Answer:
Carbohydrate digestion begins in the mouth with enzyme salivary amylase which converts starch to maltose, maltotriose and ∝-limit dextrins. These are moved by peristalsis into the stomach. The low pH inactivated amylase, thus the partially digesting food(chyme) is moved to the small intestine.
The acidity of the stomach acid is neutralize by the bicarbonate ions secreted in the pancreas from secretin hormone stimulation. This makes <u>alpa amylase to be activated</u>.
In the intestinal broader are<u> maltase,a-dextrinase, sucrase. </u>These enzymes hydrolyze these oligosaccharides to glucose. (maltose, maltotriose are oligosaccharides).
<u>Assuming the diet contains sucrose,lactose, trehalose, these diasacchrides are converted to respective monosaccharides by </u>lactase,trehalase,sucrase. Thus sucrose to glucose and fructose; trehalose to glucose and lactose to glucose and galactose. These product release from the membrane walls of the duodenum are aided by alpha-amylase on the brush borders.
These end products except fructose are transported into the cells from the lumen, via Na+ dependent co-transport (SGL1) in the epithelial lining membranes of the duodenum walls. <u>Fructose is transported via facilitated diffusion from the duodenal lumen into the cells. The sugar are transported against the concentration gradient into the cells(,Na+ moves passively into the cells) and later into the blood by facilitated diffusion.</u>
Protein digestion begins in the stomach, and completed in the small intestine.
The acidic medium of the stomach activated pepsin precursor pepesinogen to pepsin. The protein is converted to peptones and proteoses. These are moved into the duodenum where the pancreatic bicarbonate neutralizes the acidity of the stomach, thus inactivating pepsin.
In the duodenum, digestion of protein is completed.Pancreatic and intestinal juice are secreted. Inactive proteases-Trypsin, chymotrypsin,elastase, Carboxypeptidase A and B, are converted into active forms by trypsin. These proteoses hydrolyse the protein to amino acids.
These amino acids units are transported across the luminal walls by Na+ dependent co-transport into the cells,. Dipeptide and tripeptides are transported via H+ dependent co-transport into the cells, They are latter hydrolyse into amino acids by peptidases. They are moved into the blood via facilitated diffusion, and absorbed like glucose.
Digestion of Fats
In the mouth, fragments of ingested triglycerides are converted to monoglycerides and fatty acids by lingual lipases.
This is moved by peristalsis down into the stomach, where stomach churning breaks down the lipids to increase the surface area for pancreatic enzymes actions.
In the small intestine, bile secrets bile acids. The latter emulsify the lipids breaks them down into tiny insolube fat globules, and added water. This is now creamy and fluid in nature, it is called chyle. They are made soluble as micelles by the bile acids.
Pancreatic lipase, cholesterol ester hydrolase and phospholipase A2 hydrolyse lipids to fatty acids, monoglycerides and cholesterol. These are brought to the intestinal membranes by micelles, ( except glycerol which is hydrophlic )where they diffused across the membrane walls into the cells.
In the intestinal cells, these products are re-esterfied; thus triglycerides, phospholipids, chylomicrons and cholesterol are formed. Chylomicrons are too large to pass through the capillaries wall, they are absorbed by the lacteal and transported into the lymphatic vessels. From here they enter the blood through the thoracic duct completing digestion
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