Organisms exchange substances with their environment AQA AS Biology PART 3 of 5 TOPICS: Digestion and absorption

Summary based on the AQA specification

HideShow resource information
Preview of Organisms exchange substances with their environment AQA AS Biology PART 3 of 5 TOPICS: Digestion and absorption

First 306 words of the document:

Organisms exchange substances with their environment (AQA AS
Biology) PART 3 of 5 TOPICS
Digestion and absorption:
Large molecules are hydrolysed into smaller molecules so that they can be absorbed across the cell
membrane.
The following molecules being digested and the absorption of the products must be known:
Carbohydrates: Amylase in the saliva hydrolyses starch into two maltose molecules.
Pancreatic juices that are secreted into the stomach contain amylase too. Maltase is
embedded in the intestinal wall which hydrolyses the maltose into two glucose molecules.
This is then absorbed into the blood stream by co-transport which is explained in 'Biological
molecules AQA AS Biology PART 8 of 8 TOPICS: Inorganic ions'. NB: It is important that you
say hydrolyses and not break down as you will not get the mark.
Lipids: Bile emulsifies fats in the stomach for digestion to happen faster. It is secreted by the
liver. Pancreatic lipase hydrolyses the fats into monoglycerides and fatty acids.
Monoglycerides and fatty acids combine with bile salts and phospholipids to form micelles.
The bile slats and phospholipids allows the poorly soluble monoglycerides and fatty acids to
the cells lining the intestinal walls where the non-polar nature of these molecules help them
to diffuse through the lipid bi-layer.
Proteins: Amino peptidase from the pancreas is an exopeptidase where it hydrolyses the ends
of the polypeptide to make amino acids. Trypsin is an endopeptidase where it hydrolyses the
proteins into polypeptides in the middle. Cells from the intestinal wall secrete enzymes called
dipeptidase which hydrolyse dipeptides into amino acids. This is then absorbed into the blood
using co-transport which is similar to glucose and is further explained in 'Biological molecules
AQA AS Biology PART 8 of 8 TOPICS: Inorganic ions'.

Comments

No comments have yet been made

Similar Biology resources:

See all Biology resources »See all resources »