Transcript Digestion 2

How it works!
Enzymes are necessary
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Biological catalysts – globular proteins
which will increase reaction rates due to
the lowering of activation energy – now
the reaction does not require as much
energy nor as high temperatures so
proteins will not be denatured and cells
not damaged
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Biological catalysts are released from
GLANDS along the digestive tract and
some from organs outside the tract as
well
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Since they break down larger molecules
they are called Catabolic reactions
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http://highered.mcgrawhill.com/sites/0072495855/student_view0/chapter2/
animation__how_enzymes_work.html
Mouth And Esophagus
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The Mouth is the site of Mechanical
Digestion. The process of chewing breaks
down the large chunks of food
The salivary glands release enzymes like
salivary amylase that break down large
carbohydrate molecules (starch) into
smaller units
A bolus is created and by the use of the
tongue and muscles – it is swallowed
The epiglottis closes over so the bolus
passes to the esophagus and not the
trachea and lungs
Peristalic muscle contractions push the
bolus toward the stomach through the
cardiac sphincter
The Stomach
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Mechanical digestion occurs when
muscular contractions churn the contents.
There is a high content of HCl –
hydrochloric acid that breaks down food
and kills bacteria
The enzyme pepsin begins the breakdown
of proteins in the low pH environment (pH
= 2 or 3)
As the wall of the stomach is stretched
signals are sent to release the enzymes –
pepsinogen is the precursor to pepsin
The gastric pits also release mucous and
the gastric acids.
The mucous is for protection for the wall
lining of the stomach
There are both circular muscles and
longitudinal muscles present
The Small Intestine – The duodenum
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Bile is made in the liver and released from
the bile duct and is used to emulsify fats
and increase the pH of the contents
Pancreatic amylase is released from the
pancreas to continue the breakdown of
the smaller carbohydrate chains
Trypsin is released to further breakdown
the proteins to amino acids
Digestion is completed here
The jejunum also will release digestive
enzymes and absorption takes place in the
ileum
The ileum has massive amounts of fingerlike projections called villi
Peristalsis keeps the mixture of both
digested and undigested food moving
through the small intestine toward the
large intestine where the ileum spills into
The Villi
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Absorption occurs through the villi of the small intestine
There is a single layer of surface cells so absorption is easier due to a short diffusion path
The molecules pass from the lumen of the small intestine and are carried to blood vessels or the lacteal
The capillary carries blood too (oxygenated) and from (deoxygenated with nutrients) and maintains the
concentration gradient
The lacteal will transport the fats (lipoproteins to the circulatory system (lymph vessels)
There is a high amount of mitochondria in the lining cells as they are needed for active transport of
particles across the cell membranes
The microvilli serve to enhance the surface area as well
Large Intestine and Rectum
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http://youtu.be/jsVgi8hoFFc
Now all the food nutrients have been
absorbed, you are left with a liquid
waste of indigestible matter
Most of the water must be recalimed
back to the blood before egestion
Mucous is excreted so movement of
the harder stool will continue with the
peristalsis
The surface area is maxed by foldings
Fibre rich diets keep the ‘flow’ going
and reduce the risks of diseases like
colon cancer and diverticulitis
The RECTUM serves as a holding
area until egestion
The faeces is composed of: Lignin and
Cellulose, Dead intestinal cells,
Bacteria and bile pigments (friom liver
breaking down old blood cells