Download Biological Molecules

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

Document related concepts
Transcript
Biological Molecules



Some useful vocabulary:
 Mono – one
Monomers are linked to other monomers
 Poly – many
by covalent bonds to form polymers.
 Meros – piece/part
 Synthesis – to make/build
 Hydro – water
 Lysis – to break
a POLYMER is a large molecule formed from repeating subunits of smaller
molecules (e.g. proteins, starch, DNA are all polymers).
DEHYDRATION SYNTHESIS (synthesis reaction): forms large molecules
(polymers) from small molecules (polymerization). (Dehydration = to remove
water) In the process water is produced. Here is how two amino acids (small
molecules) form a dipeptide
In synthesis, one molecule loses an H+, one molecule loses an OH-. In the
above example, amino acids can continue to be added to either end of the
dipeptide to form polypeptides. Large polypetides are called proteins.
 HYDROLYSIS (hydro = water, lysis = to split): is the opposite reaction.
Water breaks up another molecule. The addition of water leads to the
disruption of the bonds linking the unit molecules together. One molecule
takes on H+ and the other takes an OH-. This also requires the action of
helping molecules called enzymes.
Enzymes that do this are called
hydrolytic enzymes.
 The molecules of life are divided into 4 classes: Carbohydrates, Lipids,
Proteins, and Nucleic Acids.

Carbohydrates: Starch, Cellulose and Sugars
 Carbohydrates are molecules made of Carbon, Hydrogen, and Oxygen



all carbohydrates have the general formula: Cn(H2O)n  hence the name
"Hydrated Carbon" or "Carbo - Hydrate" (this is because the raion of H to O
is 2:1, same as water)
Carbohydrates are very important in living systems for the following
functions:
1.
Energy source (Short-term energy supply (e.g. glucose)
2.
Energy storage (e.g. glycogen, starch)
different forms used for ENERGY, FOOD STORAGE, & STRUCTURAL
SUPPORT in plants and animals

H O CH2
H
OH
if the number of carbon atoms is low, the carbohydrate is a simple sugar
Monomer (monosaccharide)
 simplest sugars (generally referred to as glucose)
 serve as building blocks for more complex sugars
 Examples: "hexose" = 6-C sugar, 5-C sugars = "pentose" sugars)
 Glucose, a hexose, is blood sugar and is used as an immediate source of
energy (fructose and galactose are other common hexoses and have the
same molecular structure C6H12O6, but different ring structures and
different chemical properties)
O
O
H
OH
OH
H
H
OH
H


Glucose is a monomer for larger carbs. The body uses Condensation
synthesis to join monomers together to build larger molecules (water
has been removed as monomers are joined together
Glucose is formed in green plants by photosynthesis
6CO2 + 6H2O + Light energy C6H12O6 + 6O2
DISACCHARIDES: formed from dehydration synthesis, synthesis reaction,
between two monosaccharides
O
Mono + Mono  Di + Water
O
i.e. glucose + glucose = maltose + water
glucose + fructose = sucrose + water
glucose + galactose = lactose + water
O
These reactions are REVERSIBLE
(hydrolysis)
Monosaccharides and disaccharides are all water soluble
POLYSACCHARIDES: a carbohydrate that contains a large number of
monosaccharide molecules. Starch and Glycogen are polysaccharides, and are
polymers of glucose for plants (starch) and animals (glycogen).
 Three main important types in living systems. All are made of repeating
glucose subunits:
1) STARCH - the storage form of glucose in plants. Made of fairly
straight chains of glucose, with few side branches off the main chain. The
structure is BRANCHED.
2) GLYCOGEN - the storage form of glucose in animals (stored in the liver
and muscle cells). Many side chains of glucose. In animals, the liver
converts glucose to glycogen for storage. In between meals, liver releases
glucose into blood so blood [glucose] remains at 0.1%. The structure is
HIGHLY BRANCHED
3) CELLULOSE – most relevant on earth, primary structural component of
plant cell walls. Linkage of glucose subunits different than in starch or
glycogen. The structure is UNBRANCHED


Human digestive system can’t digest cellulose, so it passes through
the intestines undigested. Other names for the cellulose in plant
foods are "fiber" or "roughage."
dietary fiber is important to health and for the prevention of such
things as colon cancer.