Orthovesicular Membrane

Orthovesicular membranes are an important component of cells as they perform various functions such as signaling, regulating metabolism, and protecting the cell from damage.

Membranes are composed of lipids and proteins that form a layered structure. In orthovesicular membranes, proteins are arranged in a specific order, which allows them to perform their functions more efficiently.

One of the most important functions of the orthovesicular membrane is the transmission of signals between cells. Proteins on the surface of the membrane interact with other proteins on the surface of neighboring cells, which leads to changes in their activity and regulation of metabolism.

Orthovesicular membranes also protect cells from damage, for example, when exposed to toxic substances or ultraviolet radiation. They can form protective membranes around cells or become embedded in the cell membrane to protect it from damage.

In the medical literature, the term orthovesicle is used, although orthoplasmic membrane is more common. Membranes for orthoplastic molecules are specific substrates of the cellular or extracellular matrix, which form a kind of network that limits the orthoplastic from its environment and thereby predetermines its localization in a cell, organ, tissue or organism. The cells or tissues of the body in which the orthoplasty is localized become structurally unchanged and functionally dependent on the presence of the orthoplasty molecule. Embedding ortoplasty into the membrane promotes the development of the morphofunctional structure of the target tissue

Orthovesicular membrane is also called orthoplastic membrane, from the Latin vesiculum - vesicle. The orthoplasmic membrane plays the role of a structure that prevents the penetration of orthoplatmic into cells or structures by surrounding them. The presence of orthoplasty results in a delay in cell development under the influence of this