Julian Gruda scite author profile

A method of affinity chromatography based on the trapping of actin filaments within agarose gel beads is described. This method can be used for the purification of myosin and its active proteolytic subfragments, as well as for studies on the interaction between actin and these proteins. Actin columns stabilized by phalloidin bind myosin, heavy meromyosin (HMM), and heavy meromyosin subfragment 1 (HMM-S1) specifically and reversibly. The effect of pyrophosphate and KCl on the dissociation of actomyosin, acto-HMM, or acto-HMM-S1 complex is reported. We also describe the single-step purification of myosin from a crude rabbit psoas muscle extract.

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Structural study on liver gelactin

Gruda¹,

Thérien²

1984

Can. J. Biochem. Cell Biol.

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Electron microscopy, ultracentrifugation, gel filtration, and isoelectric focusing were carried out with gelactin, an actin-gelling protein from rabbit liver. Gelactin is a dimeric acidic protein (isoelectric point (pI) = 5.45), with a molecular weight of 190 000, a Svedberg constant of 6.25, and a Stoke's radius and length of 7.0 and 28 nm, respectively. While different from alpha-actinin by pI and amino acid composition, gelactin belongs by its dimensions to the class of alpha-actinins.

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The effects of calcium and magnesium ions on the secondary structure of calcium binding component of troponin

Gruda

Thérien²,

Cermakian³

1973

Biochemical and Biophysical Research Communications

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Effect of liver plasma membranes on G-actin. I. Possible implication of membrane NPases in inactivation of G-actin

Gruda¹,

Pollender²,

Thérien³

1983

Can. J. Biochem. Cell Biol.

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G-actin incubated in the presence of a liver fraction enriched in plasma membranes is rapidly inactivated, as indicated by the biphasic loss of polymerizability and DNase inhibition. The rates of inactivation as measured by viscosity are greatly influenced by temperature, but almost independent of membrane concentrations at least in the low range of concentrations tested (less than 250 micrograms protein/ml). The loss of DNase inhibition capacity proceeds at rates two to three times slower than the loss of polimerizability. The inactivation of actin in the presence of membranes cannot be attributed to proteolysis nor to a phosphorylation of actin by membranes. However, it is shown that in the course of the incubation, medium ATP is rapidly converted into AMP and adenosine and that the destruction of ATP is almost complete at the start of the inactivation process. A mechanism is presented relating the destruction of ATP to actin inactivation.

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Julian Gruda

Effect of phalloidin on actin proteolysis as measured by viscometry and fluorimetry

Affinity chromatography of myosin, heavy meromyosin, and heavy meromyosin subfragment one on F-actin columns stabilized by phalloidin

Structural study on liver gelactin

The effects of calcium and magnesium ions on the secondary structure of calcium binding component of troponin

Effect of liver plasma membranes on G-actin. I. Possible implication of membrane NPases in inactivation of G-actin

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