digestion and absorption ppt

Created by

Emma B

Cards (34)

Digestion reactions1 
Larger molecules are hydrolysed into smaller molecules
Smaller molecules are absorbed into blood in the small intestine
These are hydrolysis reactions
A molecule of water is added to break the bond
Hydrolysis 
Add molecule of water to break the bond
Enzymes 
Use specific enzymes to catalyse reactions
These are specific due to the shape of their active site
Only this molecule can bind with the active site to form an enzyme-substrate complex
The 4 polymers broken down into monomers
starch
cellulose
glycogen
polypeptides/proteins
Digestion is the hydrolysis of large, insoluble substances to small(er), soluble substances
Digestive enzymes 
Amylase
Lactase
Sucrase
Maltase
Lipase
Amylase 
Substrate: starch
Products: maltose
Type of bond hydrolysed: glycosidic
Lactase
Substrate: lactose
Products: glucose + galactose
Type of bond hydrolysed: glycosidic
Sucrase
Substrate: sucrose
Products: glucose + fructose
Type of bond hydrolysed: glycosidic
Maltase
Substrate: maltose
Products: glucose + glucose
Type of bond hydrolysed: glycosidic
Lipase
Substrate: triglycerides
Products: monoglycerides + fatty acids
Type of bond hydrolysed: ester
Small molecules like monosaccharides, amino acids, vitamins, minerals, fatty acids, glycerol do not need digesting
Organs involved in digestion (& absorption)
Liver
Stomach
Gall bladder
Pancreas
Large intestine
Small intestine
Rectum
Stomach 
Proteases secreted (e.g. pepsin)
Gall bladder 
Stores & releases bile
Liver 
Makes bile
Large intestine 
Absorbs water
Pancreas 
Secretes amylase, lipase, protease
Small intestine 
Absorption of small molecules
Disaccharidases & dipeptidases are found on the cell surface membrane of epithelial cells
Digestionoverview 
Larger molecules hydrolysed into smaller ones by enzymes in lumen of ileum or on cell surface membrane of epithelial cells
Absorption overview
Smaller molecules absorbed across cells into blood
Assimilationoverview 
Products of digestion transported to cells & used by cells
Absorption of products of digestion (in the ileum)

-Blood flow away from the ileum maintains concentration gradients so products of digestion continue to diffuse across
-e.g glucose has a higher conc. outside of the epithelial cells. This happens as the glucose going through the epithelial cells by FD then into the villi which has a lower conc. & therefore it keeps moving out of the villi & repeating the process
Digestion of triglycerides 
1. Fatty acids & monoglycerides are surrounded by bile salts to form micelles
2. Fatty acids & monoglycerides are released and cross the cell surface membrane by simple diffusion
3. Triglycerides are reformed and surrounded by protein to form chylomicrons
4. Chylomicrons are secreted into the lymph vessel and then transported into the blood
Digestion reactions 2
It uses specific enzymes to catalyse the hydrolysis of specific bonds in specific molecules
Enzymes are specific due to the shape of their active site which is only complimentary to the shape of the substrate and only this molecule can bind with the active site to form an E-S complex
It breaks polymers down into their constituent monomers (what they're made up of) The 4 polymers are proteins, starch, glycogen and cellulose
Digestion of carbohydrates
The hydrolysis of glycosidic bonds
Amylase- from the salivary glands and pancreas
Hydrolysis of starch to maltose
Disaccharidases are embedded in the c.s.m of epithelial cells of the ileum and these hydrolyse maltose, sucrose, and lactose
Digestion of lipids
Hydrolysis of ester bonds
Lipase- from the pancreas
It hydrolyses triglycerides to monoglycerides and fatty acids
Bile salts- emulsify large lipid droplets into smaller ones providing a larger surface area for lipase to act= faster hydrolysis/digestion
Digestion of proteins/polypeptides
Hydrolysis of peptide bonds
There's 3 types of protease involved- endo+exopeptidases, dipeptidases
Digestion of proteins/polypeptides ?
-Endopeptidases=hydrolyse internal peptide bonds creating more smaller polypeptides, providing more 'ends' for exopeptidases to act on for faster hydrolysis
-Exopeptidases=hydrolyse end peptide bonds creating single amino acids
-Dipeptidases=The combined action of both endo/exopeptidases leaves some dipeptides, dipeptidases hydrolyse these (the dipeptidases are embedded in the c.s.m like disaccharidases)
Absorption of fatty acids and monoglycerides
Bile salts= polar so cannot enter, they transport monoglycerides and fatty acids to the epithelial cell
Fatty acids & monoglycerides= surrounded by bile salts to form micelles
Fatty acids & monoglycerides released & cross the cell surface membrane by SDiffusion
The fatty acids and monoglycerides reformed into triglycerides-done by golgi- & are now in the cytoplasm(= 70% water)the triglycerides are surrounded by protein to form chylomicrons
Chylomicrons are secreted into the lymph vessel and transported into the blood
Co-transport of glucose and sodium ions
Sodium ions actively transported into the blood
This keeps a low conc. of sodium ions in the cell because they're leaving and going into the blood
So, sodium ions always have a conc. gradient to diffuse down into the cell, taking glucose with it (despite conc. gradient)
Facilitated diffusion into the blood
Overall this gets as much glucose out of the diet as possible
Co-transport of amino acids & sodium ions
Sodium ions are actively transported into the blood
This keeps a low conc. of sodium ions in the cell because they are leaving and going into the blood
So, sodium ions always have a conc. gradient to diffuse down into the cell, taking amino acids with it (despite the conc. gradient)
Facilitated diffusion into the blood
Which 2 enzymes are embedded in the c.s.m of an ileum epithelial cell?
-Dipeptidases
-Disaccharidases
Why are some enzymes denatured as they pass through the various regions of the gut?
E.g due to the acidic regions of the stomach