Which of the following glycolytic enzymes is used in gluconeogenesis?
Which of the following glycolytic enzymes is used in gluconeogenesis?
The correct descriptions include ( ) A: Insulin can activate gluconeogenesis B: Insulin can activate PFK-2 C: Glucagon can activate FBPase-2 D: Glucagon can activate gluconeogenesis
The correct descriptions include ( ) A: Insulin can activate gluconeogenesis B: Insulin can activate PFK-2 C: Glucagon can activate FBPase-2 D: Glucagon can activate gluconeogenesis
In mammals, gluconeogenesis in the liver, kidney, and small intestine provides glucose for use by the ______, _______, and erythrocytes.
In mammals, gluconeogenesis in the liver, kidney, and small intestine provides glucose for use by the ______, _______, and erythrocytes.
Animal cells can carry out gluconeogenesis from three- and four-carbon precursors, but not from the two acetyl carbons of acetyl-CoA.
Animal cells can carry out gluconeogenesis from three- and four-carbon precursors, but not from the two acetyl carbons of acetyl-CoA.
Which of the following cannot be used as a material for<br/>gluconeogenesis() A: Acetyl CoA B: Pyruvate C: Glycerin D: All of the above E: None of the above
Which of the following cannot be used as a material for<br/>gluconeogenesis() A: Acetyl CoA B: Pyruvate C: Glycerin D: All of the above E: None of the above
The blood glucose directly come from A: liver glycogen decomposition B: muscle glycogen decomposition C: digestion and absorption of dietary carbohydrates D: gluconeogenesis in liver E: glucose reabsorption in kidney
The blood glucose directly come from A: liver glycogen decomposition B: muscle glycogen decomposition C: digestion and absorption of dietary carbohydrates D: gluconeogenesis in liver E: glucose reabsorption in kidney
The metabolic changes in the body during starvation are A: hepatic gluconeogenesis increases B: free fatty acids in blood reduce C: the levels of ketone bodies in blood increase D: hepatic glycogen breakdown enhances
The metabolic changes in the body during starvation are A: hepatic gluconeogenesis increases B: free fatty acids in blood reduce C: the levels of ketone bodies in blood increase D: hepatic glycogen breakdown enhances
Which<br/>of the following are incorrectly paired? () A: Epinephrine:increased glycogenolysis in skeletal muscle B: Insulin:increased protein synthesis C: Glucagon:increased gluconeogenesis D: Progesterone:increased plasma glucose level E: Growth hormone:increased<br/>plasma glucose level
Which<br/>of the following are incorrectly paired? () A: Epinephrine:increased glycogenolysis in skeletal muscle B: Insulin:increased protein synthesis C: Glucagon:increased gluconeogenesis D: Progesterone:increased plasma glucose level E: Growth hormone:increased<br/>plasma glucose level
The human erythrocyte loses its nucleus and mitochondria during differentiation. It therefore relies on _________ alone for its supply of ATP. The lactate produced by glycolysis returns to the liver, where gluconeogenesis converts it to glucose, to be stored as glycogen or recirculated to peripheral tissues. The erythrocyte has constant access to glucose in the bloodstream.
The human erythrocyte loses its nucleus and mitochondria during differentiation. It therefore relies on _________ alone for its supply of ATP. The lactate produced by glycolysis returns to the liver, where gluconeogenesis converts it to glucose, to be stored as glycogen or recirculated to peripheral tissues. The erythrocyte has constant access to glucose in the bloodstream.
Children with kwashiorkor usually have a fatty liver. This is the result of which one of the following A: The high fat content of their diet B: The high carbohydrate content of their diet C: The high protein content of their diet D: The lack of substrates for gluconeogenesis in the live E: The lack of substrates for protein synthesis in the live F: The lack of substrates for glycogen synthesis in the live
Children with kwashiorkor usually have a fatty liver. This is the result of which one of the following A: The high fat content of their diet B: The high carbohydrate content of their diet C: The high protein content of their diet D: The lack of substrates for gluconeogenesis in the live E: The lack of substrates for protein synthesis in the live F: The lack of substrates for glycogen synthesis in the live