The mucosa, which is made up of simple epithelial cells, is the GI tract's innermost layer. It is the GI tract's absorptive and secretory layer. The mucosa, which is the innermost layer, is responsible for absorption and secretion. Epithelium cells and a thin connective tissue make up this structure. Specialized goblet cells in the mucosa secrete sticky mucus throughout the Gl tract. Small finger-like projections called villi and microvilli aid to enhance surface area for nutrition absorption on the mucosa layer.
The Submucosa
The submucosa is a dense, uneven layer of connective tissue that supports the mucosa and contains major blood arteries, lymphatics, and nerves. The submucosa is a thick, vascular'layer that serves the mucosa. The blood arteries of the submucosa gather up the absorbed substances that pass through the mucosa. There are glands and nerve plexuses in the submucosa. The submucosa, which lies beneath the mucosa and is made up of fibrous connective tissue, separates the mucosa from the muscularis externa, the next layers.
The Muscularis
The stomach muscularis differs from the muscularis of other Gl organs in that it includes three layers of muscle rather than two. The adventitia-connective tissue layers that run parallel to the omenta-lies beneath these muscle layers. In the gastrointestinal (GI) tract, the muscularis is responsible for segmental contractions and peristaltic motions.
The Serosa
A secretory epithelium layer and a thin connective tissue layer make up the serosa, which reduces friction caused by muscle movements. Serosa should not be confused with adventitia, which is a connective tissue layer that links things together rather than reducing friction. The intraembryonic coelom forms the serous cavities, which are effectively empty spaces within the body enclosed by a serous membrane. Visceral organs grow close to a cavity and invaginate into the bag-like coelom early in embryonic life. As a result, each organ is encircled by a serous membrane and does not lie within the serous cavity. The visceral layer is in contact with the organ, whereas the parietal layer is in contact with the body wall.
DNA cloning allows a copy of any specific part of a DNA or RNA sequence to be selected from the millions of other sequences in a cell and produced in unlimited amounts in pure form.
Well, the body has a endless supply of energy (even if you have an energy drink or a lot of coffee) but anyway we will always have a lot of energy until you have to go to the other world (if you know what I mean)
