Transcript DIGESTION

Surface Area: Volume
Surface Area: all sides of a shape –
– Area of the walls of an object
– How much Exposed area an object has
Volume: length x width x height
– Amount an object can hold
– Amount of space something takes up
Why is the surface area to volume ratio
important to digestion?
DIGESTION
Each organism on Earth has a digestive system that is
adapted to the type of food that the organism
obtains
Food provides source of raw materials & cellular energy
• Essential to growth and maintaining homeostasis
Most food particles are MUCH LARGER than organisms
are able to digest;
• Must break down into smaller particles to allow for the
release of energy
• Process of DIGESTION
Heterotrophs must break down large food particles into
macromolecules such as…
• Proteins,
• Carbohydrates
• Lipids
Digestion = Process by which food breaks down into
molecules that an organism can absorb or use
Two parts to Digestion:
1. Physical/Mechanical Digestion = Physically breaking
down large pieces of food into smaller ones
– Chewing, grinding of food
–  the size of the particles,
–  the surface area of food
2. Chemical Digestion = breaking down complex food
molecules into simpler ones
– Enzymes
– W/O chemical digestion, large food molecules could not be
absorbed/used
Two Types of Digestions
Extracellular Digestion = Digestion outside of
cells
– Most animals (inc. humans)
– Secrete digestive enzymes into digestive cavity,
initiating chemical digestion
– Digestive tract is open to outside environment
– Body controls what enters and leaves the system
Two Types of Digestion
Intracellular Digestion =
Breakdown of nutrients inside
the cell
Plant digestion inside plant cells –
with foods plant has made itself
– Single cell organisms
– Some have ability to catch prey;
secrete enzymes to digest
• Some organisms secrete
enzymes to digest food
outside the organism, and
then absorb nutrients into the
cells
– Ex. – Fungi & Molds
Digestion for a Complex Multicellular Animal
– Special cavities / Digestive tubes - 2 openings
– Enters mouth; food not digested leaves anus
– One way movement
Digestion system is divided into different regions with
specialized functions
• Diet of animal depends on special digestion required
• Ruminant digestion
Some animals have microorganisms inside special
pockets that help digest difficult substances, such as
cellulose
– Animals that don’t have microorganisms, like Humans,
cannot digest cellulose
– Ex. - Termites
Human Digestion
Four parts to Human
Digestion:
• Ingestion
• Digestion
• Absorption
• Elimination
Digestive Tract – A.K.A.
Alimentary Canal
Ingestion
Ingestion = Eating/process of taking food into
the digestive tract
Begins in oral cavity/Mouth
– Chewing begins Mechanical Digestion
– Food mixes with Saliva = watery secretion
containing digestive enzymes;
Digestive System in the Human
Body
Teeth
Ingestion
Saliva Components that help Chemical Digestion
• Salivary Amylase = Carbohydrates
• Bicarbonate = Neutralize acidic foods
• Mucous = Helps form Bolus (to swallow)
– Bolus = small round lump/mass of chewed food
Why is Mechanical Digestion crucial?
• Mech. Digestion RAISES the SA: Volume ratio
• Enhances Chemical digestive ability through
small pieces
Digestion
Digestion = the process of breaking food down into
molecules small enough for the body to absorb
• Food moves from the mouth to the
– Epiglottis = Flap of muscle tissue that prevents
food/liquids from entering the trachea
• Bolus moves via
– Peristalsis = Wavelike contractions of smooth muscle that
moves food through the alimentary canal
• Helps food move down the Esophagus = channel from
pharynx to the stomach
– ~9m of digestive tract
– Alimentary Canal (Digestive Tract) is Lined with Smooth
Muscle
Digestion / Absorption
Cardiac Sphincter = Valve between esophagus and
stomach
Bolus Reaches the Stomach = large organ that
stores food/major function is protein digestion
Contractions in stomach muscle lining break food
up, mix food
Gastric Juices = Secretions from glands that help
chemically break down food
– Examples: Enzymes, mucus, acid
Stomach
The stomach is HIGHLY acidic
– Gastrin = hormone released in stomach to assist in digestion
– Signaler to start HCL secretion via glands
• (HCL – pH 3) Helps breakdown of stomach contents
– Glands in stomach ALSO secrete Mucus
• Mucus inhibits breakdown of living tissue/stomach lining
Also relies on enzyme Pepsin • Pepsinogen released into stomach
• pH3 environment breaks down shape of Pepsinogen into
Pepsin (active form)
– Breaks down Proteins
Why so acidic?
Enhance protein digestion via Pepsin by first denaturing
proteins
Kills bacteria
Stomach Ulcer
The Stomach and Accessory
Digestive Organs
Absorption
Absorption = where animal cells take up small molecules;
amino acids, simple sugars
Small amounts of partially digested food slowly released
from stomach flow into small intestine via…
Pyloric Sphincter = Valve between stomach and small
intestine
– Bolus now given new name…
– Chyme = thick semi-fluid mass of partly digested food
Small Intestine = section of digestion that controls
digestion, absorption; regulates pancreatic solutions
– ~Six Feet long
– Food mol absorbed
Small Intestine
• Duodenum
– Primary site of digestion!
– Site where chemical digestion is completed
• Jejunum & Ileum
– More digestion
Food remains 3-10 hours in the small intestine
Muscle contractions to mix the food with digestive
juices
– ~95% of digestion takes place here
Why is the small intestine SIX FEET LONG?
Villi in the Small Intestine
Why is the small intestine SIX FEET LONG?
Relate back to Surface Area: Volume Ratio…
Cells need to absorb small molecules
– Use for free energy, raw materials/cell structures
Molecules pass through cells lining the small
intestine
Cross Section of the Small Intestine
Small Intestine
Small molecules pass through cells lining the
small intestine
– Small intestine features…
– Villi = millions of finger-like projections
• Each Villus (singular) contains capillaries – tiny thin
walled blood vessels that serve as entry points to the
blood stream
• Simple sugars, AA, fatty acids, some glycerol and
minerals all pass through cells of villi and enter blood
stream via capillaries
Small Intestine
Blood carries sugars, fats, and proteins from
digestion to the cells
• Inside cells, molecules are broken down further for
energy / Synthesize substances for Development
Villi / each villus in the small intestine, increases
the surface area for absorption
This helps increase the rate of transfer of
essential molecules to the cells of the body.
Liver/Gallbladder/Pancreas
Liver/Gallbladder/Pancreas contribute to digestive
juices of Small Intestine through DUCTS (Not this )
Liver = HUGE organ in the upper abdomen;
MASSIVE
• Aids in digestion
• Produces/Secretes Bile = Breaks up fats
Gallbladder= Stores Bile
• Salts in Bile break down fat molecules
• Increases surface area/volume ratio of
particles to be broken
Liver/Gallbladder/Pancreas
Pancreas = Function in Digestion; Secretes
pancreatic juices (enzymes) that help digest food
in the small intestine
• Gland that secretes Pancreatin
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Bicarbonate (Basic)
Trypsin
Carboxypeptidase
Pancreatic Amylase
Lipase
Nuclease
Liver, Gallbladder, Pancreas
Absorption
• Food molecules are absorbed through
intestinal walls into bloodstream
– Blood carries mol to cells; use in metabolism
Large Intestine = site of re-absorption of water;
indigestible waste accumulation
Large Intestine
Unusable parts of digestive material passes to
Large Intestine
– Has Bacteria
• produce several vitamins, gases, other compounds
– Location where Vitamins/water are absorbed
Elimination
Elimination = Removal of indigestible material
from the digestive tract
– Waste is dried out through absorption in the Large
Intestine
• Forms Feces =
– Feces is eliminated through anus
Macromolecules - Carbohydrates
Where does Carbohydrate digestion begin?
The Mouth
Action of salivary amylase digests starches
Smaller polysaccharides by breaking chemical bonds
• Saliva pH -> 6.0 – 7.4;
• stomach pH 1.0-3.5,
• THUS - no carb digestion in stomach
Carb digestion finishes in the Small Intestine
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Parcreatic juices converting acidic food to basic pH
Salivary amylase is broken down further
Most starch digested in SI
Final result = GLUCOSE
Macromolecules - Proteins
As food enters stomach, stomach cells signaled
to release Gastrin
– Signaler to start HCL secretion
– HCL in stomach will help DENATURE proteins
• Creates SA for Pepsin
When food enters SI, the pancreas produces
juice that shifts the pH from Acidic to Basic
– Bicarbonate
Macromolecules - Lipids
Digested in the small intestine
• Do not mix with water, enzymes digest only the
molecules on the surface of the fat droplets
• Prepared for digestion by Bile
– Bile salts break down fat droplets,
– Increase fat surface area for fat-digesting pancreatic
enzymes
• Bile DOES NOT contain digestive enzymes
– Lipase – A fat digesting enzyme, is secreted in the
pancreatic/intestinal juices;
• Splits fats into FA and glycerol