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Query: UMLS:C0338671 (
Steroids
)
9,479
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The use of hydroxyapatite to absorb antibody-bound steroid and thus separate free and antibody-bound steroid during radioimmunoassay has been examined using three steroid antisera (to testosterone, to 17-hydroxyprogesterone and to estradiol-17beta). For all three antisera studied the separation was shown to be independent of length of time in contact with hydroxyapatite (up to 1h); temperature variations from 4 degrees -37 degrees and pH over the range 4.9-8.0. The presence of protein affected the absorption of antibody-bound steroid but this effect could be overcome by the addition of increasing amounts of hydroxyapatite. Further increase in the amount of hydroxyapatite added had no effect on the separation of free and bound steroid. Sodium phosphate buffers of molarity greater than 0.01M eluted antibody-bount steroid from hydroxyapatite, but Tris-
HC1
buffers up to molarities of 0.1 M had no effect. Hydroxyapatite when used as a dry powder had the same effects as suspensions. No effect on the cross-reactivities of the antisera used could be demonstrated when hydroxyapatite was used and plasma testosterone assays on 22 plasma samples using hydroxyapatite gave essentially the same results as assays on the plasma using a coated-tube assay. Hydroxyapatite can also be successfully pumped along small bore plastic tubing without settling and can thus be used in automated immunoassay systems.
Steroids
1976 Mar
PMID:Hydroxyapatite - a reagent for the separation of free and antibody-bound steroid during the radioimmunoassay. 0 6
1.
Steroids
interact with bovine plasma albumin at a binding region that involves tryptophanyl, tyrosyl, arginyl and lysyl residues. The function of the tryptophanyl residues is demonstrated by: (a) the decrease of albumin binding affinity after modification of one tryptophanyl with 2-nitrophenylsulfenyl chloride; (b) steroid quenching of albumin tryptophanyl fluorescence; and (c) steroid quenching of 1-anilinonaphth-alene-8-sulfonate fluorescence, when it is excited by energy transfer from excited tryptophanyls. The function of tyrosyl residues is demonstrated by the decrease of albumin binding affinity after nitration of 30% tyrosyls with tetranitromethane, or deprotonation of tyrosyls by variation of pH. The function of arginyl and lysyl residues is demonstrated by the decrease of binding affinity after modification of these residues with glyoxal, formaldehyde or acetic anhydride. The presence of both apolar (Trp, Tyr and Lys (deprotonated)) and polar (Arg and Lys(protonated)) residues at the steroid binding site fits in well with the site relative apolarity, when expressed on the Kosower scale (Kosower, E.M. (1958) J. Am. Chem. Soc. 80, 3253-3260). 2. The contribution of specific amino acid residues to steroid binding depends to some extent on the steroid structure, as exemplified by the quantitatively different role of arginyl (or lysyl) residues in albumin interaction with testosterone acetate and epitestosterone, respectively, or that of tyrosyl residues in albumin interaction with 11-deoxycorticosterone and epitestosterone, respectively. 3. The concerted action of polar and apolar amino acid residues is an essential requirement for steroid binding, since unfolding of albumin polypeptide chain by guanidine-
HC1
, urea, or by reduction of disulfide bridges with 2-mercaptoethanol, strongly decreases steroid binding to albumin while, conversely, reoxidation and refolding of the unfolded polypeptide chain restore albumin affinity for steroids. 4. Parallel determinations of steroid binding constants by equilibrium dialysis and fluorimetric titration, as well as the general pattern of the pH and temperature effects on steroid quenching of albumin fluorescence, confirm the validity of the fluorescence quenching titration as an effective method for measuring albumin-steroid molecular interactions.
...
PMID:Structural requirements for steroid binding and quenching of albumin fluorescence in bovine plasma albumin. 95 52
A highly specific anti-estriol 3-sulfate antiserum was treated with 50% ammonium sulfate, and the crude globulin fraction was coupled to CNBr-activated Sepharose-4B. Addition of 0.1M Tris-
HC1
buffer (pH 8.3) containing 0.1M glutamine to the solution of antigen-antibody enabled assaying without solvent-extraction or chromatography to remove endogenous interference. Subsequently, a direct radioimmunoassay using [6,7-3H]-estriol 3-sulfate as a radioactive ligand without deconjugation has been established and applied to the determination of estriol 3-sulfate levels in pregnancy plasma. The increasing plasma levels of estriol 3-sulfate are correlated with estriol levels over the period of gestation. The mean values of sulfated estriol concentration (A) in late pregnancy plasma were approximately 7 times as high as unconjugated estriol (B), but individual ratios of A to B showed considerable variability.
Steroids
1985 Jul
PMID:A simple radioimmunoassay for estriol 3-sulfate in pregnancy plasma without deconjugation. 383 8
