In the exogenous path the Epithelial, cell lining also known as the small intestines, readily takes in lipids from the food. These lipids including phospholipids, cholesterol and triglycerides, merge with apolipoprotein B-48. In their circulation via the lymphatic vessels, the nascent chylomicrons pass the liver circulation and draining through the thoracic duct and into the bloodstream follows. In the bloodstream, High Density Lipid particles donate apolipoprotein E and apolipoprotein C-II to the nascent chylomicron that is now mature. Through apolipoprotein C-II, the mature chylomicrons activate lipoprotein lipase (LPL).
The liver, gallbladder and the pancreas begin to bestow to the digestive process once the chyme reaches the small intestine. A large part of the digestion and absorption of nutrients from food takes place once the chyme or food enters the small intestine. Secretion of bile from both the liver and the gallbladder acids with the digestion and absorption of fat. At the same time, digestive enzymes and bicarbonate secretions from the pancreas helps in the digestive process. The left-over materials not absorbed in the little intestine the moves into the large intestine by the sphincter.
This is very important as this allows osmosis occurs in our bodies. Plasma is forced out of the capillaries under high hydrostatic pressure to form tissue fluid. Some of the tissue fluid is return in capillary ends and some is returned to the blood by the lymphatic system. Plasma carries glucose, ions, waste product, respiratory gases and hormones around the body. Small molecules such as oxygen and carbon dioxide can diffuse in and out of the cells through the phospholipid bilayer; ions and glucose molecules enter and leave the cell via the channel proteins.
Carbohydrate is the universal energy cell. Carbohydrate breakdown, glycogen serves as a source of glucose for your cells, your tissues, including your brain and muscles use glucose as a source of energy to support metabolic functioning. When your body requires glucose your liver and muscle breakdown their glycogen stores releasing glucose. Some glucose may be used directly in your liver and muscles while other glucose is released into your blood stream and used throughout body. Lipid break down, your body can breakdown triglycerides as a source of energy.
Introduction This report discusses an experiment to asses the chemical breakdown of starch into maltose (sugar) in the presence of the enzyme amylase, a digestive process within the body. Nutrients can be absorbed only when broken down to their monomers (small molecules that breakdown further to other molecules). Enzymes are large protein molecules produced by body cells. “They are biological catalysts, meaning they increase the role of a chemical reaction without themselves becoming part of the product. Digestive enzymes are hydrolytic enzymes.
The definition of nutrition is the “basic physical resources necessary for energy production, growth, reproduction and the proper functioning of tissue and organs” (Webster-Gandy, Madden & Holdsworth 2012, p.2). The body’s requirements are met by the foods we eat; through the macronutrients and micronutrients we ingest and from the water we drink. Macronutrients are required in large quantities by the body and comprise of carbohydrates, proteins and lipids (fats) whilst the body requires fewer micronutrients that include vitamins and minerals (Rolfes, Pinna & Whitney 2012, p.3). All of these nutrients are key to helping the body move toward optimum health. Lipids and carbohydrates allow fuel to be utilised as energy, whilst proteins help maintain cells by growing and repairing them (Rolfes, Pinna & Whitney 2012, p.9).
The small intestine is the principal site of digestion and absorption. Enzymes from the pancreas, liver, gallbladder, and the small intestine itself combine to break down nutrients so that they can be absorbed. The pancreas supplies enzymes to digest proteins, fats and carbohydrates. The live produces bile required for emulsification of fat, and the gallbladder stores the bile until it is needed. The absorption of nutrients in the small intestine is facilitated by tiny projections called villi, which provide more surface area for absorption.
Eating too much of one component can do as much harm as not eating enough of it. A balanced diet will have the right proportions of fat, protein and carbohydrates as they provide energy. They are all essential for the management of bodily functions. Our body cells convert nutrients into other components and are then used for metabolism and other cellular reactions. Starch, a major carbohydrate is converted to glucose and then reconverted into fat storage.
Instead, the acids work to break down the food for easier digestion in the intestines. As the food is broken down to a thick paste-like substance known as chyme, it moves past the pyloric sphincter and into the small intestine. The first section of the small intestine, the duodenum, secretes digestive enzymes like amylase, maltase, sucrase, lactase, lipase and pepsin, to break down the chyme into even smaller parts that the body can then convert into usable energy. Some other organs that secrete chemicals to aid in the digestion process include the pancreas, liver, and gall bladder. The pancreas secretes trypsin and chymotripsin.
(Swann, 2008) The pancreas also makes amylase (alpha amylase) to hydrolyse dietary starch into disaccharides and which are converted by other enzymes to glucose to supply the body with energy. Hypothesis: Most enzymes are very specific for a certain substrate. The active site on the enzyme molecule forms a keyhole into which the substrate fits like a key. The substrate molecule is then broken up into many smaller pieces. “The higher the reaction temperature, the more kinetic