Ultrathin sectioning for electron microscopy: the distilled water in the knife trough may extract phosphatase reaction products from the sections

Jørgen Rostgaard; K Qvortrup

Ultrathin sectioning for electron microscopy: the distilled water in the knife trough may extract phosphatase reaction products from the sections

Jørgen Rostgaard, K Qvortrup

Endocrinology and Metabolism

2 Citations (Scopus)

Abstract

During an electron microscopical study of the localization of the nucleoside diphosphatase IDPase in Reissner's membrane of the inner ear, it was discovered that the distilled water in the knife trough produced an annoying artefact. It dissolved all the lead phosphate reaction product from the sections, and thus converted a positive phosphatase reactivity to a false negative one. The water in the knife trough had a pH of approximately 5.4. Calculations showed that this is an expected acidity, if CO2 in the air equilibrates with distilled water, and that there is 200,000 times more acid in the trough than necessary to dissolve all the reaction product from a ribbon of ultrathin sections. Experiments showed that the artefact could be avoided by adjusting the pH to neutrality with dilute ammonia.

Original language	English
Journal	Journal of Microscopy
Volume	156
Issue number	Pt 2
Pages (from-to)	253-7
Number of pages	5
ISSN	0022-2720
Publication status	Published - Nov 1989

Keywords

Acid Anhydride Hydrolases
Animals
Ear, Inner
Guinea Pigs
Hydrogen-Ion Concentration
Microscopy, Electron
Microtomy
Phosphoric Monoester Hydrolases
Water
Journal Article

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title = "Ultrathin sectioning for electron microscopy: the distilled water in the knife trough may extract phosphatase reaction products from the sections",

abstract = "During an electron microscopical study of the localization of the nucleoside diphosphatase IDPase in Reissner's membrane of the inner ear, it was discovered that the distilled water in the knife trough produced an annoying artefact. It dissolved all the lead phosphate reaction product from the sections, and thus converted a positive phosphatase reactivity to a false negative one. The water in the knife trough had a pH of approximately 5.4. Calculations showed that this is an expected acidity, if CO2 in the air equilibrates with distilled water, and that there is 200,000 times more acid in the trough than necessary to dissolve all the reaction product from a ribbon of ultrathin sections. Experiments showed that the artefact could be avoided by adjusting the pH to neutrality with dilute ammonia.",

keywords = "Acid Anhydride Hydrolases, Animals, Ear, Inner, Guinea Pigs, Hydrogen-Ion Concentration, Microscopy, Electron, Microtomy, Phosphoric Monoester Hydrolases, Water, Journal Article",

author = "J{\o}rgen Rostgaard and K Qvortrup",

year = "1989",

month = nov,

language = "English",

volume = "156",

pages = "253--7",

journal = "Journal of Microscopy",

issn = "0022-2720",

publisher = "Wiley-Blackwell",

number = "Pt 2",

}

TY - JOUR

T1 - Ultrathin sectioning for electron microscopy

T2 - the distilled water in the knife trough may extract phosphatase reaction products from the sections

AU - Rostgaard, Jørgen

AU - Qvortrup, K

PY - 1989/11

Y1 - 1989/11

N2 - During an electron microscopical study of the localization of the nucleoside diphosphatase IDPase in Reissner's membrane of the inner ear, it was discovered that the distilled water in the knife trough produced an annoying artefact. It dissolved all the lead phosphate reaction product from the sections, and thus converted a positive phosphatase reactivity to a false negative one. The water in the knife trough had a pH of approximately 5.4. Calculations showed that this is an expected acidity, if CO2 in the air equilibrates with distilled water, and that there is 200,000 times more acid in the trough than necessary to dissolve all the reaction product from a ribbon of ultrathin sections. Experiments showed that the artefact could be avoided by adjusting the pH to neutrality with dilute ammonia.

AB - During an electron microscopical study of the localization of the nucleoside diphosphatase IDPase in Reissner's membrane of the inner ear, it was discovered that the distilled water in the knife trough produced an annoying artefact. It dissolved all the lead phosphate reaction product from the sections, and thus converted a positive phosphatase reactivity to a false negative one. The water in the knife trough had a pH of approximately 5.4. Calculations showed that this is an expected acidity, if CO2 in the air equilibrates with distilled water, and that there is 200,000 times more acid in the trough than necessary to dissolve all the reaction product from a ribbon of ultrathin sections. Experiments showed that the artefact could be avoided by adjusting the pH to neutrality with dilute ammonia.

KW - Acid Anhydride Hydrolases

KW - Animals

KW - Ear, Inner

KW - Guinea Pigs

KW - Hydrogen-Ion Concentration

KW - Microscopy, Electron

KW - Microtomy

KW - Phosphoric Monoester Hydrolases

KW - Water

KW - Journal Article

M3 - Journal article

C2 - 2556583

SN - 0022-2720

VL - 156

SP - 253

EP - 257

JO - Journal of Microscopy

JF - Journal of Microscopy

IS - Pt 2

ER -

Ultrathin sectioning for electron microscopy: the distilled water in the knife trough may extract phosphatase reaction products from the sections

Abstract

Keywords

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