gluconeogenisis.
what is part of it: Glycolysis, Krebs cycle, and the ETC and oxidative phosphorylation.
glucosamine or glucosamine chondroitin
In Glycolysis the Glucose under goes several process and finally they obtain pyruvate. We have 4 ATP and 2 NADH in this pathway. The pathway was given below.
This is called the glycolysis pathway. It begins with glucose and ends with pyruvate before entering the Krebs cycle where ATP (adenosine triphosphate) is generated for energy.
D OXIDATION-REDUCTION REACTION
Glucose getconvertedto carbon bi oxide and water molecule, during oxidation in both the biological oxidation and chemical oxidation. One glucose molecule gives 6 carbon bi oxide and 6 water molecules.(C6H12O6 + 6 O2 = 6 CO2 + H2O.) In biological oxidation glucose is broken down in step wise manner. In about 22 steps, energy is released. So cell does not get burned due to sudden release of energy. So this is like, you come down from the two story building via staircase, step by step. So you do notinjure yourself. In chemical oxidation glucose burn in one step only. So it is like jumping from the two story building. You will get injured. In biological oxidation, you get the intermediate products of low energy. (At few times high energy.) As ultimate products of both biological oxidation and chemical oxidation are same, the energy released is same. Not a photon more or less, provided temperature of glucose and temperature and pressure of end products is same. In biological oxidation, you get some energy stored in body in the form of ATP molecules. Which is utilized for various metabolic processes, required by cell. Rest is released in the form of heat. That is also useful to maintain body temperature. This is in accordance to the Law ofconservationof energy in chemical reactions. It remains constant and can change the form of energy.
The common pathway for oxidation of products of glucose and fatty acids catabolism is referred to as the b-oxidation pathway.
NADPH
The Pentose Phosphate Pathway, in which Glucose-6-phosphate Dehydrogenase catalysizes the oxidation of Glucose-6-phosphate and NADP serves as the electron donor is a source of NADPH. The citrate-malate shuttle between the mitochondria and the citosol is an additional source.http://www.answers.com/pentose+phosphate+pathway
Beta-oxidation is the major pathway by which fatty acids are metabolized. However, there are other minor pathways for fatty acid metabolized. These include alpha-oxidation (for branched fatty acids) and omega-oxidation.
Glucose metabolism
Glycolysis
No. The oxidation of glycogen yields more energy than glucose. You need to put energy in formation of the glycogen from glucose. Naturally, this energy is released, when you get get glucose from glycogen.
by malate aspartate pathway
The make less ATP per glucose than the Embden-Meyerhof-Parnas pathway.
It does not require glucose directly. In cellular respiration any molecule that is within the pathway and is available can be used in cellular respiration. But in lamen explanation glucose is the most popular example used in the beginning of the aerobic repiration pathway.
From the oxidation of glucose.
Glucose can be burnt in air to form water and carbon dioxide or oxidised in biological organisms using the 'krebs cycle'