참고문헌
- Jpn. J. Freez. Dry. v.28 Freezing damage of yeast in frozen dough Tanaka,Y.
- Can. J. Microbiol. v.9 Release of ultraviolet-absorbing material from Esherichia coli at subzero temperatures Liderberg,G.;Lode,A.
- Biophys. J. v.3 Studies on rapidly frozen suspensions of yeast cells by differential thermal analysis and conductometry Mazur,P.
- J. Ferment. Technol. v.65 Biochemical and electron-microscopic evidence for membrane injury in yeast cells quickly frozen with liquid nitrogen Komatsu,Y.;Saito,M.;Osumi,M.
- Tech Rep. Jpn. Yeast Ind. Assoc. v.52 The mechanism of tolerance to freeze-thaw injury in Saccharomyces species Saito,H.;Shimada,S.;Nakatomi,Y.;Nagashima,A.;Tanaka,Y.
- J. Home Econ. Jpn. v.41 Screening of freeze-tolerant yeasts and their bread dough fermentative properties Hahn,Y.S.;Kawai,H.
- Agri. Biol. Chem. v.54 Isolation and characterization of freeze-tolerant yeasts from nature available for the frozen dough method Hahn,Y.S.;Kawai,H.
- Jpn. patent S58-201978 Saccharomyces species FD 612 and the utilization Nakatomi,Y.;Saito,H.;Nagashima,A.;Umeda,F.
- Plant. Cell Physiol. v.9 Effects of mannitol on protoplasts of Saccharomyces cerevisiae Iguti,S.
- Cereal Chem. v.22 Influence of dough constituents on fermentation Atkin,L.;Achults,A.A.;Frey,C.N.
- Can. J. Biochem Physiol. v.37 A rapid method of total lipid extraction and purification Bligh,E.G.;Dyer,W.J.
- Biochem. Biophys. Acta v.918 Distribution of phospholipid molecular species containing aracidonic acid and cholesterol in V79-UF cells Hayashi,Y.;Urade,R.;Kito,M.
- J. Biol. Chem. v.66 The colorimetric determination of phosphorus Fiske,C.H.;Subbarow,Y.
- Agri, Biol. Chem. v.42 Degradation of lipids in yeast at the early phase of organic solvent-induced autolysis Ichimasa,M.
- Cryobiology. v.10 The phospholipid degradation and cellular death caused by freeze-thawing or freeze-drying of yeast Souzu,H.
- Nature. v.200 Phospholipid break-down in Baker's yeast during drying Harriosn,J.S.;Trevelyan,W.E.