基因表达差异显示实验

A multiplexed glyco-bead array method for determining the sugar-binding specificities of plant lectins was described by a bead-based flow cytometric assay. Glycopeptides with N- and O-glycans were immobilized on multiplexed beads, and the specificities of several kinds of sugar ch ...

Microarrays are important tools for high-throughput analysis of biomolecules. The use of microarrays for parallel screening of nucleic acid and protein profiles has become an industry standard. A few limitations of microarrays are the requirement for relatively large sample volu ...

In almost all microarray technologies that are currently used, some type of surface chemistry serves as the interface between immobilized biomolecules and the solid support. Factors such as probe loading, spot morphology, and signal-to-noise ratio are all intimately linked to surface ...

Flower color is mainly determined by the structure of flavonoids, a group of secondary metabolites of plants. The biosynthetic pathway and the genes involved in the pathway are well characterized such that it is possible to change flower color by engineering the pathway by overexpression of h ...

The use of siRNA in vivo as well as in animal models has become more widespread in recent years, leading to further questions as to the best mode of delivery that will achieve optimal knockdown. While the exact mechanism of siRNA uptake at a cellular level has yet to be fully elucidated, various delivery tec ...

RNA interference (RNAi) is a powerful tool in deciphering gene function. It has been used extensively, especially in cultured mammalian cells. We have shown that RNAi-induced gene silencing can be generated in mice. With conventional transgenic techniques, shRNA-expressing constr ...

The intranasal administration of siRNA has opened new vistas in drug delivery and respiratory therapy. In this strategy, synthetic siRNA with or without chemical modifications can be applied intranasally. Various delivery vehicles have been tested and optimized. With a few exceptio ...

RNA interference (RNAi) is a cellular mechanism that is often exploited as a technique for quelling the expression of a specific gene. RNAi studies are carried out in vivo, making this a powerful means for the study of protein function in situ Several trypanosomatids, including those organisms r ...

The ability to manipulate RNAi in cultured mammalian cells has provided scientists with a very powerful tool to influence gene expression. Neurons represent a cell type that initially displayed resistance to transduction by siRNAs or shRNA, when attempting to silence expression of end ...

Experimental procedures using the RNA interference (RNAi) approach have recently emerged as a powerful tool for gene silencing in eukaryotic microbes for which gene replacement techniques have not yet been developed. Our group has recently explored RNAi to knock down gene-specific e ...

The electronic taste chip (ETC) assay system is a lab-on-a-chip technology that offers a microchip platform on which bead-based immunoassays are performed. Each bead within the array serves as its own independent self-contained “microreactor” system, with its selectivity determin ...

Over the last few decades, the prevalence of allergic diseases has increased dramatically in developed nations. The resulting burden on health care systems worldwide has provoked a whole series of research initiatives among allergy experts and commercial companies that aim to develop ...

Initially developed for the construction of DNA chips, the polypyrrole approach has been extended to other biochemical compounds (mainly proteins and oligosaccharides). This method allows one to copolymerize a pyrrole monomer with a biomolecule bearing a pyrrole group; this react ...

Glycosylation is one of the most common posttranslational modifications, with more than half of all known proteins thought to be glycoproteins. Alterations in glycosylation play a role in a diverse set of biological phenomena including tumor cell metastasis, intracellular commun ...

We have demonstrated a microarray format immunoassay using HydroGel-coated slides. HydroGel is a porous substrate based on a polymer matrix that provides a three-dimensional hydrophilic environment similar to free solution suitable for biomolecular interactions. This subs ...

Acoustic wave sensors are now widely used in various clinical applications because they allow real-time data to be rapidly obtained. In this chapter we describe the use of the thickness shear mode (TSM) acoustic wave sensor to study the interaction between the transactivation responsive r ...

In this chapter a microchip-based electrochemical enzyme immunoassay is developed and its performance is demonstrated for the determination of monoclonal mouse IgG as a model analyte. Such a direct homogeneous immunoassay requires the integration of electrokinetic mixing of al ...

Microchip electrophoresis has become a mature separation technique in recent years. Compared to agarose gel electrophoresis, which is commonly used for DNA separation, microchip electrophoresis has several advantages such as automation, fast analysis speed and minimum sample ...

Efficient and rapid isolation of nucleic acids is of significant importance in the field of genomics for a variety of applications. Current techniques for the isolation of specific nucleic acids or genes typically involve multiple rounds of amplification of the target sequence using po ...

Electrical lysis of biological cells on a microfluidic platform has evoked significant interest because of its applications in rapid recovery of intracellular contents such as nucleic acids or proteins without introducing lytic agents. Applying a direct current (DC) field for cell l ...