During dormancy, seeds wait until the conditions are optimal for cellular respiration. Modifications would include things such as seeding elongation, germination and hormone regulation.
Carbon Dioxide (CO2)
cytosol
Because mitochondria are used for oxidative phosphorylation, which doesn't occur in anaerobic respiration
You would expect to see a large number of ribosomes (or rough ER) and mitochondria. Ribosomes are the site of protein synthesis, and mitochondria are the site of cellular respiration. In a cell actively creating a product, you would expect more mitochondria in order to meet the energy needs of the cell and rapid utilization of ameno acids for protein synthesis
By studying, I would hope. Microbiology is a course based solely on the unseen, it really pays to have hands on experience with microscopes, agar plates, and other tests to see it in action. A solid background in biology will help you pass a course on microbiology, but expect to learn a lot more in detail about things like mitosis, cell walls, protein formation, cellular respiration, and more.
NADP in photosynthesis, and oxygen in cellular respiration.
Dormant volcano
Starch grains are the storage form of polysaccharide. You would find them in the chloroplasts. The double membrane bound organelle that is not the site of cellular respiration is chloroplasts.
You would expect to find a large number of mitochondria in an eukaryotic cell that needs to produce a large amount of ATP. Mitochondria are the powerhouses of the cell and are responsible for producing ATP through cellular respiration. They are abundant in cells with high energy demands, such as muscle cells.
Carbon Dioxide (CO2)
cytosol
You will need a full size van. They can be installed at the rear or side.
Because mitochondria are used for oxidative phosphorylation, which doesn't occur in anaerobic respiration
in an environment where there is little or no oxygen. aerobic respiration requires oxygen ad when it is not present fermentaion (anaerobic respiration) occurs because it works when oxygen isn't there
The mammals respiration rate would increase faster :)
You would expect to see a large number of ribosomes (or rough ER) and mitochondria. Ribosomes are the site of protein synthesis, and mitochondria are the site of cellular respiration. In a cell actively creating a product, you would expect more mitochondria in order to meet the energy needs of the cell and rapid utilization of ameno acids for protein synthesis
By studying, I would hope. Microbiology is a course based solely on the unseen, it really pays to have hands on experience with microscopes, agar plates, and other tests to see it in action. A solid background in biology will help you pass a course on microbiology, but expect to learn a lot more in detail about things like mitosis, cell walls, protein formation, cellular respiration, and more.