98 NÝR DOKTOR í LÆKNISFRÆÐI - STEFÁN KARLSSON Nýlega varöi Stefán Karlsson doktorsritgerð sína við Lundúnaháskóla. Hér fer á eftir útdráttur úr ritgerðinni, en heiti hennar er Biochemical and genetical aspects of glyco- proteins in human tissues. Abstract Glycoproteins from human tissues and body fluids have been examined by SDS polyacryla- mide gel electrophoresis and isoelectric focus- ing followed by staining with various radioio- dinated lectins with different carbohydrate binding specificities. The main aim of the study was to make use of these techniques for biochemical and genetic analysis of glycopro- teins in health and disease. Considerable differences were found in the glycoprotein profiles detected by many lectins, from one tissue to another. Differences were also observed between membrane-rich and soluble fractions of each tissue. Serum pro- teins were detected in both fractions of post mortem tissues and were a considerable pro- portion of the glycoproteins seen in the soluble fractions. With peanut agglutinin a glycoconjugate was detected in urine, lung and kidney which shows genetically determined polymorphism. Family studies and population genetic data indicate that it is inherited in an autosomal co- dominant manner. Four common alleles have been detected so far. This glycoconjugate has been compared with Tamm-Horsfall (TH) glycoprotein, and found to have different lectin binding and electrophoretic mobility but it has a similar lictin binding and electrophore- tic mobility to a urinary mucin described and characterized recently by Cartron. It is sugge- sted that the urinary mucin and the polymor- phic glycoconjugate are the same and the molecule is referred to as the peanut aggluti- nin reactive urinary mucin (PUM). Preparations of TH glycoprotein purified from various individuals who are positive with respect to the Sd blood group (Sd(a + )) react with soy bean agglutinin whereas Sd(a —) individuals do not. Electrophoretic differences were seen in TH glycoproteins from different individuals but the evidence suggests that these variations reflect modifications of non- genetic nature. Glycoproteins from cystic fibrosis (CF) pa- tients have been compared with those of healthy controls and heterozygous individuals. Serum, red cell membranes, cultured fibro- blasts and urine have been analysed with SDS electrophoresis and urine and serum have also been investigated using isoelectric focusing. The gels have been stained with ten lectins but no CF specific glycan changes have been detected.

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