Cryobiology: the freezing of biological systems.
暂无分享,去创建一个
[1] A. S. Parkes,et al. Revival of Spermatozoa after Vitrification and Dehydration at Low Temperatures , 1949, Nature.
[2] J. Lovelock,et al. The haemolysis of human red blood-cells by freezing and thawing. , 1953, Biochimica et biophysica acta.
[3] J. Lovelock,et al. The mechanism of the protective action of glycerol against haemolysis by freezing and thawing. , 1953, Biochimica et biophysica acta.
[4] J. Lovelock,et al. Physical Instability and Thermal Shock in Red Cells , 1954, Nature.
[5] I. A. Hansen,et al. Morphological and biochemical effects of freezing on yeast cells. , 1955, Biochimica et biophysica acta.
[6] T. H. Wood,et al. Freezing in yeast cells. , 1957, Biochimica et biophysica acta.
[7] John W. Kanwisher,et al. Supercooling and osmoregulation in arctic fish , 1957 .
[8] H. Meryman. Physical limitations of the rapid freezing method , 1957, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[9] P. Mazur,et al. Survival of Pasteurella tularensis in gelatin-saline after cooling and warming at subzero temperatures. , 1957, Archives of biochemistry and biophysics.
[10] J. Lovelock,et al. The denaturation of lipid-protein complexes as a cause of damage by freezing , 1957, Proceedings of the Royal Society of London. Series B - Biological Sciences.
[11] L. Berg,et al. The effect of addition of sodium and potassium chloride to the reciprocal system: KH2PO4-Na2HPO4-H2O on pH and composition during freezing. , 1959 .
[12] J. Lovelock,et al. Prevention of Freezing Damage to Living Cells by Dimethyl Sulphoxide , 1959, Nature.
[13] W. Kingery. Regelation, Surface Diffusion, and Ice Sintering , 1960 .
[14] R. Clayton,et al. THE FIRST STEP IN PHOTOSYNTHESIS: EVIDENCE FOR ITS ELECTRONIC NATURE. , 1960, Proceedings of the National Academy of Sciences of the United States of America.
[15] L. Edebo. A new press for the disruption of micro‐organisms and other cells , 1960 .
[16] P. Mazur. MANIFESTATIONS OF INJURY IN YEAST CELLS EXPOSED TO SUBZERO TEMPERATURES I , 1961, Journal of bacteriology.
[17] P. Mazur. MANIFESTATIONS OF INJURY IN YEAST CELLS EXPOSED TO SUBZERO TEMPERATURES II , 1961, Journal of bacteriology.
[18] É. Asahina. Intracellular Freezing and Frost Resistance in Egg-Cells of the Sea Urchin , 1961, Nature.
[19] P. F. Scholander,et al. Cohesive Lift of Sap in the Rattan Vine: The problem of how sap rises lies stranded for lack of means to measure negative pressure in liquids. , 1961, Science.
[20] M. Persidsky,et al. Mode of Protection with Polyvinylpyrrolidone in Freezing of Bone Marrow , 1962, Nature.
[21] T. Nash. The Chemical Constitution of Compounds Which Protect Erythrocytes against Freezing Damage , 1962, The Journal of general physiology.
[22] É. Asahina. Frost Injury in Living Cells , 1962, Nature.
[23] J. Levitt. A sulfhydryl-disulfide hypothesis of frost injury and resistance in plants , 1962 .
[24] The Reaction of Active Nitrogen with Simple Hydrocarbons at -- 196° , 1962 .
[25] G. F. Doebbler,et al. The influence of protective compounds and cooling and warming conditions on hemolysis of erythrocytes by freezing and thawing. , 1962, Biochimica et biophysica acta.
[26] C. Sagan,et al. Biological contamination of Mars II. Cold and aridity as constraints on the survival of terrestial microorganisms in simulated Martian environments , 1963 .
[27] K. Jacobson,et al. Carbonyl addition reactions of nicotinamide adenine dinucleotide in frozen alkaline solution. , 1963, Biochemical and biophysical research communications.
[28] Peter Mazur,et al. Kinetics of Water Loss from Cells at Subzero Temperatures and the Likelihood of Intracellular Freezing , 1963, The Journal of general physiology.
[29] J. K. Sherman. Questionable protection by intracellular glycerol during freezing and thawing. , 1963, Journal of cellular and comparative physiology.
[30] E. Steyn-Parvé,et al. Localization of some phosphatases in yeast. , 1963, Biochimica et biophysica acta.
[31] D. Greiff,et al. OXIDATIVE PHOSPHORYLATION BY SUSPENSIONS OF MITOCHONDRIA FOLLOWING FREEZING AND DRYING BY SUBLIMATION IN VACUO. , 1963, Biochimica et biophysica acta.
[32] S. Jacob. Studies in organ preservation by actual freezing and reduction of the freezing point. , 1964, Cryobiology.
[33] C. Chatelain,et al. Freezing of whole rat and dog kidney by perfusion of liquid nitrogen through the renal artery. , 1964, Cryobiology.
[34] M. Persidsky,et al. RADIATION PROTECTION OF MICE WITH BONE MARROW AND SPLEEN PRESERVED AT LOW TEMPERATURE USING POLYVINYLPYRROLIDONE. , 1964, Blood.
[35] R. Berggren,et al. Freezing and thawing of large organs. , 1964, Cryobiology.
[36] R. Lillehei,et al. In vitro freezing of whole organs. , 1964, Cryobiology.
[37] J. A. McMILLAN,et al. Vitreous Ice: Irreversible Transformations During Warm-Up , 1965, Nature.
[38] E. Mundth,et al. Functional survival of kidneys subjected to extracorporeal freezing and reimplantation. , 1965, Cryobiology.
[39] A. Karow,et al. Tissue freezing. A theory for injury and survival. , 1965, Cryobiology.
[40] MICROSPECTROPHOTOMETRY OF CYTOCHROMES IN THE SINGLE CELL AT ROOM AND LIQUID NITROGEN TEMPERATURES , 1965, The Journal of cell biology.
[41] G. F. Doebbler,et al. Rapid freezing of human blood. Physical and chemical considerations of injury and protection. , 1965, Cryobiology.
[42] P. Mazur. THE ROLE OF CELL MEMBRANES IN THE FREEZING OF YEAST AND OTHER SINGLE CELLS * , 1965, Annals of the New York Academy of Sciences.
[43] J. Farrant. Mechanism of Cell Damage During Freezing and Thawing and its Prevention , 1965, Nature.
[44] G. F. Doebbler. Cryoprotective compounds. Review and discussion of structure and function. , 1966, Cryobiology.
[45] M. Sussman,et al. Liquid Water in Frozen Tissue: Study by Nuclear Magnetic Resonance , 1966, Science.
[46] Mechanical forces as a cause of cellular damage by freezing and thawing. , 1966, The Biological bulletin.
[47] P. Mazur. Theoretical and experimental effects of cooling and warming velocity on the survival of frozen and thawed cells. , 1966, Cryobiology.
[48] L. Berg. pH changes in buffers and foods during freezing and subsequent storage , 1966 .
[49] J. Pletcher,et al. STUDIES OF INSULIN CRYSTALS AT LOW TEMPERATURES: EFFECTS ON MOSAIC CHARACTER AND RADIATION SENSITIVITY* , 1966, Proceedings of the National Academy of Sciences of the United States of America.
[50] D. Branton. Fracture faces of frozen membranes. , 1966, Proceedings of the National Academy of Sciences of the United States of America.
[51] I. Suda,et al. Viability of Long Term Frozen Cat Brain In Vitro , 1966, Nature.
[52] M. Emura,et al. Types of cell freezing and the post-thawing survival of mammalian ascites sarcoma cells. , 1966, Cryobiology.
[53] T. E. Kiovsky,et al. The Mutarotation of Glucose in Frozen Aqueous Solutions1 , 1966 .
[54] O. Fennema. An over-all view of low temperature food preservation. , 1966, Cryobiology.
[55] D. Wilson. Effect of temperature on the spectral properties of some ferrocytochromes. , 1967, Archives of Biochemistry and Biophysics.
[56] D. Pease. The preservation of tissue fine structure during rapid freezing. , 1967, Journal of ultrastructure research.
[57] B. Luyet,et al. Electron microscope study of recrystallization in rapidly frozen gelatin gels. , 1967, Biodynamica.
[58] H. T. Hammel. Freezing of xylem sap without cavitation. , 1967, Plant physiology.
[59] D. Rasmussen,et al. Study by differential thermal analysis of the temperatures of instability in rapidly cooled solutions of polyvinylpyrrolidone. , 1967, Biodynamica.
[60] W. Butterfield,et al. Effect of warming rates on the viability of frozen fungous spores. , 1967, Mycologia.
[61] R. Weinstein,et al. The freeze-cleave approach to the ultrastructure of frozen tissues. , 1967, Cryobiology.
[62] A. Sakai,et al. Survival of Plant Tissue at Super-Low Temperature VI. Effects of Cooling and Rewarming Rates on Survival. , 1967, Plant physiology.
[63] B. Bridges,et al. On the sensitivity of frozen micro-organisms to ultraviolet radiation , 1967, Proceedings of the Royal Society of London. Series B. Biological Sciences.
[64] U. Heber. Freezing injury and uncoupling of phosphorylation from electron transport in chloroplasts. , 1967, Plant physiology.
[65] J. K. Sherman,et al. Correlation of cellular ultrastructure before freezing, while frozen, and after thawing in assessing freeze-thaw-induced injury. , 1967, Cryobiology.
[66] L. Sømme. The effect of temperature and anoxia on haemolymph composition and supercooling in three overwintering insects , 1967 .
[67] G. Somero,et al. Temperature Tolerance of Some Antarctic Fishes , 1967, Science.
[68] I. Henderson,et al. Permeation kinetics of glycerol and dimethyl sulfoxide in Novikoff hepatoma ascites cells. , 1967, Cryobiology.
[69] A. Karow,et al. Toxicity of high dimethyl sulfoxide concentrations in rat heart freezing. , 1967, Cryobiology.
[70] H. Souzu. Decomposition of polyphosphate in yeast cell by freeze-thawing. , 1967, Archives of biochemistry and biophysics.
[71] A. Sakai,et al. Survival of plant tissue at super-low temperatures v. An electron microscope study of ice in cortical cells cooled rapidly. , 1967, Plant Physiology.
[72] F. Reiss-Husson. Structure des phases liquide-cristallines de différents phospholipides, monoglycérides, sphingolipides, anhydres ou en présence d'eau , 1967 .
[73] J. Koehler. Studies on the survival of the rotifer philodina after freezing and thawing , 1967 .
[74] A. Karow,et al. Preliminary observations on drug responses in viably frozen mammalian hearts , 1967 .
[75] D. Greiff,et al. Cryotolerance of selected sites on the surfaces of membranes of cells. I. Mucopolysaccharides of erythrocytes. , 1968, Cryobiology.
[76] U. Heber,et al. Freezing injury in relation to loss of enzyme activities and protection against freezing. , 1968, Cryobiology.
[77] B. Luyet,et al. Electron microscope study of erythrocytes in rapidly cooled suspensions containing various concentrations of glycerol. , 1968, Biodynamica.
[78] P. Mazur,et al. Interactions of cooling velocity, temperature, and warming velocity on the survival of frozen and thawed yeast. , 1968, Cryobiology.
[79] W. Arnold,et al. Chlorophyll energy levels and electron flow in photosynthesis. , 1968, Proceedings of the National Academy of Sciences of the United States of America.
[80] J. Sullivan,et al. Preservation of erythrocytes in blood containing various cryoprotective agents, frozen at various rates and brought to a given final temperature. , 1968, Cryobiology.
[81] H. Meryman. Modified Model for the Mechanism of Freezing Injury in Erythrocytes , 1968, Nature.
[82] O. Bucher,et al. Pulsatile activity of isolated heart muscle cells after freezing storage. , 1968, Cryobiology.
[83] J. E. Donnellan,et al. Effect of Temperature on the Photobiology and Photochemistry of Bacterial Spores , 1968, Nature.
[84] Myocardial ultrastructure in systole and diastole using ballistic cryofixation. , 1968, Journal of ultrastructure research.
[85] Combined effects of freezing rates and of various protective agents on the preservation of human erythrocytes. , 1968, Cryobiology.
[86] F. Reiss-Husson,et al. Structure of the Cubic Phases of Lipid–Water Systems , 1966, Nature.
[87] EXPERIMENTAL BIOLOGY OF AMMONIA-RICH ENVIRONMENTS: OPTICAL AND ISOTOPIC EVIDENCE FOR VITAL ACTIVITY IN Penicillium IN LIQUID AMMONIA-GLYCEROL MEDIA AT -40 degrees C. , 1968, Proceedings of the National Academy of Sciences of the United States of America.
[88] I. Yannas. Vitrification Temperature of Water , 1968, Science.
[89] Freezing of bacteriophage T4: temperature and rate effects as a function of salt concentration. , 1969, Virology.
[90] T. Speitel,et al. Life in earth extreme environments: a study of cryobiotic potentialities. , 1969, Cryobiology.
[91] R. Rahn,et al. PHOTOCHEMICAL STUDIES OF THYMINE IN ICE * , 1969, Photochemistry and photobiology.
[92] J. Farrant. Is there a Common Mechanism of Protection of Living Cells by Polyvinylpyrrolidone and Glycerol during Freezing? , 1969, Nature.
[93] E. B. Small,et al. Scanning Electron Microscopy of Fixed, Frozen, and Dried Protozoa , 1969, Science.
[94] The physiology of renal preservation injury. I. Freezing injury and its modification. , 1969, Cryobiology.
[95] H B Lehr,et al. Differential susceptibility of epithelial cells and fibroblasts of human skin to freeze injury. Report on an improved method for storage of human skin at--196 degrees-C. , 1969, Cryobiology.
[96] G. Freud,et al. Reanimation of Myocardial Cells preserved in the Frozen State , 1969, Nature.
[97] W. Abbott. Viability assays as applied to the cryopreservation of hearts and kidneys. , 1969, Cryobiology.
[98] R. L. Steere. Freeze-etching simplified. , 1969, Cryobiology.
[99] N. Grant. Biochemical reactions in essentially nonaqueous systems. , 1969, Cryobiology.
[100] R. L. Steere. Freeze-etching and direct observation of freezing damage. , 1969, Cryobiology.
[101] J. Saunders. A cryobiologist's conjecture of planetary life. , 1969, Cryobiology.
[102] R. Pincock,et al. Denaturation and reactivity of invertase in frozen solutions. , 1969, Biochemistry.
[103] Peter Mazur,et al. Freezing Injury in Plants , 1969 .