H2 Digestion
Assessment StatementsH.2.1 State that digestive juices are secreted into the alimentary
canal by glands, including salivary glands, gastric glands in the stomach wall, the pancreas and the wall of the small intestine.
H.2.2 Explain the structural features of exocrine gland cells.H.2.3 Compare the composition of saliva, gastric juice and pancreatic
juice.H.2.4 Outline the control of digestive juice secretion by nerves and
hormones, using the example of secretion of gastric juice.H.2.5 Outline the role of membrane-bound enzymes on the surface of
epithelial cells in the small intestine in digestion.H.2.6 Outline the reasons for cellulose not being digested in the
alimentary canal.H.2.7 Explain why pepsin and trypsin are initially synthesized as
inactive precursors and how they are subsequently activated.H.2.8 Discuss the roles of gastric acid and Helicobacter pylori in the
development of stomach ulcers and stomach cancers.H.2.9 Explain the problem of lipid digestion in a hydrophilic medium
and the role of bile in overcoming this.
Secretion of digestive juices digestive juices are
secreted into the alimentary canal by glands
These glands includes;salivary glands,- secrets
salivagastric glands in the
stomach wall,- secret gastric juice
pancreas, - secrets pancreatic juice
wall of the small intestine, - secrets intestinal juice
Structural features of exocrine gland cellsExocrine glands secrets into a
space, lumen or ductThe clustered secretary cells of an
exocrine gland, arranged around the space into which secretion takes place, are called acini (sing. acinus)
Secretory cells have a distinctive structure, the cyrtoplasm is packed with: rough endoplasmic reticulum
(rER) which synthesis of proteins to be packaged for export
many mitochondria – the source of the ATP necessary for the protein synthesis
several Golgi apparatus – processing & packaging proteins from rER
nucleoli in the nucleus – synthesis ribosomes for rER
Group of acini with their ducts connecting together
TEM of secretory cells of the exocrine glands of the pancreas
By use of a table, compare the composition of saliva, gastric juice & pancreatic juice.
Secretion and gland
Site of action
Active ingredients, conditions required & outcome
pH enzymes &non-enzyme components
substrate or effect product
Salivasalivary glands
mouth6.5–7.5
Amylasemucus
Starchlubricates
maltose
gastric juicegastric glands
stomach
2.0
Pepsinrennin (young mammals only)hydrochloric acid
Proteinscoagulates milk proteincreates acidicenvironment thatkills bacteria
polypeptides
pancreatic juicepancreas
small intestine
7.0
Amylaseproteases (trypsin & chymotrypsin)peptidases
Lipases
nucleases
Starchproteins
polypeptides
Triglycerides
nucleotides
MaltosePolypeptidespeptides &amino acids
fatty acids &Glycerolpentose sugars, Pi & bases
Control of gastric juice secretion by nerves & hormones.
Control of gastric juice secretion by nerves & hormones
sight & smell of food initiate release of gastric juice before food is taken into the mouth
i.e. before food reaches stomach, gastric juice is already secreted by reflex action
chemoreceptors & stretch receptors in gastric mucosa detect presence of food in the stomach
impulses from these receptors are sent to brain, which sends impulses to gastric glands
causing the release more gastric juice
impulses are also sent to endocrine glands in gastric mucosa to release gastrin into the blood stream
gastrin stimulates gastric glands to increase secretions of gastric juice
gastric juices contains hydrochloric acid & pepsinogen
low pH of stomach & hormones inhibits gastrin production through negative feedback mechanism
The control of gastric secretion
Role of membrane-bound enzymes some digestive enzymes such as
maltase are immobilised in the plasma membrane of epithelial cells on the surface of intestinal villi
enzyme immobilisation is when the enzyme molecule is attached to a fixed surface
being fixed to the membrane of the gut epithelium is more efficient since the enzyme is not removed (reused) & can be linked to secondary functions such as membrane transport
maltose binds into the active site of maltase on the cell membrane enzyme.
maltose is hydrolysed into glucose molecules which are immediately absorbed into epithelial cells & pass into blood capillary
Reasons for cellulose not being digested in the alimentary canal
cellulose exists in plant cell walls
it is insoluble in water, causing a problem with it’s digestion
humans do not have enzyme cellulase thus they are not able to digest cellulose
cellulose makes up the roughage or dietary fibre that is an essential component of our diet
eventually, cellulose is egested along with other undigested materials as faeces
Synthesis & activation of Pepsin & Trypsin pepsin and trypsin are
protease enzymesif they were produced in
an active form they would digest the exocrine cells that make them
thus they are produced in an inactive form (precursors), pepsinogen & trypsinogen
pepsinogen is activated by HCl while trypsinogen is activated by enterokinase
Helicobacter pylori (H. pylori)Helicobacter pylori is a bacterium
which enters the stomach & survives by attaching to receptors on the plasma membrane of the cells of the stomach mucosa, below the mucus lining
in stomach, the bacteria are protected from strong acidity by: the mucus layer that lines the inner
surface; secreting the enzyme urease which
neutralized the acidic environment of the stomach by converting urea into the basic ammonia and buffer bicarbonate
bacteria cells can't be destroyed by the body’s immune system because the mucus layer prevents antibodies from reaching the bacteria
Roles of gastric acid & Helicobacter pylori in the development of stomach ulcers & stomach cancers.
about 80 % of gastric ulcers are caused by Helicobacter pylori (H. pylori)
H. pylori is a bacterium which causes gastritis i.e. inflammation of stomach lining
stomach ulcers are open sores in the stomach wall lining
prolonged presence of ulcers may lead to the formation of tumours
cancer of the stomach is a malignant tumour in the stomach wall
H. pylori survives in the stomach mucosa by producing urease which neutralizes gastric acid
colonization by H. pylori opens up & weakens the protective mucus lining for digestive attack by gastric acid (HCl), causing ulcers
linking H. pylori to stomach ulcers was a paradigm shift in medicine
cause was previously thought to be stress, lifestyle, or diet
H. pylori is now thought to be primary cause of gastric ulcers & is now treated as infectious disease
Problem of lipid digestion in a hydrophilic medium & the role of bile in overcoming this
lipids are strongly hydrophobic & resist break-up into small droplets in a hydrophilic (aqueous) medium
lipid molecules tend to coalesce forming droplets of fat
lipase is water soluble but has an active site to which its hydrophobic substrate binds
bile is a strongly alkaline yellow green, mucous fluid containing the bile salts, bile pigments & cholesterol
bile’s main role is to emulsify fats i.e. break fats into tiny droplets which enormously increases their surface area therefore increasing the rate at which it digest lipid
bile also neutralises the acidity of the chyme
Emulsification of fats bile salts are molecules with
both hydrophilic & hydrophobic properties
tiny spheres of lipid are formed, with the hydrophobic part of bile salts embedded in their surfaces, and the hydrophilic parts exposed to interact with water & prevent lipid molecules from coalescing with each other
the droplets in this condition, known as micelles, remain suspended in an aqueous medium.
this process is called emulsification
Revision QuestionsExplain the structural
features of exocrine gland cells. [4]
Compare gastric juice and pancreatic juice. [3]
Outline the control of the secretion of gastric juice by nerves and hormones. [4]
Outline the reason for one named substance found in food not being digested and absorbed by humans. [2]
Discuss the roles of gastric acid and Helicobacter pylori in the development of stomach ulcers and cancers. [5]
Explain why trypsin is initially synthesized as an inactive precursor and how it is activated. [3]
State two components of bile. [2]
Explain the role of bile in lipid digestion. [2]
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