Obesity can have hormonal causes, but it is generally the result of overnutrition and lack of exercise. Elevated plasma fatty acids have been implicated in the development of type 2 diabetes. How does this affect metabolism? O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward glycolysis and away from B-oxidation. In addition, the liver is also increasing glycolysis and B-oxidation due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward amino acid metabolism and away from gluconeogenesis. In addition, the liver is increasing B-oxidation and gluconeogenesis due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue away from B-oxidation and toward gluconeogenesis. The liver is increasing B-oxidation and lowering rates of gluconeogenesis due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward B-oxidation and away from glycolysis. In addition, the liver is also increasing B-oxidation and gluconeogenesis due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward B-oxidation and away from gluconeogenesis. In addition, the liver is increasing B-oxidation and lowering rates of gluconeogenesis due to elevated fatty acids.

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Obesity can have hormonal causes, but it is generally the result of overnutrition and lack of exercise. Elevated plasma fatty acids have been implicated in the development of type 2 diabetes. How does this affect metabolism? O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward glycolysis and away from B-oxidation. In addition, the liver is also increasing glycolysis and B-oxidation due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward amino acid metabolism and away from gluconeogenesis. In addition, the liver is increasing B-oxidation and gluconeogenesis due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue away from B-oxidation and toward gluconeogenesis. The liver is increasing B-oxidation and lowering rates of gluconeogenesis due to elevated fatty acids. O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward B-oxidation and away from glycolysis. In addition, the liver is also increasing B-oxidation and gluconeogenesis due to elevated fatty acids. from O The influx of fatty acids to muscle cells shifts metabolism in that tissue toward B-oxidation and away gluconeogenesis. In addition, the liver is increasing B-oxidation and lowering rates of gluconeogenesis due to elevated fatty acids.