References
- Adams G.E., Willson R.L., Aldrich J.E., Cundall R.B. On the mechanism of the radiation-induced inactivation of lysozyme in dilute aqueous solution. International Journal of Radiation Biology 1969; 16: 333–342
- Adams G.E., Willson R.L., Bisby R.H., Cundall R.B. On the mechanism of the radiation-induced inactivation of ribonuclease in dilute aqueous solution. International Journal of Radiation Biology 1971; 20: 405–415
- Andersen B., Jorgensen O.S. Purification of external yeast invertase from brewer's yeast. Acta Chemica Scandinavica 1969; 23: 2270–2276
- Baseer A., Shall S. Properties of the internal invertase of yeast, Saccharomyces cerevisiae. Biochimica et Biophysica Acta 1972; 250: 192–202
- Bielski B.H.J., Shiue G.G. Reaction rates of superoxide radicals with the essential amino acids. Ciba Foundation Symposium (Oxygen free radicals and tissue damage) 1979; 65: 43–48
- Braams R. Rate constants of hydrated electron reactions with amino acids. Radiation Research 1966; 27: 319–329
- Byrd J.C., Tarentino A.L., Maley F., Atkinson P.H., Trimble R.B. Glycoprotein synthesis in yeast. Journal of Biological Chemistry 1982; 257: 14657–14666
- Chu F.K., Takese K., Guarino D., Maley F. Diverse properties of external and internal forms of yeast invertase derived from the same gene. Biochemistry 1985; 24: 6125–6132
- Chu F.K., Watorek W., Maley F. Factors affecting the oligomeric structure of yeast external invertase. Archives of Biochemistry and Biophysics 1983; 223: 543–555
- Farharaziz, Ross A.B. Selected specific rate constants of reactions of transients from water in aqueous solution. III. Hydroxyl radical and perhydroxyl radical and their radical ions. US Government Printing Office, Washington 1977, NSRDS-NBS 59
- Kornfeld R., Kornfeld S. Assembly of asparagine-linked oligosaccharides. Annual Review of Biochemistry 1985; 54: 631–664
- Moore S., Spackman D.H., Stein W.H. Chromatography of amino acids on sulfonated polystyrene. Analytical Chemistry 1958; 30: 1185–1190
- Moore J.S., Phillips G.O., Davies J.V., Dogson K.S. Reactions of connective tissue and related polyanions with hydrated electrons and hydroxyl radicals. Carbohydrate Research 1970; 12: 253–260
- Nagrani S., Bisby R.H. Radiolysis of human gastric glycopeptides in aqueous solution. International Journal of Radiation Biology 1986; 49: 683–691
- Nelson N. A photometric adaptation of the Somgyi method for the determination of glucose. Journal of Biological Chemistry 1944; 153: 375–380
- Neumann N.P., Lampen J.O. Purification and properties of yeast invertase. Biochemistry 1967; 6: 468–475
- Pallavicini G., Cetta G., Sinigaglia F., Badiello R., Tamba M. Radiolysis of a pig gastric glycopeptide. International Journal of Radiation Biology 1976; 30: 287–292
- Phillips G.O., Griffiths W., Davies J.V. Radiation chemistry of carbohydrates, Part XVI. Journal of the Chemical Society, Part B 1966; 194–200
- Spiro R.G. Glycoproteins. Advances in Protein Chemistry 1973; 27: 349–467
- Trimble R.B., Atkinson P.H. Structure of yeast external invertase Man(8–14)GlnNAc processing intermediates by 500Mz 1H NMR spectroscopy. Journal of Biological Chemistry 1986; 261: 9815–9824
- Trimble R.B., Maley F. Subunit structure of external invertase from Saccharomyces cerevisiae. Journal of Biological Chemistry 1977; 252: 4409–4412
- Von Sonntag C. Enzymes. The Chemical Basis of Radiation Biology. Taylor & Francis, London 1987; 429–457
- Waheed A., Shall S. Chemical modification of the active site of yeast invertase. Biochimica et Biophysica Acta 1971; 242: 172–186
- Winzler R.J. Determination of serum glycoproteins. Methods in Biochemical Analysis 1955; 2: 279–311