Magnesium is necessary in the glycolytic cycle that converts sugar to ATP. Magnesium is also the mineral that helps stabilize ATP in the cell.
Ribose is part of the structure of ATP nucleotides and nucleic acids.
The structure of ATP usually has an ordered carbon compound as a backbone, but the most critical part is the phosphorous part, the triphosphate.
A dynamic structure that stabilizes cells lacking a cell wall (=animal cells). It consists out of microtubules, intermediate filaments and actin filaments.
Some ATP is produced by the glycolytic pathway which is located in the cytoplasm. Most is synthesized by the protein ATP synthase, which is found in the mitochondrion.
Magnesium is necessary in the glycolytic cycle that converts sugar to ATP. Magnesium is also the mineral that helps stabilize ATP in the cell.
non polar bond
Ribose is part of the structure of ATP nucleotides and nucleic acids.
The structure of ATP usually has an ordered carbon compound as a backbone, but the most critical part is the phosphorous part, the triphosphate.
At least 10 protons pass through ATP synthase in order to make a molecule of ATP.
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Metabolic molecules (ATP) Structure (phospholipids)
A dynamic structure that stabilizes cells lacking a cell wall (=animal cells). It consists out of microtubules, intermediate filaments and actin filaments.
The mitochondria.
ATP contains energy in the chemical bonds between its phosphate groups.
The ATP is a complicated phosphate-adenosine structure. Your stomach acids would just completely destroy it.
Some ATP is produced by the glycolytic pathway which is located in the cytoplasm. Most is synthesized by the protein ATP synthase, which is found in the mitochondrion.