Lee / Foote Micro and Nano Technologies in Bioanalysis

Applications of microfluidics and nanopores in separation, detection, manipulation, and analysis of biomolecules.- HPLC-Chip/MS Technology in Proteomic Profiling.- Nanofluidic Channel Fabrication and Manipulation of DNA Molecules.- A Single-Molecule Barcoding System using Nanoslits for DNA Analysis.- Microfluidic Devices with Photodefinable Pseudo-valves for Protein Separation.- Microfluidic Chips Designed for Measuring Biomolecules Through a Microbead-Based Quantum Dot Fluorescence Assay.- DNA Focusing Using Microfabricated Electrode Arrays.- Solid-State Nanopore for Detecting Individual Biopolymers.- Inserting and Manipulating DNA in a Nanopore with Optical Tweezers.- Forming an ?-Hemolysin Nanopore for Single-Molecule Analysis.- Nanopore Force Spectroscopy on DNA Duplexes.- Technologies of physical science and chemistry in detection and analysis of biomolecules.- Quantitative Chemical Analysis of Single Cells.- Trapping and Detection of Single Molecules in Water.- ZnO Nanorods as an Intracellular Sensor for pH Measurements.- Analysis of Biomolecules Using Surface Plasmons.- Use of Residual Dipolar Couplings in Structural Analysis of Protein-Ligand Complexes by Solution NMR Spectroscopy.- Raman-Assisted X-Ray Crystallography for the Analysis of Biomolecules.- Methods and Software for Diffuse X-Ray Scattering from Protein Crystals.- Deuterium Labeling for Neutron Structure-Function-Dynamics Analysis.- Small-Angle Neutron Scattering for Molecular Biology: Basics and Instrumentation.- Small-Angle Scattering and Neutron Contrast Variation for Studying Bio-Molecular Complexes.- Protein Sequencing with Tandem Mass Spectrometry.- Metabolic Analysis.- Applications of quantum dots and molecular fluorescence in detection, tracking and imaging of biomolecules.- MulticolorDetection of Combed DNA Molecules Using Quantum Dots.- Quantum Dot Molecular Beacons for DNA Detection.- Quantum Dot Hybrid Gel Blotting: A Technique for Identifying Quantum Dot-Protein/Protein-Protein Interactions.- In Vivo Imaging of Quantum Dots.- Semiconductor Fluorescent Quantum Dots: Efficient Biolabels in Cancer Diagnostics.- The Monitoring and Affinity Purification of Proteins Using Dual Tags with Tetracysteine Motifs.- Use of Genomic DNA as Reference in DNA Microarrays.- Single-Molecule Imaging of Fluorescent Proteins Expressed in Living Cells.- MicroPET, MicroSPECT, and NIR Fluorescence Imaging of Biomolecules In Vivo.- Ultrahigh Resolution Imaging of Biomolecules by Fluorescence Photoactivation Localization Microscopy.- Nanotechnologies for biomolecular delivery, gene therapy and expression control.- Real-Time Imaging of Gene Delivery and Expression with DNA Nanoparticle Technologies.- Nanoparticle-Mediated Gene Delivery.- Magnetic Nanoparticles for Local Drug Delivery Using Magnetic Implants.- Functionalized Magnetic Nanoparticles as an In Vivo Delivery System.- Formulation/Preparation of Functionalized Nanoparticles for In Vivo Targeted Drug Delivery.- Detection of mRNA in Single Living Cells Using AFM Nanoprobes.- Reverse Transfection Using Gold Nanoparticles.- Custom-Designed Molecular Scissors for Site-Specific Manipulation of the Plant and Mammalian Genomes.- Determining DNA Sequence Specificity of Natural and Artificial Transcription Factors by Cognate Site Identifier Analysis.