Carbohydrates- Module 2 Flashcards
A single sugar unit is known as a…
Monosaccharide (a monomer of sugar)
What is the chemical composition of a carbohydrate?
Carbon, oxygen, & hydrogen
When two or more monosaccharides are linked they form…
A polymer called a polysaccharide.
Glucose is a monosacharride composed of six carbons and is therefore a…
Hexose monosaccaride
Name the two structural variation of the glucose molecule
Alpha (α) glucose
Beta (β) glucose
How does alpha glucose differ from beta glucose?
The hydroxyl group (OH) on carbon 1 is in opposite positions
Alpha- Bellow
Beta- Above
This affects the structure and properties of the polysaccarides when it bonds
How is a disaccharide formed?
A condensation reaction
2 monosaccharides join together in a condensation reaction.
The two hydroxyl groups interact - bonds are broken in the OH group and a new glycosidic bond is formed
Water is released
What makes Lactose?
Glucose + galactose = Lactose
What is Maltose?
Glucose + glucose = Maltose
What makes Sucrose?
Glucose + fructose = Sucrose
What is a pentose sugar?
Sugars that contain five carbon atoms
Which two pentose sugars are important components of biological molecules?
Ribose (sugar found in RNA) and Dexoyribose (sugar found in DNA)
What are the properties of starch?
Compact
Chemical energy store
Easily digestible
Made of amylose (mainly, 1-4 glycosidic bonds) and amylopectin (1-4 and some 1-6 glycosidic bonds)
Insoluble does not create a water potential gradient (doesn’t cause water to enter cells by osmosis which would make them swell up)
Describe the properties and structure of amylose.
Long chains of alpha glucose (unbranched)
Joined by 1-4 glycosidic bonds
Insoluble (does not create water potential gradient)
Metabolically inactive
Long chain of glucose that twists into a helix (compact for storage)
Helix held together by hydrogen bonds
Describe the properties and structure of amylopectin.
Long, branched chains of alpha glucose
Joined by 1-4 glycosidic bonds (chains) and 1-6 glycosidic bonds (branches)
1-6 branching points occur approximately one in every 25 glucose subunits.
Compact and idealy for storage
Insoluable (do not affect water potential)
Branches gives ‘free ends’ so glucose can be added or released quickly
Describe the properties and structure of glycogen
Short, branched chains of alpha glucose
Joined by 1-4 glycosidic bonds (chains) and 1-6 glycosidic bonds (branches)
Compact and insoluble so good for storage
Branching means many ‘free ends so glucose can be released (or stored) quickly
What is the function of glycogen?
Main energy store in animals
Stores soluble glucose that affects water potential as insoluble polysaccharide until needed
Describe the structure and properties of cellulose.
Long, unbranched chain of beta (β) glucose
Contains 1-4 glcyosidic bonds
Beta (β) glucose molecules bond forming straight cellulose chains
Every other glucose molecule is orientated at 180 degrees - e.g alternate beta (β) glucose are turned upside down.
Chains are linked by hydrogen bonds forming strong fibres called microfibrils (compact)
Microfibrils join to make macrofibrils, which combine to make fibres
Describe the function of cellulose?
Cellulose is an important part of our diet as it is very hard to breakdown so if the fibre necessary for a healthy digestive system
Cellulose provides structural support for cells
How is a disaccharide broken down?
Hydolysis reaction
Addition of water to hydrolyse the disaccharide into (useable) monomers
Reactions are catalysed by enzymes
These are the opposite of condensation reactions that form glycosidic bonds.
