In Biology, matrix refers to the tissue in animal or plant cells, where specialized structures are embedded. It is part of the mitochondrion where the oxidation of organic molecules occurs.
Collagen is the connective tissue.
All connective tissue!
connective tissue
The connective tissue that has a jelly-like matrix is called "mucous connective tissue." This type of tissue contains fibroblasts and ground substance rich in hyaluronic acid, giving it a gel-like consistency. Mucous connective tissue is found in the umbilical cord of embryos.
Connective tissue possesses an abundant extracellular matrix. This matrix is made up of fibers, ground substance, and cells, providing structural support and connecting different tissues and organs in the body. Examples include bone, cartilage, and tendon.
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.
Yes, connective tissue is living tissue made up of cells and extracellular matrix. The cells in connective tissue help to maintain and repair the tissue, while the extracellular matrix provides structural support.
The Extracellular Matrix
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 tissues have an extracellular matrix that gives them their characteristic properties. Blood is a liquid connective tissue that has a fluid matrix.
Connective tissue
Fibroblasts produce extracellular matrix for various connective tissue types, including loose connective tissue, dense connective tissue, and specialized connective tissues like tendons and ligaments. The extracellular matrix produced by fibroblasts provides structural support, flexibility, and resilience to these connective tissues.