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What are pathways of cellular respiration?
Glycolysis and Fermentation (Lactic Acid and Alcoholic).
What features of the photosynthesis and cellular respiration biochemical pathways are reverse of one another and which parts are not?
Features that are reverse of one another: In photosynthesis, carbon dioxide is converted into glucose, while in cellular respiration, glucose is broken down to produce carbon dioxide. Photosynthesis produces oxygen as a byproduct, whereas cellular respiration consumes oxygen as a reactant. Features that are not reverse: Both pathways involve the use of electron transport chains to generate ATP. Both pathways occur in specialized organelles - photosynthesis occurs in the chloroplasts, while cellular respiration occurs in the mitochondria.
What mineral ion is important in cellular respiration?
The mineral ion important in cellular respiration is calcium. It plays a crucial role in activating enzymes involved in the metabolic pathways of cellular respiration. Calcium helps regulate various steps in the process, particularly in the release of energy stored in glucose.
What is cellular resparation mean?
Cellular respiration is the process by which the chemical energy of molecules is released and partially captured in the form of ATP(Adeninetriphosphate, a form of energy release). Carbohydrates, fats, and proteins can all be used as fuels in cellular respiration, but glucose is most commonly used as an example to examine the reactions and pathways involved.
What does cellular respiration do to benefit organism?
Cellular respiration is the process by which organisms convert glucose into energy (ATP) to fuel cellular activities. This energy is essential for various biological processes, such as growth, movement, and reproduction. Ultimately, cellular respiration is vital for an organism's survival and overall function.
What happens to oxygen during aerodic respiration?
Oxygen was utilized by cellular pathways and they will be at the end converted to Carbondioxide as a waste product.
Energy used in cellular respiration can originate from?
Energy used in cellular respiration can originate from glucose, fatty acids, or amino acids, which are broken down through various metabolic pathways to produce ATP. This energy is then utilized by cells to carry out essential biological processes.
Which of the following do not enter the cellular respiration pathways?
To accurately answer your question, I would need a list of options to determine which substances do not enter the cellular respiration pathways. Generally, substances like fatty acids, amino acids, and glucose do enter these pathways, while substances that are not energy substrates, such as certain waste products or non-nutrient compounds, do not. Please provide the specific options for a more precise response.
Which stage of cellular respiration requires oxygen?
The electron transport chain. Oxygen is the last electron acceptor.
How could you decrease cellular respiration?
To decrease cellular respiration, you can reduce the availability of oxygen, as it is a crucial component of aerobic respiration. Limiting nutrient supply, such as glucose, can also slow down the process since glucose is a primary energy source. Additionally, increasing the temperature can lead to denaturation of enzymes involved in cellular respiration, thereby inhibiting their function. Finally, introducing inhibitors that target specific pathways of cellular respiration can effectively decrease its rate.
What is the major adaptive advantage for cellular respiration?
Since some organisms are able to switch metabolic pathways depending on if oxygen is available they have an adaptive advantage. For other organisms if there is no oxygen then there is no respiration.
Is oxygen a common product to reactions in cellular respiration and fermentation?
Yes, oxygen is a common reactant in cellular respiration, specifically in aerobic respiration where it serves as the final electron acceptor in the electron transport chain. In contrast, fermentation does not require oxygen and occurs in the absence of it, utilizing alternative pathways to generate energy.
