Thomas Burkart scite author profile

A 17,000 g supernatant of mouse brain microsomes was subfractionated on a continuous sucrose gradient in order to localise ceramide galactosyltransferase (CGalt, EC 2.4.1.47) and cerebroside sulphotransferase (CST, EC 2.8.2.1 l), both enzymes involved in the synthesis of myelin lipids. The submicrosomal fractions were analysed for marker enzymes of myelin, plasma membranes, Golgi membranes, endoplasmic reticulum and lysosomes, and their protein distribution was studied. The results and EM studies give evidence that CGalT and CST are located in the Golgi membranes of the brain.

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Synthesis of lipids in mouse brain cell cultures during development

Siegrist

Bologa-Sandru

Burkart

et al. 1981

J of Neuroscience Research

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Several metabolic activities in dissociated cultures of newborn mouse brain were compared to the situation in vivo. The developmental activity pattern of cerebroside-sulfotransferase, cyclic nucleotide phosphohydrolase, and beta-hydroxy-beta-methyl glutaryl-coenzyme A-reductase and the synthesis and deposition of sulfatide and cholesterol in culture were estimated. The enzyme activity patterns in vivo and in culture are the same. Since the cultures show very little myelin formation, the parallel increase of enzyme activities necessary for myelination in vivo and in culture suggest the existence of intrinsic factors regulating the biochemical differentiation. In addition, the formation of the products, determined in culture, follows the patterns of the enzyme activities. Dissociated brain cell cultures are therefore a valid model for the study of biochemical parameters related to the synthesis of brain lipids during development.

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INFLUENCE OF LIPIDS ON THE ACTIVITY OF CEREBROSIDE‐SULPHOTRANSFERASE IN MOUSE BRAIN: A COMPARATIVE STUDY OF JIMPY AND NORMAL MOUSE BRAINS ¹

Siegrist¹,

Burkart²,

Steck³

et al. 1976

Journal of Neurochemistry

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The effect of lipids other than the substrate cerebroside o n the activity of cerebroside-sulphotransferase (CST) i n Jimpy and normal mouse brain was investigated.The enzyme activity of an acetone-treated microsomal preparation can be stimulated in the presence of the extracted lipids either with or without addition or exogenous ccrebroside as a substrate.The CST activity in the Jimpy mutant compared to that i n normal animals differs from 18"" in homogenate to approx 80:; in solubilized or acetone-extracted microsomes.An addition of total lipid from normal mouse brain to microsomal preparations from which lipid has been removed by acetone results in a stimulation of Jimpy CST activity u p to a value of 800; of normal mouse brain microsomes.Both Jimpy and normal mouse brain CST can be also stimulated by the addition of single lipid components such as cholesterol and lecithin by 50:/, in normal and loo", in Jimpy brain microsomes.These findings lead to the hypothesis that there is a lipid requirement for CST activity other than the substrate cerehroside.

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Net sulfatide synthesis, galactosylceramide sulfotransferase and arylsulfatase a activity in the developing cerebrum and cerebellum of normal mice and myelin-deficient jimpy mice

Burkart

Wiesmann

Siegrist

et al. 1981

Biochimica et Biophysica Acta (BBA) - General Subjects

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Contribution of frequency-augmented inward Ca²⁺current to myocardial contractility

Parilak

Taylor

Song

et al. 2009

Can. J. Physiol. Pharmacol.

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The sarcoplasmic reticular Ca2+ pump (SERCA) is thought to be the primary determinant of heart rate-dependent increases in myocardial contractile [Ca2+]i and force (force-frequency relationship (FFR)), an important mechanism to increase cardiac output. This report demonstrates a rate-dependent role for inward Ca2+ current (ICa) in the human and rat FFR. Human action potential plateau height increased linearly with contractility when heart rate increased in vivo, as measured by monophasic action potential catheter and echocardiography. Rat rate-dependent developed force and cytosolic [Ca2+]i transients were quantified in isolated left ventricular papillary muscles, and ICa and action potential duration in cardiomyocytes. ICa and SERCA measurements better reflected [Ca2+]i and force transients than SERCA activity alone. These data support a direct and (or) indirect contribution to myocardial contractility by ICa at heart rates from approximately 1 to 3-4 Hz (60 to 180-240 bpm) in tandem with SERCA to sustain the typical 'bell shape' of the FFR across species.

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Thomas Burkart

Ceramide‐galactosyltransferase and Cerebroside‐sulphotransferase Localisation in Golgi Membranes Isolated by a Continuous Sucrose Gradient of Mouse Brain Microsomes

Synthesis of lipids in mouse brain cell cultures during development

INFLUENCE OF LIPIDS ON THE ACTIVITY OF CEREBROSIDE‐SULPHOTRANSFERASE IN MOUSE BRAIN: A COMPARATIVE STUDY OF JIMPY AND NORMAL MOUSE BRAINS ¹

Net sulfatide synthesis, galactosylceramide sulfotransferase and arylsulfatase a activity in the developing cerebrum and cerebellum of normal mice and myelin-deficient jimpy mice

Contribution of frequency-augmented inward Ca²⁺current to myocardial contractility

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Thomas Burkart

Ceramide‐galactosyltransferase and Cerebroside‐sulphotransferase Localisation in Golgi Membranes Isolated by a Continuous Sucrose Gradient of Mouse Brain Microsomes

Synthesis of lipids in mouse brain cell cultures during development

INFLUENCE OF LIPIDS ON THE ACTIVITY OF CEREBROSIDE‐SULPHOTRANSFERASE IN MOUSE BRAIN: A COMPARATIVE STUDY OF JIMPY AND NORMAL MOUSE BRAINS 1

Net sulfatide synthesis, galactosylceramide sulfotransferase and arylsulfatase a activity in the developing cerebrum and cerebellum of normal mice and myelin-deficient jimpy mice

Contribution of frequency-augmented inward Ca2+current to myocardial contractility

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Product

Resources

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INFLUENCE OF LIPIDS ON THE ACTIVITY OF CEREBROSIDE‐SULPHOTRANSFERASE IN MOUSE BRAIN: A COMPARATIVE STUDY OF JIMPY AND NORMAL MOUSE BRAINS ¹

Contribution of frequency-augmented inward Ca²⁺current to myocardial contractility