biomlecules_2

Biological molecules 1

Biomolecules

Molecules that make up living things

Types of Biological Molecules

ProteinsWater Lipids

Nucleic acids Carbohydrates

Organic Compounds Most Biomolecules are organic This means they are based on

Carbon and include hydrogen Includes carbohydrates, lipids,

proteins and nucleic acids Also includes vitamins

Macromolecules

Large biomolecules Many of these are polymers.

Polymers: long molecules built by linking together small, similar subunits (monomers)

Building up polymers Condensation polymerization (aka

as dehydration synthesis) removes an OH and H during synthesis of a new molecule. ATP

Polymerization Diagram Water is formed and ATP is

required Water

Monomers Polymer

ATP ADP+pi

energy

Breaking down polymers Hydrolysis breaks a covalent bond

by adding OH and H from a water molecule

Hydrolysis Diagram

Water is required Water

Polymer Monomers

Types of Biomolecules

Carbohydrates Carbohydrate means “hydrated” carbon

Composing elements C, H, O

Hydrogen and Oxygen are in a ratio of 2:1

Can be simple monomers like glucose

Can be complex polymers like cellulose

Groups of Carbohydrates

Carbohydrates

sugars

Monosaccharides (monomers)

Disaccharides( Dimers)

Polysaccharides (polymers)

Monosaccharides C6H12O6

Fructose Galactose Glucose

Importance: Energy source: used as a reactant

in respiration Monomer Unit: used to form:

Dimers (disaccharides) and Polymers (polysaccharides)

Disaccharides

Lactose: glucose + galactose Maltose: glucose + glucose Sucrose: glucose + fructose

sucrose

Condensation to form Disaccharides

Importance: Energy storage: sucrose is a store of

energy in sugarcane and sugar beets

Energy transport: carbohydrate is transported in plants as sucrose

Polysaccharides

Structural Carbohydrates

Chitin – arthropod exoskeleton and fungal cell wall modified form of cellulose

Try making a Concept map

Use the following terms to construct a concept mapMonosaccharidePolysaccharideDisaccharidePolymerMonomerCarbon 19

hydrogen oxygen glucose sucrose cellulose Starch Chitin

Glycogen Amylases Respiration Plants Animals Energy

storageAny others

Protein C,H,O,N and some have S(a few might also have P due to Addition of P in modification process but P is not a component of amino acids)

insulin:C254H377N65O76S6

Made by Ribosomes Amino acids are

JOIN together by PEPTIDE BONDS Following a

sequence dictated by the DNA

Polypeptide?/Protein

Transcription

Translation

20 naturally occurring and encoded by DNA

About half can be made by our body and about half need to be consumed(Between 8-10 are essential)

Amino Acids

Glutamine (gln)

Aspartic Acid (asp)

Phenylalanine (phe)

20 different amino acids encoded by the DNA

Folding of polypetides to form Proteins

Shape of a proteins are important because

This determines how they interact with other molecules

This determines their particular function

Primary Structure

phe glu tyr ser iso met phe glu

Peptide(phosphodiester) bonds

secondary Structure

Tertiary Structure

Quaternary Structure

Summary

CATALYSTS eg. lipase

REGULATION(hormones) Eg Insulin

STRUCTURAL eg.Keratin

STRUCTURAL eg. Histone Protein

TRANSPORT: eg haemoglobin

TRANSPORT: protein channels or carrier proteins

IMMUNITY: eg Antibodies

CONTRACTILE: eg Actin and Myosin

Muscle contraction and relaxation

Surface receptors

Secondary Energy source

respiration

Try making a Concept map Amino acid R group Peptide bond Polypeptide Catalysts Hormones Structures Transport

Transport Haemoglobi

n Immunity antibodies Protein

channels Proteases Carbon

Hydrogen Oxygen Nitrogen Sulfur Monomer Polymer Amino

group energy

Lipids Composing elements C, H, O

Lipids are loosely defined as groups of organic molecules that are insoluble in water. Their chemical formula vary considerably.

Include: fats oils Waxes Phospholipids steroids: sex hormones and cholesterol some vitamins glycolipids (lipids with carbohydrates attached)

Lipid structure Most lipids are composed of a of

glycerol molecule with attached fatty acids

Triglyceride

Phospholipid

Fatty acid

GLYCEROL FATTY ACIDS

Fatty acid

HYDROPHYLIC END

HYDROPHOBIC END GLYCEROL

FATTY ACIDS

Lipid structure Some lipids have a four ringed

structure Eg. Cholesterol and other lipids

that are derived from cholesterol

Steroid HormonesProgesterone: responsible for changes associated with the menstrual cycle and with differentiation factor for mammary glands

Aldosterone: raises blood pressure and fluid volume, increases Na+ uptake

Testosterone: male sex hormone synthesized in the testes, responsible for secondary male sex characteristics

Estradiol: an estrogen, principal female sex hormone, produced in the ovary, responsible for secondary female sex characteristics

Cortisol: involved in stress adaptation, elevates blood pressure and Na+ uptake, numerous effects on the immune system

Saturated fats:

Their fatty acids have no double bonds between carbon atoms(have maximum number of hydrogen atoms)Straight structureUnhealthy fats usually from animal sourcesSolid at room temperature(20°C)

Saturated fatty acid

Unsaturatedfats

Their Fatty acids have:Have some carbon atoms that are double bonded(not fully hydrogenated)Kinked in shapeHealthy From plant sources Liquid at room temperature (20°C)

Unsaturated fatty acid

Importance; Biological Role

Used to store energy (approx 36 kj/gram)

Lipids are often stored in special adipose tissue, within large fat cells

Fat cell

Lipids are concentrated sources of energy and can be broken down (through fatty acid oxidation in the

mitochondria) to provide fuel for aerobic respiration

Mitochondrion (false color TEM)

An important structural component of membranes

Phospholipids are the primary structural component of all cellular membranes, such as the plasma

membrane (false color TEM above).

acts as a shock absorber and good insulator

Fat absorbs shocks. Organs that are prone to bumps and shocks (e.g.

kidneys) are cushioned with a relatively thick layer of fat.

The white fat tissue (arrows) is visible in this ox kidney

Stored lipids provide insulation in extreme

environments. Increased body fat levels in winter reduce heat

losses to the environment.

Water proofing of some surfaces

Transmission of chemical messages via hormones

Waxes and oils, when secreted on to surfaces

provide waterproofing in plants and animals.

Forming a triglyceride NOT a Polymer

Try making a Concept map Glycerol Fatty acids Steroids Ring

structure Triglycerides Saturated unsaturated

lipases Carbon Insulation Phospholipi

d Membrane Hormones Energy

storage

Hydrogen Oxygen Waxes Oils Fats Shock

absorption

Nucleic Acids Composing elements: C, H , O, P, N Deoxyribonucleic Acid (DNA)

Encodes information used to assemble proteins.

Ribonucleic Acid (RNA) Reads DNA-encoded information to

direct protein synthesis.

DNA nucleotides

Nucleotide structure

Deoxyribose

(sugar)

Phosphate group Nitrogen base

(A,G,C,T)

Nucleotide structure

purines pyrimidines

Try Making a Concept map Nucleotide Monomer Polymer DNA mRNA RNA tRNA rRNA

genetic information

Amino acids Ribosome carbon

Hydrogen Oxygen Nitrogen Phosphorus

END OF PRESENATION

biomlecules_2

dnabiological molecules

long molecules

vitamins biological

glucose glucose sucrose

glucose galactosemaltose

complex polymers

store of energy

energy storage

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