The bones have the largest amount of minerals, calcium and phosphorus, in its extracellular matrix. Teeth, which are specialized bone, have additional enamel that makes them even stronger.
That answer has nothing to do with the question asked....but the answer is connective tissue.
Connective tissue is the type of tissue that has a non living matrix. There are four main types of tissue: connective tissue proper, bone, cartilage, and blood.
Connective tissue is living cells that have an abundant non-living extracellular matrix.
connective - bone has extra cellular matrix
Blood. Blood is considered a non-living fluid matrix.
connective tissue as well as the bones are the examples of non-living matrix. both are produced by the cells. Both are non-living in nature.
connective
Connective
Connective Tissue
Yes, areolar connective tissue has a fluid matrix.
yeah
Connective tissues are classified on the basis of their physical properties.
Blood - connective tissue/fluid within blood vessels. No fibers.
Connective tissue
Connective tissue :)
Connective Tissue
Connective Tissue
the connective tissure has the greatest amount of intercellular matrix. Bone has very few cells, large amounts of intercellular matrix.Bone is in the Connective Tissue categorie.
Adipose tissue is fat tissue, lipids are therefore present in large amounts.
Yes, areolar connective tissue has a fluid matrix.
This tissue is called connective tissue. The matrix consists of proteins, such as collagen and elastin, as well as other substances like ground substance and minerals. Connective tissues provide support and structure to organs and other body parts, and they also play a role in transporting nutrients and waste products.
Connective tissue
yeah
contains large amount of matrixusually contains a large amount of matrix
Fibroblasts, the most common mammalian connective tissue cells, are specialized for the secretion of collagenous extracellular matrix and are jointly responsible for the architectural framework of the body. A fibroblast cell plays a critical role in wound healing. When a tissue is injured, the fibroblasts nearby proliferate, migrate into the wound, and produce large amounts of collagenous matrix, which helps to isolate and repair the damaged tissue.