Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.27.1 (
RNase
)
16,360
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A method using p-benzoquinone for coupling antigens and antibodies to enzymes and erythrocytes is described. The method involves the treatment of proteins (or polysaccharides) at pH 6 or 7 with an excess of p-benzoquinone. After removal of the unreacted reagent by gel filtration, the "activated" proteins were coupled at pH 8-9 with enzymes or erythrocytes. Biological activities of the proteins were not substantially modified by this treatment since 80-100% of the antigen binding capacity was found to be preserved in p-benzoquinone treated antibodies or Fab fragments. Anti-Ig antibodies (or Fab) were coupled by this procedure to peroxidase, alkaline phosphatase, lactoperoxidase,
glucose oxidase
and beta-galactosidase, and the conjugates obtained were found to be highly effective in detecting intracellular Ig by immunohistochemical techniques. Erythrocytes coated with sheep anti-mouse Ig antibody or Fab were used to titrate by passive hemagglutination serum Ig. The same erythrocytes were employed to detect by plaque assay mouse Ig secreting cells. Erythrocytes coated with peroxidase, alkaline phosphatase, bovine serum albumin,
ribonuclease
, Salmonella polysaccharide (B 27 +) and pneumoccocal polysaccharide SIII were employed to titrate serum antibody by passive hemagglutination and hemolysis and to detect mouse antibody secreting cells by plaque assay. All the antigens and antibodies coated erythrocytes prepared gave highly satisfactory and reproducible results.
...
PMID:A new method using p-benzoquinone for coupling antigens and antibodies to marker substances. 0 79
The authors propose the use of specific sensors immobilized by ligands onto artificial supports, and the elaboration of a computerized system for the determination of various antigens, haptens or antibodies in biological fluids according to enzyme-linked immunosorbent assay techniques. Two enzymes are applied in this technique: the first (
ribonuclease
) for reversibly linking the immunocomplex to the insoluble support via disulphur bridges; the second (
beta-D-glucose oxidase
) for labelling the antigen. Enzyme activity is measured in the presence of
glucose oxidase
by fixing the immunocomplex onto a pO2 electrode. After incubation of the antigen labelled with
glucose oxidase
and the free antigen with specific antibodies linked with
ribonuclease
, to reduce the pre-established concentration, the reaction medium is introduced into the continuous flow cell. O2 consumption due to the enzyme reaction is measured by the actual time that the electrode is in contact with a glucose standard solution. Cleavage of the disulphur bridges is caused by an injection of dithiothreitol solution. Treatment of the signal obtained is realized with an automatic microcomputer system. The preliminary results show that reproducibility with the same membrane for ten measurements is less than 5%. Elution performed using dithiothreitol for example, shows that cleavage between the immunocomplex and the thiol-containing support is obtained after a few minutes, and 98% of the immunocomplex is eluted.
...
PMID:[Immobilization of enzymatic inhibitors for the isolation of reversible immunologic sensors]. 308 51
Presence of carbonate anions increases the oxidation of luminol in different chemical systems. Lysis of human erythrocytes due to the action of dihydroxyfumaric acid or of perborate is also stimulated by carbonate ions. These anions also change considerably the loss of activity of different enzymes treated with superoxide, hydroxyl or formate radicals and can increase or decrease the effect as a function of the nature of the active centre of the enzyme. The relative effects of superoxide, hydroxyl, formate and carbonate radicals for the inactivation of various enzymes (superoxide dismutases, catalase,
ribonuclease
,
glucose oxidase
and glutathione peroxidase) have been examined. Three systems were used: gamma-irradiation under different conditions, photoproduction of radicals and sonication. Inactivation of the enzymes is a function not only of the radical used but also of the nature of the active site. Thus glutathione peroxidase is remarkably resistant to hydroxyl radicals while the superoxide dismutases are rapidly inactivated by carbonate radicals. All of the results combine to show that the presence or absence of carbonate anions must be considered in all studies of oxygen containing free radicals whether chemical, biochemical or biological or high energy irradiation.
...
PMID:Carbonate anions; effects on the oxidation of luminol, oxidative hemolysis, gamma-irradiation and the reaction of activated oxygen species with enzymes containing various active centres. 630 56
Nonradioactive immunoassays incorporating an element of amplification in their detection system require the use of components that are highly purified. Flavin adenine dinucleotide-3'-phosphate (FADP) is the primary substrate used in such an amplification assay. For incorporation into a simple, single-pot assay system, the concentration of contaminating flavin adenine dinucleotide (a prosthetic group for the enzyme D-aminoacid oxidase used in the amplification cascade assay) in this primary substrate must be minimized to achieve maximum sensitivity. Production of the substrate to a high degree of purity has been achieved using apo-
glucose oxidase
to specifically remove contaminating flavin adenine dinucleotide from solution and hydrolysis of a cyclic intermediate as a final production protocol by
ribonuclease T2
to give the product in high yield. The use of continuous ultrafiltration reactors at each stage is described and compared to a final production step utilizing immobilized
ribonuclease T2
. These reactors allow large volumes of material to be handled and assist in the scale-up of these processes. The suitability of each protocol is assessed for the commercial production of FADP.
...
PMID:Purification and semienzymic synthesis of flavin adenine dinucleotide-3'-phosphate. 776 39
The concepts of rational design and solid phase combinatorial chemistry were used to develop affinity adsorbents for glycoproteins. A detailed assessment of protein-carbohydrate interactions was used to identify key residues that determine monosaccharide specificity, which were subsequently exploited as the basis for the synthesis of a library of glycoprotein binding ligands. The ligands were synthesised using solid phase combinatorial chemistry and were assessed for their sugar-binding ability with the glycoenzymes,
glucose oxidase
and
RNase
B. Partial and completely deglycosylated enzymes were used as controls. The triazine-based ligand, histamine/tryptamine (8/10) was identified as a putative glycoprotein binding ligand, since it displayed particular affinity for
glucose oxidase
and other mannosylated glycoproteins. Experiments with deglycosylated control proteins, specific eluants and retardation in the presence of competing sugars strongly suggest that the ligand binds the carbohydrate moiety of
glucose oxidase
rather than the protein itself.
...
PMID:Design, synthesis and characterisation of affinity ligands for glycoproteins. 1039 97
Alkyl-substituted hydroxybenzenes (AHBs), which are auto-inducers of microbial dormancy (d1 factors), were found to stabilize the structure of protein macromolecules and modify the catalytic activity of enzymes. In vitro experiments showed that C6-AHB at concentrations from 10(-4) to 10(-2) M, at which it occurs in the medium as a true solution and a micellar colloid, respectively, nonspecifically inhibited the activity of chymotrypsin,
RNase
, invertase, and
glucose oxidase
. C6-AHB-induced conformational alterations in protein macromolecules were due to the formation of complexes, as evidenced by differences in the fluorescence spectra of individual
RNase
and C6-AHB and their mixtures and in the surface tension isotherms of C6-AHB and trypsin solutions. Data on the involvement of dormancy auto-inducers in the post-translational modification of enzymes and their inhibition will provide further insight into the mechanisms of development and maintenance of dormant microbial forms.
...
PMID:[The function of anabiosis autoinductors in microorganisms under blockade of metabolism]. 1077 21
A novel macroporous silica-based amide-polymer-bonded packing for protein separations in HPLC is described. The macroporous silica support was bonded with diethoxymethyl vinyl silane and then copolymerized with methylacrylamide and divinylbenzene to produce a tailored stationary phase with high resolution and inertness. The repeatability of packing preparation is good. They were characterized through the application of a standard protein mixture of pepsin,
glucose oxidase
, bean trypsinogen inhibitor and
ribonuclease
. The time for elution of these proteins is less than 12 minutes. It is suggested that the macroporous silica-based amide-polymer-bonded packing can be used to quickly separate biopolymer. This packing is a better alternative for the biopolymer separation.
...
PMID:[Preparation of novel macroporous silica-based amide-polymer-bonded packing and its application to the separation of proteins]. 1132 95
The success of intracellular protein therapy demands efficient delivery and selective protein activity in diseased cells. Therefore, a cascaded nanozymogen consisting of a hypoxia-activatable pro-protein, a hypoxia-inducing protein, and a hypoxia-strengthened intracellular protein delivery nanovehicle was developed. RPAB, an enzymatically inactive pro-protein of
RNase
, reversibly caged with hypoxia-cleavable azobenzene, was delivered with
glucose oxidase
(GOx) using hypoxia-responsive nanocomplexes (NCs) consisting of azobenzene-cross-linked oligoethylenimine (AOEI) and hyaluronic acid (HA). Upon NC-mediated delivery into cancer cells, GOx catalyzed glucose decomposition and aggravated tumoral hypoxia, which drove the recovery of RPAB back to the hydrolytically active
RNase
and expedited the degradation of AOEI to release more protein cargoes. Thus, the catalytic reaction of the nanozymogen was self-accelerated and self-cycled, ultimately leading to a cooperative anti-cancer effect between GOx-mediated starvation therapy and
RNase
-mediated pro-apoptotic therapy.
...
PMID:Hypoxia-Induced Pro-Protein Therapy Assisted by a Self-Catalyzed Nanozymogen. 3256 32
