.
32. Bustamante C, Bryant Z, Smith SB (2003) Ten years of tension: single-molecule DNA
mechanics. Nature 421: 423-427.
33. Yildiz A, Tomishige M, Gennerich A, Vale RD (2007) Intramolecular Strain Coordinates
Kinesin Stepping Behavior along Microtubules. Cell 134: 1030-1041.
34. Keyser UF, Koeleman BN, van Dorp S et al. (2006) Direct force measurements on DNA in a
solid-state nanopore. Nat Phys 2: 473-477.
35. Trepagnier EH, Radenovic A, Sivak D et al. (2007) Controlling DNA capture and propagation
through artificial nanopore. Nano Letts 7: 2824-2830.
36. Dekker C (2007) Solid-state nanopore. Nat Nanotech 2: 209-215.
37. Luan B, Aksimentiev A (2008) Electroosmotic screening of the DNA charge in a nanopore.
Phys Rev E78: 021912-021915.
38. van Dorp S, Keyser UF, Dekker NH, Dekker C, Lemay SG (2009) Origin of the electrophoretic
force on DNA in solid-state nanopores. Nat Phys 5: 347-351.
39. Luan B, Aksimentiev A (2010) Control and reversal of the Electrophoretic force on DNA in a
charged nanopore. J Phys Condens Matter 22: 44123.
40. Liu H, He J, Tang J et al. (2010) Translocation of Single-Stranded DNA Through Single-
Walled Carbon Nanotubes. Science 327: 64-67.
41. Peng HB, Ling XS (2009) Reverse DNA translocation through a solid-state nanopore by
magnetic tweezers. Nanotechnology 20: 185101.
42. Fan R, Karnik R, Yue M, Li D, Majumdar A, Yang P (2005) DNA Translocation in Inorganic
Nanotubes Nano Lett. 5: 1633-1637.
43. Smeets RMM, Keyser UF, Krapf D, Wu MY, Dekker NH, Dekker C (2006) Salt dependence of
ion transport and DNA translocation through solid-state nanopores Nano Lett. 6: 89-95.
44. Chang H, Venkatesan BM, Iqbal SM, Andreadakis G, Kosari F, Vasmatzis G, Peroulis D,
Bashir R (2006) DNA counterion current and saturation examined by a MEMS-based solid
state nanopore sensor Biomed Microdevices 8: 263-269.
45. Polonsky S, Rossnagel S and Stolovitzky G (2007) Nanopore in metal-dielectric sandwich for
DNA position control Appl. Phys. Lett. 91: 153103.
46. Luan B, Peng H, Polonsky S, Rossnagel S, Stolovitzky G, Martyna G (2010) Base-By-Base
Ratcheting of Single Stranded DNA through a Solid-State Nanopore Phys. Rev. Lett. 104:
238103.
47. John Eid et al. (2009) Real-Time DNA Sequencing from Single Polymerase Molecules.
Science 323: 133.
48. Radoje Drmanac et al. (2010) Human Genome Sequencing Using Unchained Base Reads on
Self-Assembling DNA Nanoarrays. Science 327: 78.
49. Service RF (2006) Science. 311: 1544-1546.
50. Fred Sanger (2001) The early days of DNA sequences, Nature Medicine 7: 267.
51. Gerstein MB, Bruce C, Rozowsky JS, Zheng D, Du J, Korbel JO, Emanuelsson O, Zhang ZD,
Weissman S, Snyder M (2007) What is a gene, post-ENCODE? History and updated defini-
tion, Genome Res. 17: 669.
52.
http://www.personalgenomes.org/
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