The Calvin cycle is called a cycle because it is a series of biochemical reactions that regenerate the starting molecule. The cycle starts with a 5-carbon molecule (RuBP) and ends with the regeneration of RuBP, allowing the process to continue in a cyclic manner.
Through Crebs' cycle in aerobic respiration
Glycolysis is sometimes referred to as the hexose diphosphate pathway because it involves the breakdown of a six-carbon sugar molecule (hexose) into two molecules of three-carbon sugar phosphate (diphosphate) intermediates. These diphosphate molecules are then further processed to produce energy for the cell.
In the noncyclic pathway of photosynthesis, electrons from water are used to generate NADPH and ATP to drive the Calvin cycle. This pathway involves both Photosystem I and II working together to produce energy-rich molecules for carbon fixation. It is essential for the production of organic compounds in plants.
A commonly used radioisotope for tracing molecules in organisms is Carbon-14 (C-14). It is a radioactive isotope of carbon that can replace normal carbon in molecules like glucose or amino acids, allowing researchers to track their movement and interactions in biological systems. The decay of C-14 emits radiation that can be detected to monitor the pathway of the labeled molecules.
The pathway by which carbon is transferred from living biota to the atmosphere is called
I don't know if this is answering your question, but photosynthesis produces molecules of oxygen.
Anabolic reactions use energy to build complex molecules. These reactions include processes like protein synthesis and photosynthesis, where smaller molecules are combined to form larger, more complex molecules.
The Calvin cycle is called a cycle because it is a series of biochemical reactions that regenerate the starting molecule. The cycle starts with a 5-carbon molecule (RuBP) and ends with the regeneration of RuBP, allowing the process to continue in a cyclic manner.
Through Crebs' cycle in aerobic respiration
Glycolysis is sometimes referred to as the hexose diphosphate pathway because it involves the breakdown of a six-carbon sugar molecule (hexose) into two molecules of three-carbon sugar phosphate (diphosphate) intermediates. These diphosphate molecules are then further processed to produce energy for the cell.
Some molecules only contain Carbon and Hydrogen. They are called Hydrocarbons.
They are called macromolecules.
fermentation
The Krebs cycle produces NADH, ATP, and two pyruvate molecules. The electron transport chain generates a large amount of ATP by oxidative phosphorylation. The Calvin cycle is involved in carbon fixation during photosynthesis. Glycolysis, on the other hand, is a metabolic pathway that breaks down glucose to produce ATP and pyruvate.
In the noncyclic pathway of photosynthesis, electrons from water are used to generate NADPH and ATP to drive the Calvin cycle. This pathway involves both Photosystem I and II working together to produce energy-rich molecules for carbon fixation. It is essential for the production of organic compounds in plants.
A commonly used radioisotope for tracing molecules in organisms is Carbon-14 (C-14). It is a radioactive isotope of carbon that can replace normal carbon in molecules like glucose or amino acids, allowing researchers to track their movement and interactions in biological systems. The decay of C-14 emits radiation that can be detected to monitor the pathway of the labeled molecules.