1,720,961 research outputs found
Rat thyroid phosphofructokinase. Comparison of the regulatory and molecular properties with those of rat muscle enzyme.
No full textThe kinetic and molecular properties of rat thyroid phosphofructokinase (specific activity 134 units/mg) were compared with those of rat muscle phosphofructokinase (specific activity 135 units/mg). Thyroid and muscle phosphofructokinase showed similar sedimentation patterns in sucrose density gradients; their affinity for DEAE-cellulose was similar but not identical. A comparison of the kinetic properties revealed differences in the pH optima. Striking differences in the kinetic properties were shown below pH 7.4; the thyroid enzyme was less inhibited by ATP or citrate and more sensitive to activation by cyclic 3':5'-AMP than the muscle enzyme. A study of the effects of some cyclic as well as linear mononucleotides, such as cyclic AMP, cyclic IMP, cyclic GMP, cyclic CMP, cyclic UMP, 5'-AMP, and 3'-AMP on thyroid phosphofructokinase showed that at concentrations as low as 1 micrometer only cyclic AMP and cyclic IMP were able to activate thyroid enzyme in the presence of low fructose-6-P and high ATP concentrations
[Presence of various protein kinases and of partially copurified endogenous substrates in the soluble fraction of an experimental tumor of the rat thyroid gland].
No full textDifferences in phosphofructokinase regulation in normal and tumor rat thyroid cells.
No full textThe kinetic and molecular properties of a phosphofructokinase derived from a transplantable rat thyroid tumor lacking regulatory control on the glycolytic pathway were studied. The properties of the near-purified enzyme (specific activity 140 units/mg) were compared with those of phosphofructokinase from normal rat thyroid (specific activity 134 units/mg). The electrophoretic mobilities and gel elution behavior of these two enzymes were almost similar. The thyroid tumor phosphofructokinase showed, however, a greater degree of size and/or shape heterogeneity in the presence of ATP than the normal thyroid enzyme, as determined by gel filtration and sucrose density gradient centrifugation. Kinetic studies below pH 7.4 showed a sigmoid response curve for both enzymes when the velocity was determined at 1 mM ATP with varying levels of fructose-6-P. The interaction coefficient, however, was 4.2 and 2.6 for normal and tumor thyroid phosphofructokinase, respectively. Ammonium sulfate decreased the cooperative interactions with the substrate fructose-6-P in both enzymes. The thyroid tumor enzyme, however, was less sensitive to the inhibition by ATP and by citrate. The reversal of citrate inhibition by cyclic 3':5'-adenosine monophosphate was also less effective with the thyroid tumor phosphofructokinase, while the protective effect of fructose-6-P was stronger. The difference in citrate inhibition between tumor and normal thyroid enzyme was not strongly affected by varying the MgCl2 concentration up to 10 mM. It is concluded that the complex allosteric regulation typical of the normal thyroid phosphofructokinase is still present in the enzyme isolated from the thyroid tumor tissue. The latter, however, is more loosely controlled by its physiological effectors, such as ATP, citrate, and cyclic AMP
[Subcellular distribution of the protein kinase activity in the normal and neoplastic thyroid tissue of the rat].
No full textThyroid tissue has been fractionnated by centrifugation (105 000 q) of its homogenate. Protein-kinase activity in presence of histone is distributed in nuclei (11.5%) mitochondira (22.8%), microsomes (9.8%) and soluble fraction (56%); it is activated by cyclic AMP and GMP, mostly in soluble and nuclear fractions. Protein-kinase activity of total homogenate of neoplasic thyroid (strain 1-5G Wollman) in presence of histone is 3 times higher than in normal tissue and more activated by cAMP. In absence of histone, protein-kinase activity is the more important in mitochondrial and microsomal fractions of normal thyroid and in soluble and nuclear fraction of neoplastic tissue
Alteration in the trasmission of TSH-message to thyroid target in a transplantable rat thyroid tumor
No full textAlteration in the trasmission of TSH-message to thyroid target in a transplantable rat thyroid tumor
No full text
Effects of thyrotropin on the thyroid cell membrane: hyperpolarization induced by hormone-receptor interaction
No full text
- …
