Yes heart cells have.They are very active cells,they have lot of them
brain cells are activated by brain genes and heart cells are activated by heart genes. that's how they function, by their genes
Research hasn't shown just how many heart cells are present. It could be millions or it could be billions, but there are no definite number of cells on record as of yet. The heart cells assemble early in gestation, and they organize into a complex, densely packed environment with elaborate communication networks. Maybe eventually scientists will figure out just how many heart cells are in a normal, healthy heart.
They are both made up of muscle cells. The heart is made of cardiac muscle, and the biceps are made of skeletal muscle.
Memory cells, or T cells, are part of the immune system and carried in the blood stream. Due to the fact that they are carried in blood, the heart does help pump them, but it does not "have" memory cells of its own.
These cells can differentiate into endocardium which lines the heart chamber
Heart is very active.Its cells have many mitochondria.
Mitochondria as the heart requires a lot of energy.
Muscle cells and heart cells for two.
Cells that require a lot of energy, such as muscle cells or cells in the heart, would likely have the most mitochondria.
The number of mitochondria in heart cells is significantly higher than in bone cells. Heart cells, or cardiomyocytes, require a substantial amount of energy to support their continuous and rhythmic contractions, leading to a high density of mitochondria. In contrast, bone cells have lower energy demands, resulting in fewer mitochondria. This difference reflects the distinct functional requirements of these tissues.
Cells that require high amounts of energy production, such as muscle cells, will have more mitochondria to meet the increased energy demands. For example, heart muscle cells have a high concentration of mitochondria to support the continuous pumping of the heart.
Lots.
Muscle cells, such as those found in the heart or skeletal muscles, contain the most mitochondria as they require a lot of energy to function. Mitochondria are the powerhouse of the cell and are responsible for producing ATP, which is essential for muscle contraction.
Heart cells have a high demand for energy to sustain constant contraction. As a result, they have a larger number of mitochondria compared to other cell types. Mitochondria are responsible for generating the majority of cellular energy through aerobic respiration, producing the ATP needed for muscle contraction. The abundance of mitochondria in heart cells allows for efficient energy production and helps meet the energy requirements of the heart muscle.
Mitochondria
A great amount of mitochondria to supply the twitchy heart muscles with ATP. Heart muscles never stop beating and this requires a lot of energy continuously supplies by many mitochondria.
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.