Digestive System – NotesBard https://notesbard.com Find Here Funded PhD Programs, Postdoc Positions, Scholarships Sat, 19 Feb 2022 03:49:27 +0000 en-US hourly 1 https://wordpress.org/?v=6.6.2 https://notesbard.com/wp-content/uploads/2024/04/NotesBard-Logo-150x150.png Digestive System – NotesBard https://notesbard.com 32 32 Digestive System: Diagram, Function, Definition, and Facts https://notesbard.com/digestive-system-diagram-function-definition/ https://notesbard.com/digestive-system-diagram-function-definition/#respond Sat, 19 Feb 2022 01:24:42 +0000 https://notesbard.com/?p=589 What is Digestive System?

Living organisms consume food to maintain a proper condition of our body and becomes essential for survival. An ideal diet is required to meet daily requirements of our body.

Body homeostasis (constant functioning of body) is achieved by the food we eat daily.

Nutrition is the processing of food material into basic components such as Amino Acid, Carbohydrate, Fats, Vitamins and Minerals.

All these components are absorbed and utilized later in stomach and intestine. The nutrition provides raw materials for metabolic activity to produce energy in the form of ATP.

ATP then drives our body mechanisms to build, protect and provide fuel for maintaining the stability.

Though carbohydrates provide 70 – 80% of the energy, Lipids (fats) contributes about 20% of the energy and are interconvertible to certain forms which makes it an ideal compound to store in body at Adipose tissues.

When our body requires energy the storage fats are broken down and enters metabolic cycles to provide ATP.

When require fats produces precursor (early compound form of any substance which on breakdown or activated to give a desired molecule.

For example: retinol which is converted into RETINAL – a structural component in vision) for Vitamin A and Vitamin D.

Parts of Digestive System

I. Mouth

Mouth has an enzyme called Lingual Lipase. Lingual lipase is not effective in breaking down all fat present in food. It reduces small amount of fats into smaller components.

Lipase is one of the constituents of saliva. The minimal breakdown of fats and mechanical chewing of food along with the help of muscle; the food now becomes bolus.

Digestive System- Diagram, Function, Definition, and Facts

II. Oesophagus

The bolus is now transported in the long tube to the stomach by the action of peristalsis an involuntary mechanism which moves the food particle to stomach.

III. Stomach

Bolus when reaches stomach and acted by gastric enzymes bolus becomes chyme. Stomach contains Gastric lipase. Gastric lipase along with HCl emulsifies the fats results in Fat Emulsion. Fat Emulsion enters small intestine for further digestion.

Intestine and Associated Organs

Fats are not easily digested by stomach and mouth. When fats enter intestine its associated organs such as Pancreas and Liver produces lipase and Bile salts respectively.

A special feature of fats is that they are hydrophobic (i.e.) they are insoluble in water. In order to digest then the bile salts and liquid produced by liver mixes the immiscible fat substances into small clusters of molecules.

Pancreatic lipase mixes along bile and forms many digestive products namely: Free fatty acids, Mono acyl glycerol, Cholesterol and Long Chain Fatty Acid.

The bile salts combine with lipids to form a micelle. Micelle is water soluble structure which easily absorbs fats.

Micelle Formation

Micelle now provides surface area to fat breakdown. Thus, the formation micelle with bile salts and pancreatic lipase is Fat Emulsification.

Emulsification of fats takes place in intestine which are later taken into enterocytes – the intestinal cells.

Transport of Micelle is done through 2 ways:

1. Diffusion: movement of fat molecules because of the difference in the concentration. The concentration of micelle outside the enterocytes are high and inside the cells are low. Because of this difference, the micelle is transported to low concentration region.

2. Protein Carrier Transport: certain proteins present in the cell membrane will take up micelle and enter it into the cells.

On entry, the micelle reaches the endoplasmic reticulum present inside enterocyte. In endoplasmic reticulum; Apoproteins acts on the micelle and forms CHYLOMICRONS. Chylomicrons are substances which transports micelle to the lacteal and blood vessels present outside the cell.

Lipid Digestion

Most of the lipids present in chylomicron enters lacteal vessels; a part of lymphatic system. After circulating in the lymphatic system, they travel to circulatory system using certain proteins for their transportation.

Some part of lipids enters certain organs for breakdown of lipid into energy. Other part of lipids reaches adipose tissues in the skin.

In Adipose Tissue, the fats namely glycerol, free fatty acids on esterification (i.e.) alcohol and ester forms a product becomes Triacylglycerol which is stored till its requirement.

When the fats are required for energy production triacylglycerol on lipolysis (i.e.) breakdown of lipids forms Free Fatty Acids and Glycerol and moves back to organs for ATP production.

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Digestive System Citations

]]> https://notesbard.com/digestive-system-diagram-function-definition/feed/ 0 Digestive System: Definition, Types, & Examples https://notesbard.com/digestive-system-definition-types-examples/ https://notesbard.com/digestive-system-definition-types-examples/#respond Sun, 26 Sep 2021 23:53:03 +0000 https://notesbard.com/?p=2952

Table of Contents

Human Digestive System

Digestive Enzymes

The complex foods that we eat are digested in a series of steps beginning in the mouth itself. Each of these complex food items ends up being catabolized to its basic monomeric units in a complex process. For instance, the ingested steak pieces are broken down to the amino acid level and ingested carbohydrates release glucose.

Mouth

The food is broken down physically and emasculated by the chewing activity of the teeth that also helps to mix the food with saliva. Saliva contains salivary amylase or ptyalin and is produced by the salivary glands. This enzyme helps to maintain the alkaline pH of the mouth and it acts on starch and breaks it down to maltose, so carbohydrate digestion starts in the mouth. The leftover starch is digested in the stomach and duodenum.

Digestive System, Digestive Enzymes, 1

The food after it is mixed with saliva is termed bolus. This is then passed through the food pipe or esophagus by peristalsis that refers to waves of contraction. Due to this movement bolus reaches the stomach via the cardiac sphincter that prevents reflux or regurgitation of food.

Stomach

Gastrin is a hormone that is released in the bloodstream when it detects peptides in the stomach. It stimulates the gastric glands located in the stomach wall to secrete gastric juice that is acidic. Its components include renin, HCl acid, gelatinase, pepsinogen, gastric lipase, and gastric amylase.

HCl is responsible for acidic pH ranging from 1-3 in the stomach. This acidic pH helps to kill any pathogen present and also helps in the conversion of pepsinogen into a more active form of pepsin. Pepsin digests proteins present in the stomach to peptide fragments.

Renin enzyme is crucial in the digestion and proteolysis of milk proteins. Gelatinase enzyme aids in the digestion of proteoglycans in meat ( type IV and V collagen) and type I and type V gelatin.

Gastric amylase helps continue starch digestion and acts on undigested starch. Gastric lipase enzyme is involved in the digestion of butterfat into glycerol and fatty acids. After all these processes, the food is now termed chyme and it is passed into the duodenum via the pyloric sphincter.

Duodenum

Duodenal glands are constituted by Brunner’s Glands found throughout the duodenum. These gland secretions help in making the duodenum pH alkaline containing bicarbonate ions. This alkaline pH is essential to activate intestinal enzymes, protect walls of the duodenum from chyme that is acidic, and lubricate the walls.

The 3 intestinal juices secreted in the duodenum include Pancreatic Juice, Intestinal Juice, and Bile Juice. Bile juice reaches the duodenum through the bile duct after it is secreted by the gall bladder. It aids in the emulsification of fats as it contains bile salts. Fats are emulsified into globules that are acted on by enzyme lipase present in the pancreatic juice.

The pancreas secretes pancreatic juice that reached the duodenum via the pancreatic duct that opens into the duodenum. This juice contains different enzymes including chymotrypsin, steapsin, carboxypolypeptidase, pancreatic amylase, and trypsinogen.

The Enterokinase enzyme in the intestinal juice activates trypsinogen converting it into trypsin that acts on proteins. Pancreatic Lipase or steapsin digests fats into glycerol and fatty acids. Enzyme carboxypolypeptidase acts on peptides and breaks them into amino acids. Pancreatic amylase acts on starch.

The glands on intestinal walls secrete intestinal juice that contains eripsin, enterokinase, maltase, lactase, and sucrase. Eripsin breaks polypeptides into individual amino acids. Maltase enzyme breaks down Maltose to glucose. Sucrase catalysis sucrose into glucose and fructose. The lactase enzyme breaks lactose into glucose and galactose.

Ilium

Fingerlike extensions line the ilium walls and are known as villi that are in turn made of microvilli. Due to these projections, the surface area of the ilium is increased. The most important function of the ilium wall is to absorption of products of digestion, vitamin B12, and bile salts. Ilium wall cells do secrete carbohydrase and protease that help to culminate carbohydrate and protein digestions.

The villi are enriched with capillaries that help in the absorption of the amino acids and glucose via the hepatic portal vein to the liver. Small lymph vessels known as lacteals occur in villi. They aid in the absorption of fat digestion products. These lacteals transport these to the lymphatic system for purpose of filtering.

Large Intestine

The large intestine functions to absorb excess water, storing waste, absorbing vitamins like vitamin K and maintaining water balance. It includes the cecum, colon, rectum, and anal canal. Colon acts to absorb excess water present in feces. Feces are temporarily stored within the rectum ampulla. The desire to defecate arises from the stimulation of stretch receptors due to the expansion of rectal walls.

If the urge is controlled, then material returns to the colon where excess water is again absorbed. Constipation can occur if defecation is delayed for long and it can also cause feces to harden. From the rectum, the feces are passed onto the anal canal from where they are removed by the anus.


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