No abstract available.
Antibodies, Monoclonal* ; Glycoproteins* ; Humans*

No abstract available.
Baculoviridae* ; Glycoproteins* ; Insects*

A human urinary trypsin inhibitor (UTI) was purified by 80% amonium sulfat precipitation, affnity chromatography using trypsin cellulofine gel. Specificity inhibitory activity of solution after affinity chromatography was increase from 0.8 to 29.1 and its recovery was 20.8%. The reslt indicated that binding of trypsin to formyl- cellulofine and the affinity chromatography with trypsin cellulofine gel was successful. Capalary electrophoresis of urine, solutions before and after affinity chromatography also supported the above result.
Glycoproteins ; Chromatography, Affinity

No abstract available.
Glycoproteins* ; Histamine* ; Rhinitis*

No abstract available.
Glycoproteins* ; Goblet Cells*

No abstract available.
Antigens, CD ; Glycoproteins ; Peptides ; Prognosis

Abrupt closure of coronary artery during coronary intervention is one of major limitations especially in high-risk patients. Platelets are responsible for composing acute thrombotic occlusion at the site of therapeutic arterial injury. Abciximab (platelet glycoprotein IIb/IIIa receptor blocker) might be helpful in preventing the acute thrombotic occlusion. We experienced an excellent effects of the drug in two cases of high-risk patients, unsuccessful thrombolytics and PTCA with acute occlusion. With additional use of abciximab we overcame the complications and succeeded in getting normal coronary flow and resultant successful angioplasties.
Angioplasty ; Coronary Vessels ; Glycoproteins ; Humans

No abstract available.
Glycoproteins* ; Oligodendroglia* ; Rubella virus* ; Rubella*

Chlorpheniramine (CPAM) is a chiral antihistaminic drug commercialized as a racemic mixture. The intestinal investigated in rat using in vitro experiment. Experiments showed that the absorption is not stereoselective. Moreover, the in vitro metabolism of CPAM are not modified by modulator of P-glycoprotein and cytochromes P450
Chlorpheniramine ; Glycoproteins ; Metabolism ; Mice ; Animal Experimentation

Clusterin (CLU) is a multifunctional glycoprotein that has secretory and nuclear isoforms. The two isoforms are known to play opposite roles in cell survival/death. In this review, we summarize recent progress on the pro-apoptotic function of nuclear CLU in vitro and in vivo and discuss previous reports on the role of CLU in brain damage and neurodegeneration.
Apoptosis ; Brain ; Clusterin ; Glycoproteins ; Protein Isoforms