net gain of carbon atom is 8 in kreb cycle
Acetly CoA is formed before the process and enters the cycle. It is processed through a series of reactions that extract electrons and hydrogen ions. A small amount of ATP is produced and carbon dioxide is released.
The purpose of the Krebs Cycle is basically to produce NADH+H and FADH2. Pyruvic acid enters the Krebs Cycle than goes through a series of reactions and the final product is six NADH+H and two FADH2. These energy carriers are than sent to the electron transport chain. The Krebs cycle goes around twice for every molecule.
this is reaction done by micro organisms in this oxidation reaction taking place between oxygen and carbohydrate/ fat/ proteins. from this main product is energy gain by micro organisms and by product CO2 and water given out . this CO2 and water taken by plant to from carbohydrate/ fat/ protein. such a way this cycle take place.
Atoms gain lose or share valence electrons in a way that makes the atoms more stable
Since a carbon atom has 4 electrons in its outer shell, it does not have the stable arrangement of 8, which it can gain by sharing electrons with other atoms.
Acetly CoA is formed before the process and enters the cycle. It is processed through a series of reactions that extract electrons and hydrogen ions. A small amount of ATP is produced and carbon dioxide is released.
The purpose of the Krebs Cycle is basically to produce NADH+H and FADH2. Pyruvic acid enters the Krebs Cycle than goes through a series of reactions and the final product is six NADH+H and two FADH2. These energy carriers are than sent to the electron transport chain. The Krebs cycle goes around twice for every molecule.
this is reaction done by micro organisms in this oxidation reaction taking place between oxygen and carbohydrate/ fat/ proteins. from this main product is energy gain by micro organisms and by product CO2 and water given out . this CO2 and water taken by plant to from carbohydrate/ fat/ protein. such a way this cycle take place.
Yes: Carbon can gain 4 electrons from less electronegative elements to form a carbide ion with a charge of -4 in an ionic compound. (More often, however, a carbon atoms will share four electrons with other atoms to form covalent bonds.)
Atoms gain lose or share valence electrons in a way that makes the atoms more stable
Since a carbon atom has 4 electrons in its outer shell, it does not have the stable arrangement of 8, which it can gain by sharing electrons with other atoms.
CH4 is a moleculce composed of carbon and hydrogen atoms. Ions are molecules or atoms that contain a charge due to a gain or loss of electrons.
The major difference in both is that,glyoxylate cycle occurs in glyoxysome of germinating plants while TCA occurs in the mitochondria of animals. Glyoxylate cycle involves 5 steps,while TCA involves 8 steps. The enzyme isocitrate lyase,converts isocitrate to alpha-ketoglutarate in TCA cylce,but in glyoxylate cycle,it converts isocitrate to succinate and glyoxylate,where the name camr from.
Carbon atoms do not gain electrons to form a covalent bond. Carbon atoms form four covalent bonds by sharing its four valence electrons with the valence electrons of other atoms. These can be single bonds, in which one pair of electrons is shared; double bonds, in which two pairs of electrons are shared; or triple bonds, in which three electrons are shared; or a combination of these.
carbon atoms cannot form ionic bonds because it can neither gain or loose electrons as it has 4 electrons in its valence shell.so it share its electrons which forms covalent bond.
In Every Body Cell AND / OR In Every Living Cell
The mitochondrion.The first part of aerobic cellular respiration, glycolysis, which is anaerobic, takes place in the cytoplasm, which splits the glucose molecule into two 3-carbon pyruvic acid (pyruvate) molecules with a net gain of 2 ATP. The pyruvic acid moves into a mitochondrion, where the Citric Acid cycle (Krebs cycle) and electron transport chain produce another 28 or 30 ATP molecules.