Epithelial tissues are not usually rough; they are known for their smooth and flat appearance. The cells in epithelial tissues are tightly packed and form continuous sheets that line the surfaces of organs and body cavities. The smooth texture of epithelial tissues allows for easy passage of substances and provides a protective barrier.
Smooth muscle tissue, nervous tissue, and connective tissue all play a role in gut motility. Smooth muscle tissue contracts and propels food through the digestive tract, nervous tissue coordinates and regulates muscle contractions, and connective tissue provides support and structure to the gastrointestinal system.
Flagellated protists of the genus Trichonympha live inside the gut of termites. These protists have a symbiotic relationship with termites by helping them break down cellulose in wood.
Histology of the gut involves studying the microscopic structure of the different layers of the gastrointestinal tract, including the mucosa, submucosa, muscularis externa, and serosa. This allows for the identification of specialized cells, tissues, and structures that make up the gut, such as epithelial cells, goblet cells, smooth muscle fibers, and nerve fibers. Histological analysis of the gut can provide insights into the function and health of the digestive system.
Epithelial tissue functions include providing protection, absorption, secretion, and sensation. It serves as a barrier to the external environment, absorbs nutrients from the gut, secretes hormones or enzymes, and contains sensory nerve endings for touch.
There is gut epithelial tissue which is associated with the alimentary canal which is an organ. The skin is the largest organ and is also made up of epithelial tissue.
Epithelial tissues are not usually rough; they are known for their smooth and flat appearance. The cells in epithelial tissues are tightly packed and form continuous sheets that line the surfaces of organs and body cavities. The smooth texture of epithelial tissues allows for easy passage of substances and provides a protective barrier.
Smooth muscle tissue, nervous tissue, and connective tissue all play a role in gut motility. Smooth muscle tissue contracts and propels food through the digestive tract, nervous tissue coordinates and regulates muscle contractions, and connective tissue provides support and structure to the gastrointestinal system.
cells combine together forming a tissue. there are four basic type of tissues the whole human body is made of 1)nervous tissue 2)connective tissue 3)muscular tissue 4) epithelial tissue.1) nervous tissue constitute the brain and spinal cord and nerves2) connective tissue: blood , bones and the matrix that gel everything in our body is basically connective tissue3) muscular tissue: the heart , the skeletal muscles(biceps , triceps etc) and the smooth muscles(present in various structures inside body e.g walls of blood vessels ,etc4)epithelial tissue:forms the lining of body's every structure e.g skin, the buccal mucosa(the inside cheek lining ) etcthe combination and varieties of these four basic tissues make up the organ e.g liver is an organ , stomach is another organ and the working together of these organs constitute a systems e.g gastrointestinal system(G.I.T or the gut).hence systematically we have1) cells2) tissues3) organs4) systems5)human body....or otherwise any animal plant/living object .regardsDr.Rabia Mubashirtissueepithelium
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gut
Flagellated protists of the genus Trichonympha live inside the gut of termites. These protists have a symbiotic relationship with termites by helping them break down cellulose in wood.
it is a thin protuberance present in great abundance at the surface of some epithelial cells, notably in the gut, thus increasing the surface area available for absorption
I think it the acoelomate. Indeed it is :D
Histology of the gut involves studying the microscopic structure of the different layers of the gastrointestinal tract, including the mucosa, submucosa, muscularis externa, and serosa. This allows for the identification of specialized cells, tissues, and structures that make up the gut, such as epithelial cells, goblet cells, smooth muscle fibers, and nerve fibers. Histological analysis of the gut can provide insights into the function and health of the digestive system.
Absorption of glucose from the gut lumen depends on the presence of specific glucose transporters, particularly SGLT1 and GLUT2, located on the surface of the intestinal epithelial cells. These transporters facilitate the movement of glucose from the intestine into the bloodstream via active transport and facilitated diffusion mechanisms. Glucose absorption is also influenced by factors such as the concentration gradient of glucose across the intestinal epithelium, as well as hormonal regulation.
The inside of a pumpkin that is scooped out when you are craving pumpkins; it also can be thrown.