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Target Concepts:
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Query: UMLS:C0272170 (
SDS
)
50,377
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Proteins secreted by human seminal vesicles are strongly positively charged.
Cellulose acetate
electrophoresis show how the presence of two protein bands of vesicular origin (N3 and N4). When studied on
SDS
-PAGE there are three main bands of molecular weight 67, 45 and 40 kDa, respectively. These proteins may be separated by a chromatographic process using gel filtration on Sephadex G 25 M and ion exchange chromatography on CM and SP Sephadex C 50. Fructose, secreted by seminal vesicles, is excreted with specific proteins and these complexes take part to coagulum formation. During liquefaction glucose appears progressively and fructose is released from complexes with proteins. Interconversion processes that transform fructose into glucose, originate from prostatic secretion. In man, the liquefaction process seems to be not due to proteolysis, but by the way of other mechanisms that transform vesicular proteins of very high molecular weight into sub-units with lower molecular weights in the first minutes after ejaculation. In species other than man, i.e. lemurian, fructose takes part in the coagulation process with other components (albumin, ions, -SH groups). Cholesterol appears to be in relation with proteins which have high molecular weights. Half of phospholipid content of seminal plasma is probably free. Incubation of seminal plasma with spermatozoa show that these cells use triglycerides for their metabolism. The ratio between cholesterol and phospholipids is an important marker for the capacitation-decapacitation process.
...
PMID:Secretory proteins of human seminal vesicles and their relationship to lipids and sugars. 213 70
1. Liver and bone alkaline phosphatase isoenzymes were solubilized with the zwitterionic detergent sulphobetaine 14, and purified to homogeneity by using a monoclonal antibody previously raised against a partially-purified preparation of the liver isoenzyme. Both purified isoenzymes had a specific activity in the range 1100-1400 mumol/min per mg of protein with a subunit Mr of 80,000 determined by
SDS
/polyacrylamide gel electrophoresis. Butanol extraction instead of detergent solubilization, before immunoaffinity purification of the liver enzyme, resulted in the same specific activity and subunit Mr. The native Mr of the sulphobetaine 14-solubilized enzyme was consistent with the enzyme being a dimer of two identical subunits and was higher than that of the butanol-extracted enzyme, presumably due to the binding of the detergent micelle. 2. Pure bone and liver alkaline phosphatase were used to raise further antibodies to the two isoenzymes. Altogether, 27 antibody-producing cell lines were cloned from 12 mice. Several of these antibodies showed a greater than 2-fold preference for bone alkaline phosphatase in the binding assay used for screening. No antibodies showing a preference for liver alkaline phosphatase were successfully cloned. None of the antibodies showed significant cross-reaction with placental or intestinal alkaline phosphatase. Epitope analysis of the 27 antibodies using liver alkaline phosphatase as antigen gave rise to six groupings, with four antibodies unclassified. The six major epitope groups were also observed using bone alkaline phosphatase as antigen. 3. Serum from patients with cholestasis contains soluble and particulate forms of alkaline phosphatase. The soluble serum enzyme had the same size and charge as butanol-extracted liver enzyme on native polyacrylamide-gel electrophoresis.
Cellulose acetate
electrophoresis separated the soluble and particulate serum alkaline phosphatases as slow- and fast-moving forms respectively. In the presence of sulphobetaine 14 all the serum enzyme migrated as the slow-moving form on cellulose acetate electrophoresis. Monoclonal anti-(alkaline phosphatase) immunoadsorbents did not bind the particulate form of alkaline phosphatase in cholestatic serum but bound the soluble form. In the presence of sulphobetaine 14 all the cholestatic serum alkaline phosphatase bound to the immunoadsorbents. 4. The electrophoretic and immunological data are consistent with both particulate and soluble forms of alkaline phosphatase in cholestatic serum being derived from the hepatocyte membrane.
...
PMID:The preparation of monoclonal antibodies to human bone and liver alkaline phosphatase and their use in immunoaffinity purification and in studying these enzymes when present in serum. 245 2
A two dimensional electrophoretic method is described for the routine clinical analysis of urinary proteins.
Cellulose acetate
electrophoresis is used for the first dimension, and
SDS
(sodium dodecyl sulphate) electrophoresis for the second dimension, the latter being performed together with gel staining (Coomassie Blue) on the "Phast System". The separation media are supplied as "ready-to-use" materials. The method is reliable and reproducible, and is complete within 100 minutes. The resulting two-dimensional pattern of major proteinuria constituents is evaluated visually from the distribution according to molecular weight (second dimension) and from the five zone pattern of cellulose acetate electrophoresis (first dimension). Certain "marker" proteins specific for certain pathological changes, as well as certain characteristic changes in protein spot constellation, can be more easily recognized and evaluated than in one-dimensional
SDS
electrophoresis.
...
PMID:A practicable two-dimensional electrophoretic method for routine analysis of urinary proteins. 274 67
We describe here the purification and characterization of a form of acid lipase from human liver (designated ALII), which differed from the more abundant Mr-29000 form (ALI). ALII was solubilized from frozen human liver with Triton X-100 and purified 8500-fold by chromatography over concanavalin A-sepharose, CM-cellulose and finally h.p.l.c. over a Mono S column. ALII migrated as a single band on polyacrylamide-gel electrophoresis in both the presence and the absence of
SDS
. The Mr of ALII was estimated to be 58,500 by
SDS
/polyacrylamide-gel electrophoresis. Gel filtration on Sephacryl S-200 gave an apparent Mr of 69,000. 4-Methylumbelliferyl (4MU) palmitate, cholesterol oleate and triolein were substrates for ALII, with apparent Vmax values of 5000, 1100 and 2500 nmol/min per mg respectively and Km values of 1.0, 1.5 and 1.8 mM respectively. Cholesterol oleate and triolein were hydrolysed optimally by ALII at pH 4.5, whereas 4MU palmitate was hydrolysed optimally at pH 5.3. Antisera were raised against ALI and ALII and, on immunoblot analysis, no antigenic similarity was observed between ALI and ALII.
Cellulose acetate
electrophoresis followed by reaction with 4MU palmitate revealed two forms of lipase, corresponding to ALI and ALII. The two enzymes were also separated by hydrophobic chromatography. The activity of ALII was stimulated by several proteins and was partially inhibited by millimolar concentrations of NaCl, CaCl2 and MgSO4.
...
PMID:Purification and characterization of a second form of acid lipase in human liver. 343 34
The possibility of electrochemical modification of cellulose acetate membrane upon immobilization of the anionic surfactant (
SDS
) has been explored on the basis of membrane potential studies. Surface tension measurements with and without cellulose acetate membrane were carried out to ascertain the extent of immobilization of the surfactant.
Cellulose acetate
membrane practically does not exhibit any ion selectivity. However, modified membrane exhibits cation selectivity which varies with concentration of the surfactant till its critical micelle concentration is reached. An attempt has also been made to demonstrate correspondence between the immobilized surfactant and the permselectivity of the membrane.
...
PMID:Electrochemical studies on surfactant-modified cellulose acetate membrane. 1452 64
