Scanning tunneling microscopy and atomic force microscopy: application to biology and technology. - Wikidata - awgldk - TriplyDB

Scanning tunneling microscopy and atomic force microscopy: application to biology and technology.

Scanning tunneling microscopy and atomic force microscopy: application to biology and technology.

http://www.wikidata.org/entity/Q36428125

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Artificial Molecular Machines Techniques for physicochemical characterization of nanomaterials Fluorescence-based force/tension sensors: a novel tool to visualize mechanical forces in structural proteins in live cells Molecular resolution imaging of polyglucose by scanning tunneling microscopy.Structure and stability of pertussis toxin studied by in situ atomic force microscopy.Fast-scanning atomic force microscopy reveals the ATP/ADP-dependent conformational changes of GroEL.High-speed atomic force microscopy combined with inverted optical microscopy for studying cellular events.Long-tip high-speed atomic force microscopy for nanometer-scale imaging in live cells Pushing, pulling, dragging, and vibrating renal epithelia by using atomic force microscopy.Sequencing DNA using mass spectrometry for ladder detection.Imaging and nanodissection of individual supercoiled plasmids by atomic force microscopy Structure of adsorbed fibrinogen obtained by scanning force microscopy.High-resolution scanning tunneling microscopy of fully hydrated ripple-phase bilayers.Manipulation of Proteins on Mica by Atomic Force Microscopy Direct observation of defect structure in protein crystals by atomic force and transmission electron microscopy.Immobilized proteins in buffer imaged at molecular resolution by atomic force microscopy Discrimination of DNA hybridization using chemical force microscopy.The mechanism of oxidation-induced low-density lipoprotein aggregation: an analogy to colloidal aggregation and beyond?Direct measurement of hydrogen bonding in DNA nucleotide bases by atomic force microscopy.Correlative infrared-electron nanoscopy reveals the local structure-conductivity relationship in zinc oxide nanowires Graphene nanopore support system for simultaneous high-resolution AFM imaging and conductance measurements.A universal fluid cell for the imaging of biological specimens in the atomic force microscope.Electrokinetic microscopy: a technique for imaging three-dimensional surface topography and heterogeneity of surface material.Imaging of cell membraneous and cytoskeletal structures with a scanning tunneling microscope.Engineering lubrication in articular cartilage Atomic force microscopy of cloned nicotinic acetylcholine receptor expressed in Xenopus oocytes.Scanning tunnelling microscopy studies of beta-amyloid fibril structure and assembly.Heart gap junction preparations reveal hemiplaques by atomic force microscopy.Structure of the extracellular surface of the gap junction by atomic force microscopy Atomic force microscope imaging contrast based on molecular recognition.Potential biomedical applications of the scanned nanopipette.Standard Reference Specimens in Quality Control of Engineering Surfaces Scanning tunneling microscopy of a wheat seed storage protein reveals details of an unusual supersecondary structure.Preparation of DNA and nucleoprotein samples for AFM imaging.Unraveling DNA dynamics using atomic force microscopy.Construction of an aerolysin nanopore in a lipid bilayer for single-oligonucleotide analysis.Differential effect of curcumin on the nanomechanics of normal and cancerous Mammalian epithelial cells.Imaging biomolecule arrays by atomic force microscopy.The curved DNA structure in the 5'-upstream region of the light-responsive genes: its universality, binding factor and function for cyanobacterial psbA transcription.Nanoscopic structure of DNA condensed for gene delivery.

P2860

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Scanning tunneling microscopy and atomic force microscopy: application to biology and technology.

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1988 nî lūn-bûn

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