T3 is more active than T4 in the body's metabolic processes.
metabolic rate and function. Cells with higher metabolic rates and active functions tend to produce more waste compared to cells with lower metabolic rates and less activity. The efficiency of waste elimination processes within the cell also plays a role in determining the rate of waste production.
The metabolic cell processes create energy for the cell either aerobically (through glycolysis, pyruvate oxidation, Krebs cycle, and Electron Transport Chain) or anaerobically(through glycolysis and fermetation). Aerobic respiration is much more effective.
Well, I suppose that since mitochondria are the the main production centers of ATP and Active Transport requires ATP, that these two are directly proportional. The more mitochondria a cell has, the more ATP it can make, and the more it can do Active Transport
The molecule that is broken down and reformed at a higher rate when cell metabolic activity increases is adenosine triphosphate (ATP). ATP serves as the primary energy currency of the cell, providing the energy needed for various cellular processes. When metabolic activity is high, cells require more ATP for energy, leading to increased breakdown and synthesis of ATP.
Living beings are organisms that demonstrate characteristics such as growth, reproduction, responsiveness to stimuli, and metabolic processes. They can range from simple single-celled organisms to more complex multi-cellular organisms like plants, animals, and humans. Living beings require energy to sustain their life processes and can adapt to their environment.
Spores are dormant structures with minimal metabolic activity. They are essentially resting stages that allow the organism to survive in unfavorable conditions, such as heat, desiccation, or lack of nutrients. Once conditions become more favorable, spores can germinate and resume active metabolic processes.
Cells such as liver cells, sperm cells and muscle cells have more mitochondria. This is because they are more metabolically active and need a plentiful supply of ATP (adenosine triphosphate) for metabolic processes. For example, many chemical processes occur in liver cells and sperm cells are known for movement.
metabolic rate and function. Cells with higher metabolic rates and active functions tend to produce more waste compared to cells with lower metabolic rates and less activity. The efficiency of waste elimination processes within the cell also plays a role in determining the rate of waste production.
Low temperatures can slow down metabolic processes in organisms. This is because chemical reactions occur more slowly at lower temperatures, impacting enzyme activity and cellular function. In extreme cases, prolonged exposure to very low temperatures can even cause metabolic processes to cease, leading to cell damage or death.
In protobionts, you would expect to see metabolic processes such as energy generation through chemiosmosis or photosynthesis, synthesis of basic building blocks like amino acids and nucleotides, and potentially the beginnings of primitive metabolic pathways for growth and reproduction. These processes would allow protobionts to sustain themselves and potentially evolve into more complex forms of life.
Germinating seeds produce more carbon dioxide because the process of germination involves the breakdown of stored food reserves in the seed through respiration. This metabolic activity requires oxygen and generates carbon dioxide as a byproduct. Dry seeds do not undergo active metabolic processes, so they do not produce as much carbon dioxide.
The metabolic cell processes create energy for the cell either aerobically (through glycolysis, pyruvate oxidation, Krebs cycle, and Electron Transport Chain) or anaerobically(through glycolysis and fermetation). Aerobic respiration is much more effective.
Generally a child will have a higher metabolic rate due to the fact that they are more physically active than adults. Also because their metabolic system has not fully matured or developed and can easily be shaped..
Sympathetic stimulation of the liver increases glycogenolysis and lipolysis to make energy more available to metabolic processes.
Due to a very low rate metabolic system, the koala is only active 3-6 hours a day which are spent eating. Eating occurs various times during the day, but they have a tendency to be more alert and active at night.
it will create insects if we eat more of jam
During the cold seasons, some animals eat more to store more calories and then their bodies enter a state of hibernation, whereby their metabolic processes slow to conserve more energy.