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Literature DB >> 1992517

Graphite: a mimic for DNA and other biomolecules in scanning tunneling microscope studies.

Abstract

Highly ordered pyrolytic graphite (HOPG) is the substrate often used in scanning tunneling microscope (STM) studies of biomolecules such as DNA. All of the images presented in this article are of freshly cleaved HOPG surfaces upon which no deposition has occurred. These images illustrate features previously thought to be due to biological molecules, such as periodicity and meandering of "molecules" over steps. These features can no longer be used to distinguish real molecules from features of the native substrate. The feasibility of the continued use of HOPG as a substrate for biological STM studies is discussed.

Entities: Chemical

Mesh：

Substances：
Graphite
DNA

Year: 1991 PMID： 1992517 DOI： 10.1126/science.1992517

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

31 in total

1. Scanning tunnelling microscopy and molecular modelling of xanthine monolayers self-assembled at the solid-liquid interface: relevance to the origin of life.

Authors: S J Sowerby; G B Petersen
Journal: Orig Life Evol Biosph Date: 1999-12 Impact factor: 1.950

2. Electronic transport in polycrystalline graphene.

Authors: Oleg V Yazyev; Steven G Louie
Journal: Nat Mater Date: 2010-08-22 Impact factor: 43.841

3. Polycrystalline graphene and other two-dimensional materials.

Authors: Oleg V Yazyev; Yong P Chen
Journal: Nat Nanotechnol Date: 2014-08-17 Impact factor: 39.213

4. Identification of DNA basepairing via tunnel-current decay.

Authors: Jin He; Lisha Lin; Peiming Zhang; Stuart Lindsay
Journal: Nano Lett Date: 2007-11-28 Impact factor: 11.189

5. Defect formation on surfaces bombarded by energetic multiply charged proteins: Implications for the conformation of gas-phase electrosprayed ions.

Authors: P A Sullivan; J Axelsson; S Altmann; A P Quist; B U Sunqvist; C T Reimann
Journal: J Am Soc Mass Spectrom Date: 1996-04 Impact factor: 3.109

Graphite: a mimic for DNA and other biomolecules in scanning tunneling microscope studies.

1. Scanning tunnelling microscopy and molecular modelling of xanthine monolayers self-assembled at the solid-liquid interface: relevance to the origin of life.

2. Electronic transport in polycrystalline graphene.

3. Polycrystalline graphene and other two-dimensional materials.

4. Identification of DNA basepairing via tunnel-current decay.

5. Defect formation on surfaces bombarded by energetic multiply charged proteins: Implications for the conformation of gas-phase electrosprayed ions.

6. Partial sequencing of a single DNA molecule with a scanning tunnelling microscope.

7. Atomic force microscopy of cloned nicotinic acetylcholine receptor expressed in Xenopus oocytes.

8. High-resolution scanning tunneling microscopy of fully hydrated ripple-phase bilayers.

9. Transverse tunneling through DNA hydrogen bonded to an electrode.

10. Information of the chassis and information of the program in synthetic cells.