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The final goal of our group is to establish the missing link between chemical reaction and mechanical event in molecular motors. To achieve this, we have developed advanced versions of conventional optical microscopes and applied them into single-molecule techniques. In this chapter we present two studies: one is about the kinesin-microtubule system and the other F1-ATPase. These techniques are applicable...
The development of the molecular biology of bacteriophage such as T4, lambda and filamentous phages was described and the process that the fundamental knowledge obtained in this field has subsequently led us to the technology of phage display was introduced.
Since its introduction in 1986, AFM has been applied to biological studies along with its widespread use in physics, chemistry and engineering fields. Due to its dual capabilities of imaging nano-materials with an atomic level resolution and of directly manipulating samples with high precision, AFM is now considered an indispensable instrument for nano-technological researchers especially in physically...
Cellular imaging has achieved many new biological findings, among them GFP and other fluorescent proteins and small molecule based fluorescent sensors have been widely used, especially in the last decade. The design concept and application of chemical sensors are described, these being FRET based sensors and Zn2+ sensors. Fluorescence resonance energy transfer (FRET) has been used extensively...
Our understanding of cellular signaling is critically dependent on our ability to visualize and quantify specific signaling events with high spatial and temporal resolution in the cellular context. Over the past decade or so, biosensors based on fluorescent proteins and fluorescence resonance energy transfer (FRET) have emerged as one major class of fluorescent probes that are capable of tracking...
A new methodology for fabricating thin film or micro patters of organic/bio material using surface acoustic wave (SAW) atomizer and electrostatic deposition is proposed and characteristics of atomization techniques are discussed in terms of drop size and atomization speed. Various types of SAW atomizer are compared with electrospray and conventional ultrasonic atomizers. It has been proved that SAW...
This chapter describes the basic physics underlying the newly emerging technique of electrospray deposition (ESD) as applied to biological macromolecules. Fabrication of protein films and microarrays are considered as the most important applications of this technology. All the major stages in the ESD process (solution electrification, formation of a cloud of charged microdroplets, transformation of...
When quantitative analysis or quantitative chemical synthesis is performed using a micrototal analysis system (microTAS), the technologies for precise metering, transporting, and mixing of droplets are required. In this chapter, several technologies for the handling of droplets are described. For metering, dispensing and transporting of droplets, pneumatic and electrokinetic forces are used. Separation...
Using unique physical phenomena at the microscale, such as laminar flow, mixing by diffusion, relative increase of the efficiency of heat exchange, surface tension and friction due to the increase of surface-to-volume ratio by downscaling, research in the field of microfluidic devices, aims at miniaturization of (bio)chemical apparatus for high-throughput analyses. Microchannel networks as core components...
In this review we introduce a new concept for developing a nonviral gene delivery system which we call “Programmed Packaging.” Based on this concept, we succeeded in developing a multifunctional envelope-type nano device (MEND), which exerts high transfection activities equivalent to those of an adenovirus in a dividing cell. The use of MEND has been extended to in vivo applications. PEG/peptide/DOPE...
With recent advances in nanotechnology, development of nanomaterial bioconjugates is growing exponentially towards eventual translation into biomolecular recognition layers on surfaces. Label-free monitoring of biorecognition events is also key-technology and provides a promising platform, which is simple, cost-effective, and requires no external modification to biomolecules. In this review, we describe...
This chapter reviews the development of fundamental technologies required for microchip-based bioreactors utilizing living mammalian cells and pressure driven flow. The most important factor in the bioreactor is the cell culture. For proper cell culturing, continuous medium supply from a microfluidic channel and appropriate modification of the channel surface to accommodate cell attachment is required...
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