Canaliculi
Canaliculi
Osteocytes are embedded in the bone matrix and are supplied with nutrients through canaliculi, small channels in the bone. This allows osteocytes to survive and continue functioning during bone formation, even though they are surrounded by the developing tissue. Additionally, osteocytes have a low metabolic rate, helping them to withstand the changes during ossification.
Small polar molecules can pass through the cell membrane by using protein channels or carriers that facilitate their movement across the lipid bilayer. These channels and carriers help the molecules navigate through the hydrophobic interior of the membrane, allowing them to enter or exit the cell as needed.
Ions, such as sodium, potassium, calcium, and chloride, can pass through ion channels. These channels are specific to certain ions based on their size and charge. Small molecules like water and neurotransmitters can also pass through some ion channels.
These special structures are called protein gates or protein channels. Water is able to diffuse through the cell membrane since it is a small molecule. However, there are channels called aquaporins that allow water to enter the cell. A glucose molecule cannot just diffuse into a cell. There are glucose channels on the surface of the cell membrane that bind glucose molecules and allow them to enter the cell.
gap junctions. These channels allow for the direct transfer of ions, molecules, and signals between neighboring bone cells, enabling efficient communication and coordination within the bone tissue.
CanaliculiCanaliculi
A large matrix with small pixel will give a better resolution.
Integral protein channels facilitate the movement of ions and small molecules across cell membranes. These channels are selective based on the size and charge of the molecules they allow to pass through.
Yes, protein channels in the cell membrane can allow small charged molecules, such as ions, to pass through. These channels create a selective pore that allows specific molecules to pass based on size and charge. The movement of these molecules through protein channels is essential for various cellular functions and signaling processes.
Osteocytes are embedded in the bone matrix and are supplied with nutrients through canaliculi, small channels in the bone. This allows osteocytes to survive and continue functioning during bone formation, even though they are surrounded by the developing tissue. Additionally, osteocytes have a low metabolic rate, helping them to withstand the changes during ossification.
so it can be cleaned
pores or channels
Small polar molecules can pass through the cell membrane by using protein channels or carriers that facilitate their movement across the lipid bilayer. These channels and carriers help the molecules navigate through the hydrophobic interior of the membrane, allowing them to enter or exit the cell as needed.
Archaeological investigation has identified as evidence of irrigation where the natural rainfall was insufficient to support crops for rainfed agriculture. Perennial irrigation was practiced in the Mesopotamian plain whereby crops were regularly watered throughout the growing season by coaxing water through a matrix of small channels formed in the field
No, ions and other small water-soluble materials can also cross the cell membrane through processes like simple diffusion or facilitated diffusion, in addition to passing through specific channels. Additionally, active transport mechanisms can move ions against their concentration gradient, requiring energy input.
so it can be cleaned
Osteocytes are located in tiny spaces called lacunae. These small cavities are found within the bone matrix and provide a sheltered environment for osteocytes, allowing them to maintain communication with other bone cells through tiny channels called dendritic processes. This network helps regulate bone remodeling and homeostasis.