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High-salt solutions prevent reactivation of euglenoid movement in detergent-treated cell models ofEuglena gracilis (1998)

Murata, K. ; Suzaki, T.

Springer

Protoplasma 203 (1998), S. 125-129

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ISSN: 1615-6102

Keywords: Membrane cytoskeleton ; Euglena gracilis ; Cell movement ; Metaboly ; Cell shape

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Detergent-treated cell models ofEuglena gracilis showed rounded-up movement of the cell body upon addition of ATP and Ca2+. Reactivation of the cell models was inhibited when the cell models had been treated with solutions containing 〉150 mM NaCl or 〉300 mM KC1. When the supernatant of salt-extracted cell models was subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis, two distinctive bands of 120 and 160 kDa were found to be enriched. The cell membrane and associated cytoskeleton (pellicular complex) were isolated after treatment with salt solutions, and examined by electron microscopy to identify essential cortical structures required for reactivating rounding-up cell movement. Among three regularly arranged microtubules, only one and its associated structures were selectively dissolved from the pellicular strips, while the other pellicular elements remained intact. These structures were located in the groove region where sliding between strips is believed to occur during cell shape change. These results suggest a possible involvement of microtubule 2 and its associated bridges in active sliding between adjacent pellicular strips during euglenoid movement.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01279468

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The effect of copper(II) on the Formation of Magnetite from Colloidal Iron (II) Hydroxide (1971)

Inouye, K. ; Murata, K. ; Ishikawa, T.

Weinheim : Wiley-Blackwell

Zeitschrift für anorganische Chemie 386 (1971), S. 340-344

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ISSN: 0044-2313

Keywords: Chemistry ; Inorganic Chemistry

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Chemistry and Pharmacology

Description / Table of Contents: Die Geschwindigkeit der Selbstzersetzung von Fe(OH)2 unter Luftausschluß wurde unter Zusatz von Cu(II) (0-6 Atom-%) bei 30 bis 50°C bestimmt. Das Maximum der Geschwindigkeit und ein Minimum der Aktivierungsenergie tritt bei 1% Cu/Fe auf. Dies wird zwei gleichzeitig wirksamen Einflüssen des Cu zugeschrieben: Erstens der Verzerrung des Koordinationskomplexes durch Cu2+, die die Strukturumwandlung in Magnetit erleichtert, dagegen wirkt negativ der Einfluß des Cu, der zur Vergrößerung der Fe(OH)2-Kristalle führt. Röntgenaufnahmen und elektronenmikroskopische Beobachtungen bestätigen die Annahme.

Notes: The rate of self-decomposition of iron(II) hydroxide doped with various amounts (0-6 atomic%) of Cu(II) was determined in the absence of oxygen at the temperature range of 30 to 50°C. The maximum rate and the minimum activation energy were observed at 1% Cu/Fe. The result was attributed to the two simultaneous actions of Cu2+, i.e., the distortion effect on coordination complex of Fe2+ by Cu2+ to ease the structural transformation to magnetite and the hindering effect on magnetite formation revealed consequently in the growth of Fe(OH)2 crystals. Both effects were proved by X-ray diffraction and election-microscopic observations.

Additional Material: 5 Ill.