Fractionation methods desalting

Plant material fractionation. The detailed steps of isolation and separation of oligosaccharide fractions were described earlier [10]. Pectin was separated by boiling the cell walls in 0.5 M ammonium-oxalate buffer, pH 5.2 at 100 C for Ih. The dialyzed solution of pectin was hydrolyzed with 0.15M HCl for 3h at 100 C. Neutralized and desalted hydrolysate was loaded to the column (lx90cm) filled with biogel TSK HW-40 (Toyo Soda, Japan) equilibrated and eluted with 50mM sodium acetate (pH 5.2) at a rate of 0.3ml/min. In all fractions (1ml) the sugars were determined by o-toluidine method (Resnikov et al., 1982) and fraction IP was collected as shown on Figure 1. 

A method for simultaneous desulfurization and desalting of fossil fuels by mixing the aqueous biocatalytic solution with the feed under conditions for both processes to occur. Both inorganic salts, the originally present in the fuel and the produced from the conversion of the organic sulfur compounds are solubilized by the added water, resulting in an aqueous phase with a salt concentration greater than 0.5 wt%. The biocatalyst consists of Rhodococcus sp. ATCC 53968, its mutants or cell-free fractions. 

A similar ion-exchange resin method was used by Ling in 1955 (LI) for the examination of combined amino acids in urine. According to this procedure urine was desalted and simultaneously freed from amino acids by using Amberlite IR-112, H+-form resin. The effluent collected from the column was then fractionated on Amberlite IRA, OH--form resin, by successive elution with 0.16 N acetic acid, 0.08 N formic acid, 0.25 N formic acid, 0.08 N hydrochloric acid, and finally with 0.16 N formic acid. The solutions of all acids contained 10% of acetone. The collected fractions were hydrolyzed with hydrochloric acid and the liberated amino acids identified by means of paper chromatography. 

In 1952 Carsten (Cl) developed a method, which allowed him to isolate and characterize several lower peptides contained in normal and pathological urine. According to this procedure, urine was desalted on the Amberlite IR-100 column and the adsorbed substances washed out with 2 M ammonia solution. The eluate was then passed through the column of Amberlite IRA-400. This column retained the ampholytes and rejected the weak bases. The former were recovered by elution with 1 M hydrochloric acid and the eluate was subsequently fractionated on Dowex 50 resin with 2M and later 4M hydrochloric acid as the eluents. By applying two-dimensional paper chromatography to further analysis of... 

Prior to the chromatographic separation of amino acids on Dowex 50 columns, Carsten (C5) first desalts the urine sample on Amberlite IR 100 or Duolite C 3 and removes most of the nitrogenous bases on Amberlite IRA 400. This preliminary treatment allows for amino acid separations at ordinary temperatures using 2M and 4M HC1 on H+ columns for elution, instead of buffer mixtures a single column of 25 g of Dowex 50 is sufficient for all amino acids and 350-375 one-milliliter fractions are collected. The resolving power of this method does not seem to be as satisfactory as Moore and Stein s procedures, and it is not less time nor labor consuming. 

The d/l enantiomeric ratios for alanine, glutamic acid, and leucine are obtained by a gas chromatographic method (29), using the remaining half of the desalted amino acid fraction. The N-trifluoroacetyl-L-prolyl-DL-amino acid methyl esters are synthesized, and separation is performed on a Hewlett-Packard model 5711A gas chromatograph with flame ionization detector and a 20-ft column using 8% SP 2250 coated on Chromosorb W-AW-DMCS solid support. 

Because of the favorable sorptive properties of the reversed-phase supports, batch adsorption and desorption can be a very effective way to desalt a chromatographed sample or to partially fractionate a peptide mixture during a purification procedure. For example, 1-2 gm of an oc-tadecyl silica packed into a silanized glass or plastic pipette can be used for the batch fractionation of small amounts of a crude peptide extract from tissues, such as the pancreas or pituitary, or from a synthetic experiment. A number of commercial products, such as the Waters Sep-Pak, have found use in this manner 10) as a purification or sample preparation aid. Protocols for batch extraction procedures on alkyl silicas have been discussed 17a,b) and applied to neuropeptides 10, 158, 166) and other hormonal peptides 88, 162, 167, 168). With these methods recoveries of peptides present in a tissue extract are generally higher than those found with classical fractionation techniques due in part to the fact that proteolytic degradation is minimized. 

A holy grail for DON (and DOM in general) remains a rapid and portable method to quantitatively isolate and desalt a large dissolved sample (Bronk, 2002). Such a method would not only allow a wealth of diverse techniques to be brought to bear on the largest unknown fraction of DON, but would allow direct isotopic measurements and compound-specific mass balances. Examples of some approaches currently being explored to improve DON recovery on both small and large scales include homemade ion-retardation resins (Bronk, unpublished data), electrodialysis (Vetter et al, 2007), and use of nano-filtration membranes coupled to standard ultrafiltration approaches (McCarthy et al unpubhshed data). 

Analytical Techniques and Physical Methods.— The mapping of oligonucleotides and nucleic acid digests on cellulose or cellulose-polyethyleneimine has been described recently, and columns of mercurated dextran or dihydroxyborylcellulose have been used to fractionate nucleotide mixtures. Electrophoresis on polyacrylamide gels has been advocated as a rapid method for desalting and fractionating mixtures of oligonucleotides. ... 

The initial steps of solubilization, DEAE chromatography and gel filtration were slight modifications of reported procedures [19]. The pooled fractions from a Sephacryl S-200 (Pharmacia) column were applied to a Mono Q HR5/5 FPLC column (Pharmacia) and eluted in a 20 ml gradient from 0-350 mM NaCl in 0.25 M sucrose-20 mM Tris-HCl pH 7.3. Fractions of 1 ml were collected and assayed for binding of NAA-1-[ C] (61 mCi/mmol, Amersham) by one of three methods [20]. The most active fractions were pooled, desalted and lyophilized. This preparation (approx. 50% receptor) was used either for monoclonal antibody production or was fully purified by native PAGE in a neutral pH discontinuous system [3]. The gel was briefly electroblotted (5 min, 10 mA) to nitrocellulose and the small fraction of transferred proteins visualized by rapid staining [8]. This blot was then used to locate precisely the bulk protein bands remaining in the gel. 

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