Chromatography loading

The Step 5 product (1.0 mmol) dissolved in 10 ml THF was treated with 1.5 ml 1M tetrabutylammonium fluoride, then stirred 30 minutes, and diluted with EtOAc. The mixture was washed with 0.5 M HC1, then extracted with EtOAc, and washed with water, brine, dried, and concentrated. The residue was purified by flash chromatography loaded with CH2C12, then eluted with hexanes/EtOAc, 5 1 to 3 1, and the product isolated in 85% yield. 

Chromatography Load the sample onto the column in a buffer that permits an optimal binding between derivatized matrix and the sought-after protein, according to pH, ion strength, and so on. Allow them enough time to bind. Use prior binding assays to estimate the conditions. 

FIG. 16-30 Operational steps in displacement chromatography, The column, initially equilibrated with a carrier solvent at time 0, is loaded with feed until time tp and supplied with displacer for a time to + tp. Development of the displacement train occurs during the time to and elution of the separated products ends at time tp. tp is the time required to remove the displacer from the column and restore the initial conditions, Components are niimhered in order of decreasing affinity for the stationary phase, [Reference Horoath et at, J, Ghromatogr, 2i8, 365 (1981). Reprinted with peimission of], Ghromatogr,]... 

Conventional elution chromatography has the serious disadvantage of dilution, and usually a concentration step must follow. The technique of displacement chromatography circumvents dilution and may even result in an eluant more concentrated than the feed. A displacer compound breaks the desired product from the chromatographic material sharply, and a column heavily loaded with several biochemicals will release them one at a time depending on their adsorption equilibria. However, the displacers tena to be expensive and can be troublesome to remove from the product. 

In all modes of chromatography, high sample loads distort peak shapes and cause an overall decrease in efficiency due to column overload. Sample loads may be increased by using organic solvents to enhance the solubility of the sample or by using higher column temperatures to lower the viscosity of... 

PSS SEC column dimensions were chosen to allow easy scaling of chromatography conditions without the need to optimize separations for each column dimension separately. The volume flow rate and the sample load can be calcu-... 

Loading capacities in size exclusion chromatography are very low because all separation occurs within the liquid volume of the column. The small diffusion coefficients of macromolecules also contribute to bandspreading when loads are increased. The mass loading capacities for ovalbumin (MW 45,000) on various sizes of columns can be seen in Table 10.5. The maximum volume that can be injected in size exclusion chromatography before bandspreading occurs is about 2% of the liquid column volume. The maximum injection volumes for columns of different dimensions can also be seen in Table 10.5. 

Figure 12.22 SFC-GC analysis of aromatic fraction of a gasoline fuel, (a) SFC trace (b) GC ttace of the aromatic cut. SFC conditions four columns (4.6 mm i.d.) in series (silica, silver-loaded silica, cation-exchange silica, amino-silica) 50 °C 2850 psi CO2 mobile phase at 2.5 niL/min FID detection. GC conditions methyl silicone column (50 m X 0.2 mm i.d.) injector split ratio, 80 1 injector temperature, 250 °C earner gas helium temperature programmed, — 50 °C (8 min) to 320 °C at a rate of 5 °C/min FID detection. Reprinted from Journal of Liquid Chromatography, 5, P. A. Peaden and M. L. Lee, Supercritical fluid chromatography methods and principles , pp. 179-221, 1987, by courtesy of Marcel Dekker Inc.

Laboratory method using porous polymer adsorbent tubes, thermal desorption and gas chromatt raphy MDHS 32 Dioctyl phthalates in air Laboratory method using Tenax adsorbent tubes, solvent desorption and gas chromatography MDHS 33 Adsorbent tu standards Preparation by the syringe loading technique MDHS 34 Arsine in air Colorimetric field method using silver diethyl-dithiocarbamate in the presence of excess silver nitrate... 

Other modes of LC operation include liquid-liquid partition chromatography (LLC) and bonded phase chromatography. In the former, a stationary liquid phase which is immiscible with the mobile phase is coated on a porous support, with separation based on partition equilibrium differences of components between the two liquid phases. This mode offers an alternative to ion exchange in the fractionation of polar, water soluble substances. While quite useful, the danger exists in LLC that the stationary phase can be stripped from the column, if proper precautions are not taken. Hence, it is typical to pre-equil-ibrate carefully the mobile and stationary phases and to use a forecolimn, heavily loaded with stationary phase 9). 

It is noteworthy that trifluoroacetic acid was introduced as the most appropriate acidifler for column chromatography and solid phase extraction techniques, i.e., low boiling point due to its high acidity, requiring low amounts to reach the respective pH. Also, its high volatility allows easy evaporation thus minimizing the thermal load and acidification during concentration. 

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