Answer:
materials/out
Explanation:
Physical limits on the flow of <u>materials</u> into and <u>out</u> of the cell prevent most cells from being too large.
<em>The limitation of the kind and amount of materials that flow into and out of the cell prevents the cell from being too large. The function of selectively allowing materials to enter and leave the cell is carried out by the cell membrane. While being permissible to some materials, it shuts some materials off and, thus, the size of the cell is maintained. </em>
Answer:
Along a divergent plate boundary. I think that's the answer.
The nitrogen produced when muscles break down amino acids for energy is transaminated to pyruvate to create alanine. The alanine transaminase (ALT) enzyme does this by converting L-glutamate and pyruvate into -ketoglutarate and L-alanine.
Pyruvic acid is transformed into acetyl coenzyme A, which enters the Krebs cycle, an energy-producing mechanism, if oxygen is present. Lactic acid is produced when pyruvic acid is depleted of oxygen. The body also uses this substance to create alanine. Lactate dehydrogenase is an enzyme that cells employ to convert the pyruvic acid that glucose produces into lactic acid and energy. Pyruvate and branched chain amino acids like valine, leucine, and isoleucine can be used to make alanine. Pyruvate is reductively aminated in two steps to yield alanine. Glutamate dehydrogenase converts -ketoglutarate, ammonia, and NADH into glutamate, NAD+, and water in the first step.
To learn more about pyruvate click the link below:
brainly.com/question/9507938
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Answer:
<em>Aerobic respiration occurs in the steps:</em>
Glycolysis--> respiration--> ETC
<em>(see images for flow chart)</em>
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Explanation:
The mitochondria inside the cell's cytoplasm is an organelle. It consists of a gel-like material comprising an outer membrane, an inner membrane, and a matrix. In mitochondria, cells break down sugars in the form of glucose during aerobic respiration, in the presence of oxygen...
This occurs via glycolysis, the Kreb's cyle, and the electron transport chain (ETC)
C6H12O6 (glucose) + 6 O2 → 6 CO2 + 6 H2O + ≅38 ATP
glucose + oxygen → carbon dioxide+ water+ energy