The ship could stay afloat with as many as ___________ watertight compartments flooded?
The ship could stay afloat with as many as ___________ watertight compartments flooded?
中国大学MOOC: A hypha divided into compartments by cross walls is called
中国大学MOOC: A hypha divided into compartments by cross walls is called
The decrease of GFR can induce edema due to imbalance of fluid interchange between plasma and interstitial compartments.
The decrease of GFR can induce edema due to imbalance of fluid interchange between plasma and interstitial compartments.
A hypha divided into compartments by cross walls is called A: nonseptate B: imperfect C: septate D: perfect
A hypha divided into compartments by cross walls is called A: nonseptate B: imperfect C: septate D: perfect
A hypha divided into compartments by solid walls is called ________. A: nonseptate B: imperfect C: septate D: perfect
A hypha divided into compartments by solid walls is called ________. A: nonseptate B: imperfect C: septate D: perfect
The decrease of GFR can induce edema due to imbalance of fluid interchange between plasma and interstitial compartments. A: 正确 B: 错误
The decrease of GFR can induce edema due to imbalance of fluid interchange between plasma and interstitial compartments. A: 正确 B: 错误
23. The disinfection of various compartments in a vessel by filling with a gaseous agent to destroy rats and all insects pests which act as germ carriers means _____.
23. The disinfection of various compartments in a vessel by filling with a gaseous agent to destroy rats and all insects pests which act as germ carriers means _____.
Today's compartments on the train are ___________ and well-equipped, so the travels have become comfortable and safe. A: exotic B: intact C: compact D: shabby
Today's compartments on the train are ___________ and well-equipped, so the travels have become comfortable and safe. A: exotic B: intact C: compact D: shabby
If fatty acid synthesis and β oxidation were to proceed simultaneously, the two processes would constitute a futile cycle, wasting energy. We noted earlier that β oxidation is blocked by malonyl-CoA, which inhibits carnitine acyltransferase I. Thus, during fatty acid synthesis, production of the first intermediate, malonyl-CoA, shuts down β oxidation at the level of a transport system in the inner mitochondrial membrane. This control mechanism illustrates another advantage of segregating synthetic and degradative pathways in different cellular compartments.
If fatty acid synthesis and β oxidation were to proceed simultaneously, the two processes would constitute a futile cycle, wasting energy. We noted earlier that β oxidation is blocked by malonyl-CoA, which inhibits carnitine acyltransferase I. Thus, during fatty acid synthesis, production of the first intermediate, malonyl-CoA, shuts down β oxidation at the level of a transport system in the inner mitochondrial membrane. This control mechanism illustrates another advantage of segregating synthetic and degradative pathways in different cellular compartments.