Fractional mass filtration

The concentration of solids in the feed sludge is expressed by weight fraction c. It is also possible to evaluate experimentally the weight ratio of wet cake to its dry content m. Hence, a unit weight of sludge contains me of wet cake. We denote y as the specific weight of feed sludge. This quantity contains c amount of solids hence, the ratio of the mass of solids in the cake to the filtrate volume is ... 

An extract from the soluble stromal proteins of purified and intact spinach-leaf chloroplasts was prepared by lysis of the cells in buffer, centrifugation of the suspension of broken cells, and concentration of the supernatant with removal of insoluble material. This extract contained all of the enzymes involved in the condensation of the cyclic moieties of thiamine, thiazole, and pyramine. Thus, the synthesis of thiamine in this extract following the addition of pyramine and putative precursors was a proof that the system had the possibility of building the thiazole. It was found that L-tyrosine was the donor of the C-2 carbon atom of thiazole, as in E. coli. Also, as in E. coli cells, addition of 1 -deoxy-D-f/irco-pen-tulose permitted synthesis of the thiamine structure. The relevant enzymes were localized by gel filtration in a fraction covering the 50- to 350-kDa molecular-mass range. This fraction was able to catalyze the formation of the thiazole moiety of thiamine from 0.1 -mM 1-deoxy-D-t/ireo-pentulose at the rate of 220 pmol per mg of protein per hour, in the presence of ATP and Mg2+. 

Water soluble protein with a relative molecular mass of ca. 32600, which particularly contains copper and zinc bound like chelate (ca. 4 gram atoms) and has superoxide-dismutase-activity. It is isolated from bovine liver or from hemolyzed, plasma free erythrocytes obtained from bovine blood. Purification by manyfold fractionated precipitation and solvolyse methods and definitive separation of the residual foreign proteins by denaturizing heating of the orgotein concentrate in buffer solution to ca. 65-70 C and gel filtration and/or dialysis. 

Chromatorapf c methods For gel filtration of polysaccharide fraction PI, a Sephacryl S-300 chromatographyc column (1,1 X 46,7 cm) was calibrated with standard dextrans (molecular mass range 266, 72, 40, and 17 KDa Sigma Chemicals), and the void volume determined with blue dextran. Polysaccharide sample (0.5 mL 2 mg/mL) was applied and eluted with 50 mM NaOH, fractions 1 mL being collected and carbohydrate absorbance (phenol-H2S04) being monitored. 

Gel Filtration. The lyophilized protein was redissolved in 50 mM phosphate buffer, pH 7.4 0.15 m NaCl 0.013 % sodium azide and loaded on a Superdex 75HR1030 column equilibrated with the same buffer. Elution was downward flow (0.15 ml/min) and 0.25 ml fi actions were collected. Fractions with pectin lyase activity were combined, dialyzed against distilled water and used in the next step. To estimate the molecular mass of PNL, the column was calibrated with standard proteins (Sigma MW-GF-70 Albumin, 66,000 Da Carbonic Anhidrase, 29,00 Cytochrome, 12,400 and Aprotinin, 6,500). The proteins were eluted in the conditions described above and their volumes (F ) were calculated fi om the peak maximum of the absorbance at 280 nm. The partition coefficient was obtained fi om the relationship where F, represents the bed volmne of column and F the void volume (which was calculated using blue dextran. Sigma). The molecular mass was determined using a standard curve of vs the logarithm of the molecular masses of the standards [28, 29]... 

Determination of molecular mass of pectic enzymes The molecular mass were determined by gel filtration in a Sepharose CL-6B column (1,8 x 88cm) equilibrated and eluted with Tris-HCl 50 mM, pH 7,5 buffer, plus 100 mM KCl. Fractions (3,3 ml) were collected at a flow rate of 10 ml/h. Molecular mass markers were tyroglobulin (660 kDa) apoferritin (440 kDa) P-amylase (200 kDa) alcohol dehydrogenase (150 kDa) bovine serum albumin (66 kDa) and carbonic anhydrase (29 kDa). Urea-SDS-PAGE (7%) was carried out according to Swank and Munkres [12]. Molecular mass markers were myosin (205 kDa) p-galactosidase (116 kDa) phosphorylase b (97 kDa) bovine serum albumin (66 kDa), ovalbumin (45 kDa) and carbonic anhydrase (29 kDa). 

The filtration effidency is commonly expressed by the fractional collection effidency T(x), see Eq. (3.2.1), rather than by considering the total mass, as the filtration process depends strongly on the size x of the particles entrained in the carrier gas [1]. 

Size-exclusion chromatography, also termed gel-permeation or gel-filtration chromatography, separates proteins on the basis of their size and shape. As most proteins fractionated by this technique are considered to have approximately similar molecular shape, separation is often described as being on the basis of molecular mass, although such a description is somewhat simplistic. 

Renal i Glomerular filtration rate i Renal blood flow T Filtration fraction i Tubular secretory function i Renal mass... 

M — mass flow of filtrate, lbm/min (75) c = solids concentration in feed to filter, lbm/lbm filtrate (0.01) xc = mass fraction solids in dry cake... 

Mass of solids in filter cake = (1 — e)Alps, where ps is the density of the solids Mass of liquid retained in the filter cake = eAlp, where p is the density of the filtrate. If J is the mass fraction of solids in the original suspension then ... 

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