Gene/Protein
Disease
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Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
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Enzyme
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Target Concepts:
Gene/Protein
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Query: UNIPROT:P20020 (
adenosine triphosphatase
)
3,299
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The aim of this study was to investigate to what degree the capillarization in the skeletal muscle explains the leg blood flow (LBF) changes during hyperinsulinaemia. Fifteen normotensive men from a population-based cohort of 70-year-old men in Uppsala, Sweden, were investigated. Their metabolic status (oral glucose tolerance test and euglycemic, hyperinsulinaemic clamp test results), serum lipid profile, muscle fiber distribution (myosin
adenosine triphosphatase
staining), and capillary supply (amylase-periodic acid-Schiff method) was evaluated. Doppler ultrasound was used before and after the clamp test to detect insulin-induced changes in LBF. Physiologic
hyperinsulinemia
(serum insulin, 107 mU/L) caused a moderate increase in LBF (15% +/- 11%; P =.07). Change in LBF was closely related to capillary density (r =.66; P <.01) independent of obesity, smoking and level of physical activity. An association was observed between LBF and serum free fatty acid (FFA) concentrations (r = -.57; P <.05). In multiple regression analysis, capillary density and serum FFA level together explained 71% of the variation in insulin-mediated LBF changes. Capillary rarefaction and elevated serum FFA values were associated with a vasoconstrictive effect of insulin. In conclusion, capillarization in skeletal muscle and serum FFA concentration seem to be determinants of endothelial function.
...
PMID:Insulin-mediated changes in leg blood flow are coupled to capillary density in skeletal muscle in healthy 70-year-old men. 1155 42
Due to their implication in numerous diseases like cancer, cystic fibrosis, epilepsy,
hyperinsulinism
, heart failure, hypertension, and Alzheimer disease, membrane proteins (MPs) represent around 50% of drug targets. However, only 204 crystal structures of MPs have been solved. Structural analysis requires large quantities of pure and active proteins. The majority of medically and pharmaceutically relevant MPs are present in tissues at low concentration, which makes heterologous expression in large-scale production-adapted cells a prerequisite for structural studies. The yeast Saccharomyces cerevisiae is a convenient host for the production of mammalian MPs for functional and structural studies. Like bacteria, they are straightforward to manipulate genetically, are well characterized, can be easily cultured, and can be grown inexpensively in large quantities. The advantage of yeast compared to bacteria is that they have protein-processing and posttranslational modification mechanisms related to those found in mammalian cells. The recombinant rabbit muscle Ca(2+)-ATPase (
adenosine triphosphatase
), the first heterologously expressed mammalian MP for which the crystal structure was resolved, has been produced in S. cerevisiae. In this chapter, the focus is on expression of recombinant human integral MPs in a functional state at the plasma membrane of the yeast S. cerevisiae. Optimization of yeast culture and of MP preparations is detailed for two human receptors of the Hedgehog pathway: Patched and Smoothened.
...
PMID:Heterologous expression of human membrane receptors in the yeast Saccharomyces cerevisiae. 2009 41
