Not exactly. Sugars are broken down in glycolysis, which takes place in the cytoplasm. However, the major product of glycolysis (pyruvate) IS broken down by the mitochondria in the citric acid cycle to create electron carriers. These electron carriers generate ATP in oxidative phosphorylation - another process that occurs in the mitochondria.
yes it converts glucose(sugar) into ATP(energy) through the life process of cellular respiration. This is true but you could also keep it simple and sweet you see just remember that the mitochondria is shaped like a jellybean or thats how i remember and when you eat a jellybean you get more energy and sugar that adds on if you remember this than you will ace your next Biology test in no time.
Yea they use carbohydrates.They oxidize glucose and produce energy.
mitochondria does burn sugar in a process called respiration. they are the main power source of the cell and thousands of them may be found in it.
No they do not. They store energy in ATP
They break down sugars.They oxidize glucose into CO2
No they do not produce glucose.They break up glucose.
yes it is
sdls
Cellular aerobic respiration occurs within the mitochondria.Cellular respiration occurs in the mitochondria of a cell. Mitochondria are the "cellular power houses" that conduct oxygen and glucose through the cell to the other mitochondria, which use the oxygen and glucose to power the cell. After being used, the oxgen and glucose is transformed into carbon dioxide and water.
Mitochondria. However, it only converts glucose (a simple sugar) to ATP (usable energy). There are many more enzymes that break down complex sugars to simple sugars. Glucose is the ONLY form of sugar that the mitochondria can convert to ATP. Other simple sugars like galactose and fructose need to be converted to glucose first.
Glucose is broken down during cellular respiration to produce a form of energy the cell can use.The first stage, glycolysis, occurs in the cytoplasm of the cell. The other phases occur in the mitochondria.
Amino acids and some other organic compounds, perhaps nucleic acids.
A plant is essentially a glucose production and storage system from the very tips of the leaves to the roots within the ground. As glucose is produced, it feeds the plant and is then gradually converted into various other nutrients that are crucial to the plant’s survival, growth and eventual reproduction.
RBC's transport oxygen from lungs to other organs at all the RBC were to have mitochondria then they would use up all the oxygen which had to be carried to other organs coz mitochondria require oxygen for ATP synthesis. But the RBC don't have mitochondria instead they generate all the energy(ATP) by glycolysis using glucose.
Cellular aerobic respiration occurs within the mitochondria.Cellular respiration occurs in the mitochondria of a cell. Mitochondria are the "cellular power houses" that conduct oxygen and glucose through the cell to the other mitochondria, which use the oxygen and glucose to power the cell. After being used, the oxgen and glucose is transformed into carbon dioxide and water.
Glucose is found mainly.Also there are many other pentose sugars,glycogen etc.
the final product of the calvin benson cycle used to produce glucose is?
Mitochondria. However, it only converts glucose (a simple sugar) to ATP (usable energy). There are many more enzymes that break down complex sugars to simple sugars. Glucose is the ONLY form of sugar that the mitochondria can convert to ATP. Other simple sugars like galactose and fructose need to be converted to glucose first.
Pyridine is used as a solvent, as a denaturant for alcohol, and as a starting material in the synthesis of other compounds.
Glucose is broken down during cellular respiration to produce a form of energy the cell can use.The first stage, glycolysis, occurs in the cytoplasm of the cell. The other phases occur in the mitochondria.
Of course it can be. Cellulose is made up of glucose
false this term is refered to as glucose
Mitochondria in plant cells play a crucial role in cellular respiration, the process of converting sugars into usable energy (ATP). They are responsible for producing most of the cell's ATP, which is necessary for various physiological activities. Additionally, mitochondria are involved in other important metabolic processes, such as the synthesis of amino acids and fatty acids.
Chloroplasts and mitochondria both create ATP. Chloroplasts use sunlight, glucose, and carbon dioxide to create ATP, and the process also creates oxygen. Mitochondria use oxygen and glucose to create ATP, and the process creates carbon dioxide. Plant cells contain both chloroplasts and mitochondria, but animal cells contain only mitochondria.
Aerobic cellular respiration requires glucose and oxygen. If glucose is not available, the cell can use other carbohydrates or other organic compounds.