Abstract
Conventional chemical fixation and embedding of specimens in resins are accompanied by many artifacts, including postmortem structural alterations. Antigenicity of constituents of specimens can be deteriorated and soluble elements relocated in the process of chemical fixation and resin-embedding. Cryofixation and cryoultramicrotomy will overcome many of these drawbacks of chemical fixation and resin embedding. The theoretical background, equipment, methods, and applications of cryofixation and cryoultramicrotomy for biological specimens are reviewed.
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References
J Dubochet M Adrian J Chang J Homo J Lepault AW McDowall P Schultz (1988) ArticleTitleCryo-electron microscopy of vitrified specimens Q Rev Biophys 21 129–228 Occurrence Handle3043536
AV Somlyo H Schuman AP Somlyo (1977) ArticleTitleElemental distribution in striated muscle and the effects of hypertonicity: electron probe analysis of cryosections J Cell Biol 74 828–857 Occurrence Handle10.1083/jcb.74.3.828 Occurrence Handle302837
AK Christensen (1971) ArticleTitleFrozen thin sections of fresh tissue for electron microscopy, with a description of pancreas and liver J Cell Biol 51 772–804 Occurrence Handle10.1083/jcb.51.3.772 Occurrence Handle4942776
H Sitte (1996) ArticleTitleAdvanced instrumentation and methodology related to cryoultramicrotomy: a review Scan Microsc (Suppl) 10 387–466
JC Gilkey LA Staehelin (1986) ArticleTitleAdvances in ultrarapid freezing for the preservation of cellular ultrastructure J Electron Microsc Tech 3 177–210 Occurrence Handle10.1002/jemt.1060030206
D Studer M Michel M Müller (1989) ArticleTitleHigh pressure freezing comes of age Scan Microsc (Suppl) 3 253–269
K McDonald (1999) ArticleTitleHigh-pressure freezing for preservation of high resolution fine structure and antigenicity for immunolabeling Methods Mol Biol 117 77–97 Occurrence Handlefull_text||10.1385/1-59259-678-9:77 Occurrence Handle10327400
M Michel H Gnägi M Muller (1992) ArticleTitleDiamonds are a cryosectioner’s best friend J Microsc 166 43–56
K Rickter (1994) ArticleTitleCutting artefacts on ultrathin cryosections of biological bulk specimens Micron 25 297–308 Occurrence Handle10.1016/0968-4328(94)90001-9 Occurrence Handle7987624
M Michel T Hillmann M Müller (1991) ArticleTitleCryosectioning of plant material frozen at high pressure J Microsc 163 3–18
KT Tokuyasu (1980) ArticleTitleImmunochemistry on ultrathin frozen sections Histochem J 12 381–403 Occurrence Handle10.1007/BF01011956 Occurrence Handle7440248
KT Tokuyasu (1973) ArticleTitleA technique for ultracryotomy of cell suspensions and tissues J Cell Biol 57 551–565 Occurrence Handle10.1083/jcb.57.2.551 Occurrence Handle4121290
W Liou HJ Geuze JW Slot (1996) ArticleTitleImproving structural integrity of cryosections for immunogold labeling Histochem Cell Biol 106 41–58 Occurrence Handle10.1007/s004180050022 Occurrence Handle8858366
KT Tokuyasu SJ Singer (1976) ArticleTitleImproved procedures for immunoferrtin labeling of ultrathin frozen sections J Cell Biol 71 894–906 Occurrence Handle10.1083/jcb.71.3.894 Occurrence Handle825524
HR Ebersold JL Cordier P Luthy (1981) ArticleTitleBacterial mesosomes: method dependent artifacts Arch Microbiol 130 19–22 Occurrence Handle10.1007/BF00527066 Occurrence Handle6796029
CR Hopkins A Gibson M Shipman K Miller (1990) ArticleTitleMovement of internalized ligand-receptor complexes along a continuous endosomal reticulum Nature (Lond) 346 335–339 Occurrence Handle10.1038/346335a0
JM Robinson MJ Karnovsky (1991) ArticleTitleRapid-freezing cytochemistry: preservation of tubular lysosomes and enzyme activity J Histochem Cytochem 39 787–792 Occurrence Handle2033237
G Posthuma JW Slot HJ Geuze (1987) ArticleTitleThe usefulness of the immunogold technique in quantitation of a soluble protein in ultrathin sections J Histochem Cytochem 35 405–410 Occurrence Handle2434559
K Saga K Sato (1989) ArticleTitleElectron probe X-ray microanalysis of cellular ions in the eccrine secretory coil during methacholine stimulation J Membr Biol 107 13–24 Occurrence Handle10.1007/BF01871079 Occurrence Handle2646452
K Saga (2002) ArticleTitleStructure and function of human sweat glands studied with histochemistry and cytochemistry Prog Histochem Cytochem 37 323–386 Occurrence Handle10.1016/S0079-6336(02)80005-5 Occurrence Handle12365351
TA Hall (1979) ArticleTitleBiological X-ray microanalysis J Microsc 117 145–163 Occurrence Handle90731
TA Hall BL Gupta (1983) ArticleTitleThe localization and assay of chemical elements by microprobe methods Q Rev Biophys 16 279–339 Occurrence Handle6322217
T Takemura F Sato K Saga Y Suzuki K Sato (1991) ArticleTitleIntracellular ion concentrations and cell volume during cholinergic stimulation of eccrine secretory coil cells J Membr Biol 119 211–29 Occurrence Handle10.1007/BF01868726 Occurrence Handle2056521
A Dörge R Rick K Gehring K Thurau (1978) ArticleTitlePreparation of freeze-dried cryosections for quantitative X-ray microanalysis of electrolytes in biological soft tissues Pflügers Arch 373 85–97 Occurrence Handle10.1007/BF00581153 Occurrence Handle565038
R Rick A Dörge K Thurau (1982) ArticleTitleQuantitative analysis of electrolytes in frozen dried sections J Microsc 125 239–247 Occurrence Handle7086885
H Shuman AV Somlyo AP Somlyo (1976) ArticleTitleQuantitative electron probe microanalysis of biological thin sections: methods and validity Ultramicroscopy 1 317–339 Occurrence Handle10.1016/0304-3991(76)90049-8 Occurrence Handle1028201
AW McDowall J Chang R Freeman J Lepault CA Walter J Dubocher (1983) ArticleTitleElectron microscopy of frozen hydrated sections of vitreous ice and vitrified biological samples J Microsc 131 1–9 Occurrence Handle6350598
AW McDowall T Hofmann J Lepault M Adrian J Dubochet (1984) ArticleTitleCryo-electron microscopy of vitrified insect flight muscle J Mol Biol 178 105–111 Occurrence Handle10.1016/0022-2836(84)90233-X Occurrence Handle6481807
J Dubochet AW McDowall B Menge EN Schmid KG Lickfeld (1983) ArticleTitleElectron microscopy of frozen-hydrated bacteria J Bacteriol 155 381–390 Occurrence Handle6408064
L Norlén A Al-Amoudi J Dubochet (2003) ArticleTitleA cryotransmission electron microscopy study of skin barrier formation J Invest Dermatol 120 555–560 Occurrence Handle10.1046/j.1523-1747.2003.12102.x Occurrence Handle12648217
A Sawaguchi KL McDonald JG Gorte (2004) ArticleTitleHigh-pressure freezing of isolated gastric glands provides new insight into the fine structure and subcellular localization of H+/K+-ATPase in gastric parietal cells J Histochem Cytochem 52 77–86 Occurrence Handle14688219
B Bohrmann E Kellenberger (2001) ArticleTitleCryosubstitution of frozen biological specimens in electron microscopy: use and application as an alternative to chemical fixation Micron 32 11–19 Occurrence Handle10.1016/S0968-4328(00)00029-9 Occurrence Handle10900376
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Saga, K. Application of cryofixation and cryoultramicrotomy for biological electron microscopy. Med Mol Morphol 38, 155–160 (2005). https://doi.org/10.1007/s00795-005-0287-2
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DOI: https://doi.org/10.1007/s00795-005-0287-2