osteoclasts
Those are called osteoclasts, which are large multinucleated cells responsible for breaking down bone tissue in a process called bone resorption. They play a crucial role in bone remodeling and maintenance of bone density.
Muscle cells are multinucleated because they need a lot of genetic material to support their large size and high energy demands. Having multiple nuclei helps the cell efficiently control protein synthesis and repair damage, allowing for better muscle function and growth.
Yes, connective tissue contains a large amount of extracellular matrix, which is comprised of proteins and ground substance. This matrix provides support, strength, and elasticity to the tissue. The specific composition of the matrix can vary depending on the type of connective tissue.
Large tubercles and increased deposits of bony matrix typically occur in conditions like Paget's disease of bone, where there is excessive bone remodeling leading to enlarged and weaker bones. This can also be observed in certain types of bone tumors, where abnormal bone growth results in the formation of large bony protrusions.
No, epithelial tissue is primarily composed of closely packed cells with minimal extracellular matrix. The extracellular matrix is more abundant in connective tissue, which provides structural support and anchorage for epithelial cells.
Osteoclasts are large, multinucleated cells found in bone tissue. They are responsible for the breakdown and resorption of bone by secreting enzymes and acids that dissolve the mineralized matrix of bone. Osteoclasts are derived from the fusion of monocytes/macrophages and are involved in bone remodeling and repair.
uncartartized
Skeletal muscle cells and osteoclasts are multinucleated. Multinucleated cells can also be seen in the presence of some diseases, such as tuberculosis, but these cells are abnormal and usually die.
A large matrix with small pixel will give a better resolution.
The large crystals are called phenocrysts and the finer grained matrix is known as the groundmass. This texture is known as porphyritic texture, where the rock has two distinct crystal sizes.
Syncytia is the multinucleated condition in which many cells combines and form a single large cell,due to any viral infection.
Solids that do not dissolve are called insoluble solids. These solids do not mix with a solvent to form a solution because their particles are too large or their bonds are too strong to break apart.
Those are called osteoclasts, which are large multinucleated cells responsible for breaking down bone tissue in a process called bone resorption. They play a crucial role in bone remodeling and maintenance of bone density.
A general term for any kind of cell that fuses with adjacent cells to form a multinucleated large cells with fused cytoplasms
A sparse matrix is matrix that allows special techniques to take advantage of large number of zero element. Application of sparse matrix is classification and relationship analysis in large data base system - SPARCOM
Muscle cells are multinucleated because they need a lot of genetic material to support their large size and high energy demands. Having multiple nuclei helps the cell efficiently control protein synthesis and repair damage, allowing for better muscle function and growth.
The rock is called porphyry, which forms when magma slowly cools beneath the Earth's surface. The large crystals are known as phenocrysts, and the smaller surrounding crystals are called groundmass or matrix.