They provide energy that is ATP (Adenosine Triphosphate) for all the vital processes taking place within the liver.For example formation of urea, converting excess glucose into glycogen.
Mitochondria in liver cells are responsible for generating energy through a process called oxidative phosphorylation. They help produce ATP, which is the main source of energy for cellular functions in the liver. Mitochondria also play a role in the metabolism of fatty acids and detoxification processes in liver cells.
It has a universal function.That is to provide energy.
Mitochondria have a general function in many cells.That is generating energy.
Liver cells have a high concentration of mitochondria, as they are involved in energy production for the numerous metabolic processes that occur in the liver.
Muscle cells and liver cells possess a large quantity of mitochondria. Muscle cells need a lot of energy for movement, and liver cells play a major role in metabolism and detoxification, both of which require a high amount of energy production.
The endoplasmic reticulum and mitochondria in liver cells are commonly affected by drug abuse. Drug metabolizing enzymes are mainly located in the smooth endoplasmic reticulum, where drugs are broken down, leading to potential toxicity. Mitochondria are also impacted, which can disrupt cell function and lead to liver damage.
No, the cells that require a high amount of energy, such as muscle cells, heart cells, and liver cells, tend to have more mitochondria. Mitochondria produce energy for the cell in the form of ATP through aerobic respiration.
Cells with a high energy demand, such as muscle cells and liver cells, typically have a high number of mitochondria. Mitochondria produce energy in the form of ATP through cellular respiration, so cells that require a lot of energy to function efficiently will have more mitochondria.
Liver cells have a high concentration of mitochondria, as they are involved in energy production for the numerous metabolic processes that occur in the liver.
One thing that would not be found in a liver cell is a central vacuole. Vacuoles are typically found in plant cells, not animal cells like liver cells. Liver cells would contain other organelles such as mitochondria, endoplasmic reticulum, peroxisomes, and ribosomes.
Muscle cells and liver cells possess a large quantity of mitochondria. Muscle cells need a lot of energy for movement, and liver cells play a major role in metabolism and detoxification, both of which require a high amount of energy production.
Because muscles cells have to do more energetic work than other cells.
Liver cells are the site of the most catabolic and anabolic reactions, with glycolysis, glycogenesis, gluconeogenesis occuring throughout the day. The majority of these processes are carried out by enzymes of the mitochondria and a higher number means larger reaction rate. So, the liver cells have many mitochondria to cope up with the reaction burden and also to provide energy for anabolic processes.
You would expect to find more mitochondria in cells that require a lot of energy, such as muscle cells or liver cells. These cells need more mitochondria to produce ATP through cellular respiration to meet their energy demands.
The endoplasmic reticulum and mitochondria in liver cells are commonly affected by drug abuse. Drug metabolizing enzymes are mainly located in the smooth endoplasmic reticulum, where drugs are broken down, leading to potential toxicity. Mitochondria are also impacted, which can disrupt cell function and lead to liver damage.
Mitochondria are the organelles that are abundant in cells that require a lot of energy, such as muscle cells. Mitochondria are responsible for producing ATP through cellular respiration, which is the main energy source for the cell.
Muscle cells, particularly those in skeletal muscles, contain a high density of mitochondria due to the need for energy production required for muscle contractions. Cells that require high energy levels, such as cardiac muscle cells, also have abundant mitochondria.
No, the cells that require a high amount of energy, such as muscle cells, heart cells, and liver cells, tend to have more mitochondria. Mitochondria produce energy for the cell in the form of ATP through aerobic respiration.
Muscle cells because mitochondria is a cells energy source and in order for an athlete to play their sport or do their activities, they need a lot of energy.
Large numbers of mitochondria are typically found in cells that have high energy demands, such as muscle cells, liver cells, and cells of the heart. These organs and tissues require significant energy production to carry out their functions effectively.