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Gel-free technologies

In this chapter we will review proteomic investigations of cardiac proteins and focus on their application to the study of heart disease in the human and in animal models of cardiac dysfunction. The majority of these studies of the cardiac proteome have involved protein separation, visualisation and quantitation using the traditional 2-DE approach combined with protein identification by mass spectrometry. These essential technologies will be briefly described. However, there is increasing interest in using alternative gel-free techniques based on mass spectrometry or protein arrays for high throughput proteomics. These alternative approaches will be introduced, but further details can be found in Chapter 2 of this volume by Michel Faupel. [Pg.20]

Peptide sequence tags with multidimensional protein identification technology (MudPIT). MudPIT is a gel-free shotgun proteomic approach, which does... [Pg.307]

Cyclodextrin stationary phases utilize cyclodextrins bound to a soHd support in such a way that the cyclodextrin is free to interact with solutes in solution. These bonded phases consist of cyclodextrin molecules linked to siUca gel by specific nonhydrolytic silane linkages (5,6). This stable cyclodextrin bonded phase is sold commercially under the trade name Cyclobond (Advanced Separation Technologies, Whippany, New Jersey). The vast majority of all reported hplc separations on CD-bonded phases utilize this media which was also the first chiral stationary phase (csp) developed for use in the reversed-phase mode. [Pg.97]

In a different approach, Stalcup and co-workers [25] used sulfated (3-cyclodextrin for the enantioseparation of piperoxan in work directly derived from earlier CE and classical gel results. Their results were obtained using a continuous free flow apparatus developed by R S Technologies, Inc. Processing rates on the order of 4.5 mg h were reported. [Pg.294]

The advantage of sol-gel technology is the ability to produce a highly pure y-alumina and zirconia membrane at medium temperatures, about 700 °C, with a uniform pore size distribution in a thin film. However, the membrane is sensitive to heat treatment, resulting in cracking on the film layer. A successful crack-free product was produced, but it needed special care and time for suitable heat curing. Only y-alumina membrane have the disadvantage of poor chemical and thermal stability. [Pg.387]

We typically use RNA purification by the Trizol method (Invitrogen, following the manufacturer s instructions), which has the advantage over column-based methods that it can purify small amounts of RNA and retain miRs. Purified RNA is dissolved in RJNAse-free water and stored at —80°. RNA quality is assessed on an Agilent Bioanalyzer (Agilent Technologies) or by gel electrophoresis. [Pg.128]

Figure 2.5 A broken, spherical silica particle entrapping an API has 85% free volume. Such particles are used in formulations such as Eusolex UV-Pearls that reduce dermal uptake compared to free UV filters thus they do not irritate the skin while they make new application possibilities for hydrophobic UV filters. (Photo courtesy of Sol-Gel Technologies Ltd.)... [Pg.210]

Gel polymer lithium-ion batteries replace the conventional liquid electrolytes with an advanced polymer electrolyte membrane. These cells can be packed in lightweight plastic packages as they do not have any free electrolytes and they can be fabricated in any desired shape and size. They are now increasingly becoming an alternative to liquid-electrolyte lithium-ion batteries, and several battery manufacturers. such as Sanyo. Sony, and Panasonic have started commercial production.Song et al. have recently reviewed the present state of gel-type polymer electrolyte technology for lithium-ion batteries. They focused on four plasticized systems, which have received particular attention from a practical viewpoint, i.e.. poly(ethylene oxide) (PEO). poly (acrylonitrile) (PAN). ° poly (methyl methacrylate) (PMMA). - and poly(vinylidene fluoride) (PVdF) based electrolytes. ... [Pg.202]

Figure 15.1. Processes for making adsorbents, (a) Flowsketch of a process for making molecular sieve adsorbents, (b) Process for reactivation of bone char, (c) Silica gel by the BASF process. The gel is formed and solidifies in air from sodium silicate and sulfuric acid, then is washed.free of sodium sulfate with water (Ullmann, Encyclopedia of Chemical Technology, Verlag Cliemie, Weinheim, Germany). Figure 15.1. Processes for making adsorbents, (a) Flowsketch of a process for making molecular sieve adsorbents, (b) Process for reactivation of bone char, (c) Silica gel by the BASF process. The gel is formed and solidifies in air from sodium silicate and sulfuric acid, then is washed.free of sodium sulfate with water (Ullmann, Encyclopedia of Chemical Technology, Verlag Cliemie, Weinheim, Germany).
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