Results 291 to 300 of about 5,522,237 (352)
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Current Rheumatology Reports, 2010
We consider recent developments in disorders affecting three areas of metabolism: glycogen, fatty acids, and the mitochondrial respiratory chain. Among the glycogenoses, new attention has been directed to defects of glycogen synthesis resulting in absence rather than excess of muscle glycogen ("aglycogenosis").
DiMauro S., Garone C., Naini A.
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We consider recent developments in disorders affecting three areas of metabolism: glycogen, fatty acids, and the mitochondrial respiratory chain. Among the glycogenoses, new attention has been directed to defects of glycogen synthesis resulting in absence rather than excess of muscle glycogen ("aglycogenosis").
DiMauro S., Garone C., Naini A.
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2014
Much has been learned about the metabolism and pharmacokinetics of ethanol through study of the enzymes participating in its metabolism, the effects of genetic variants in these enzymes on risk of alcoholism and ethanol pharmacokinetics, and pharmacokinetic modeling. Despite the short, well-characterized metabolic pathway and straightforward absorption
Martin H, Plawecki, David W, Crabb
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Much has been learned about the metabolism and pharmacokinetics of ethanol through study of the enzymes participating in its metabolism, the effects of genetic variants in these enzymes on risk of alcoholism and ethanol pharmacokinetics, and pharmacokinetic modeling. Despite the short, well-characterized metabolic pathway and straightforward absorption
Martin H, Plawecki, David W, Crabb
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Applied Microbiology and Biotechnology, 2001
Metabolic engineering has developed as a very powerful approach to optimising industrial fermentation processes through the introduction of directed genetic changes using recombinant DNA technology. Successful metabolic engineering starts with a careful analysis of cellular function; based on the results of this analysis, an improved strain is designed
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Metabolic engineering has developed as a very powerful approach to optimising industrial fermentation processes through the introduction of directed genetic changes using recombinant DNA technology. Successful metabolic engineering starts with a careful analysis of cellular function; based on the results of this analysis, an improved strain is designed
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Mechanisms and implications of the gut microbial modulation of intestinal metabolic processes
npj Metabolic Health and DiseaseIntestine-exclusive metabolic processes involve the degradation of dietary components and xenobiotics through intricate and dynamic interactions between the host epithelial cells and gut microbiota.
Jyoti, Priyankar Dey
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Axolotl Metabolism: Measuring Metabolic Rate
2022Deciphering how metabolic processes contribute to control of stem cell proliferation and differentiation is essential for understanding the mechanisms of regeneration. However, much is still unknown about axolotls' metabolism, which has not been studied in detail over their lifespan or under varied experimental conditions.
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Seminars in Pediatric Neurology, 1996
Disorders of glycogen, lipid or mitochondrial metabolism may cause two main clinical syndromes, namely (1) progressive weakness (eg, acid maltase, debrancher enzyme, and brancher enzyme deficiencies among the glycogenoses; long- and very-long-chain acyl-CoA dehydrogenase (LCAD, VLCAD), and trifunctional enzyme deficiencies among the fatty acid ...
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Disorders of glycogen, lipid or mitochondrial metabolism may cause two main clinical syndromes, namely (1) progressive weakness (eg, acid maltase, debrancher enzyme, and brancher enzyme deficiencies among the glycogenoses; long- and very-long-chain acyl-CoA dehydrogenase (LCAD, VLCAD), and trifunctional enzyme deficiencies among the fatty acid ...
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Metabolic Fluxes and Metabolic Engineering
Metabolic Engineering, 1999Metabolic engineering is the directed improvement of cellular properties through the modification of specific biochemical reactions or the introduction of new ones, with the use of recombinant DNA technology. As such, metabolic engineering emphasizes metabolic pathway integration and relies on metabolic fluxes as determinants of cell physiology and ...
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Current Opinion in Chemical Biology, 1999
The understanding of iron metabolism at the molecular level has been enormously expanded in recent years by new findings about the functioning of transferrin, the transferrin receptor and ferritin. Other recent developments include the discovery of the hemochromatosis gene HFE, identification of previously unknown proteins involved in iron transport ...
P, Aisen +2 more
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The understanding of iron metabolism at the molecular level has been enormously expanded in recent years by new findings about the functioning of transferrin, the transferrin receptor and ferritin. Other recent developments include the discovery of the hemochromatosis gene HFE, identification of previously unknown proteins involved in iron transport ...
P, Aisen +2 more
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Metabolism and Metabolic Regulation
2010The data available on GHR−/− at all ages. Glucose levels, which are very low in young animals, seem to normalize at older ages. Insulin levels remain significantly lower than normal throughout the lifespan of GHR−/− mice. Together, these data suggest that insulin sensitivity decreases only slightly as GHR−/− mice age.
Lucila Sackmann-Sala +2 more
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Critical Reviews in Oncology/Hematology, 2006
Life-threatening metabolic complications observed in cancer patients are: hypercalcaemia, hyponatremia, hyperurcaemia, tumour lysis syndrome, hypoglycaemia, hyperuremia and hypercreatininemia secondary to renal failure, hyperammoniemia, lactic acidosis and adrenal failure.
Silvia, Spinazzé, Dirk, Schrijvers
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Life-threatening metabolic complications observed in cancer patients are: hypercalcaemia, hyponatremia, hyperurcaemia, tumour lysis syndrome, hypoglycaemia, hyperuremia and hypercreatininemia secondary to renal failure, hyperammoniemia, lactic acidosis and adrenal failure.
Silvia, Spinazzé, Dirk, Schrijvers
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