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Yes. Irregardless they be exocrine or endocrine glands, their main business is Secretion.
The subcutaneous oil glands in the scalp secretes via holocrine. Holocrine indicates a membrane rupture which destroys the cell and results in the secretion into the lumen.
No holocrine glands release their secretions by cell lysis, the entire cell disintegrates.
cell wall
the Holocrine gland the secretion is released by the disruption of the plasma membrane and destruction of the cell
Sebaceous glands secretion contains cell fragments. Sweat gland apocrine produce a secretion containing proteins and fats in addition to water and salts.
No, as far as I can tell from definition, and as far as rupturing the cell, because definition of Merocrine is: "of or relating to a gland whose secretory cells remain undamaged during secretion".
Hemoglobinuria
Yes. Irregardless they be exocrine or endocrine glands, their main business is Secretion.
Modes of Secretionof exocrine glandsSecretory cells of exocrine glands release their products into ducts in three different ways. The mode of secretion can be classified as merocrine, apocrine, or holocrine.Cells that secrete products via the merocrine method form membrane-bound secretory vesicles internal to the cell. These are moved to the apical surface where the vesicles coalesce with the membrane on the apical surface to release the product. Most glands release their products in this way.In those glands that release product via the apocrinemethod, the apical portions of cells are pinched off and lost during the secretory process. This results in a secretory product that contains a variety of molecular components including those of the membrane. Mammary glands release their products in this manner.The third type of secretory release, holocrine, involves death of the cell. The secretory cell is released and as it breaks apart, the contents of the cell become the secretory product. This mode of secretion results in the most complex secretory product. Some sweat glands located in the axillae, pubic areas, and around the areoli of the breasts release their products in this manner. Sebaceous glands also are of this type.
The subcutaneous oil glands in the scalp secretes via holocrine. Holocrine indicates a membrane rupture which destroys the cell and results in the secretion into the lumen.
Holocrine glands are a type of secretory gland where the secretory product is formed inside the cytoplasm and the secretion is released by the disruption of the plasma membrane and destruction of the cell. Therefore, holocrine is the answer because it is a secretory gland and cells are lost in the secretion, thus needing continuous reproduction.
No holocrine glands release their secretions by cell lysis, the entire cell disintegrates.
cell wall
heterophagosome is formed when a lysosome fuses with another vescicle within the cell and causes its digestion. autophagosomy is when the lysosome digests the whole cell by rupturing to release its enzymes.
the Holocrine gland the secretion is released by the disruption of the plasma membrane and destruction of the cell
The rupturing of a cell due to excess internal pressure.