Molecules

Question 1

What is a macromolecule?

Answer 1

Large biologically important molecules inside cells.
They are composed of sub units and have structural, enzymatic or other functions.
Organelles are a collection of macromolecules that carry out functions in the cell.

Question 2

Examples of macromolecules?

Answer 2

Polysaccharides, Nucleic acids, Protein

Specifically - Hb, DNA, Glycogen, Collagen

Question 3

Water works well as a solvent for?

Answer 3

Ionic and polar compounds.

This is due to the hydrogen bonding in water.
(The electronegative O and the electron with its lone pair of electrons and the deficient H)

Question 4

What type of intermolecular forces does water have?

Answer 4

1. Hydrogen bonding
2. Induced dipole - dipole interactions
3. Permanent dipole - dipole interactions

Due to all three unique 0–100 as a liquid

Question 5

Carbohydrates general formula?

Answer 5

Cn(H20)n

Made up of carbon, hydrogen and water only

Question 6

What is a glycosidic bond?

Answer 6

A condensation reactions between the a carbohydrate (sugar) with another group which is often another sugar.
In this case the 2 OH groups form a covalent bond with the loss of a water molecule.

Question 7

What is a disaccharide?
Oligosaccharide?
Polysaccharide?

Answer 7

Di - 2 monosaccharides
Oligo - 3 - 12 monosaccharides
Poly - 1000s of MS e.g glycogen and proteoglycans

Question 8

What is a proteoglycan?

Answer 8

A structure made up of long unbranched polysaccharides (glycosaminoglycans) radiating from a core of protein.

Tend to have structural functions e.g in cheeks
Can also contain sulphur in which case they soak up lots of water and are used in protection e.g bones and joints

Question 9

General overview of lipids…

Answer 9

Contains a carbon chain usually 16-20 C
They contain a methyl and a carboxyl group at the ends
Unsaturated lipids have lower melting points

Question 10

Steroids general overview…

Answer 10

Multicyclic and complex structures
Involved in cell signally and as they are lipids they can pass into cells and their nuclei.

They stem from 3, 6C rings and 1 5C ring.

Question 11

Eicosanoids…

Answer 11

20 C atom acids
Lipid derivative
Inhibit inflammation and have many more functions

Question 12

Which bases are purines and which are pyrimidines?

Answer 12

Purines = Adenine and Guanine - have 2 rings

Pyrimidines = Uracil, Cytosine, Thymine - all have 1 ring

A 2 T
C 3 G

Question 13

A.A overview

Answer 13

2 different types of side chain and hence 20 different a.a

They can be charged in certain PH’s
COOH — COO-
NH2 — NH3+

They can be polar and can be aromatic

Question 14

Peptide bond?

Answer 14

A peptide bond is a covalent bond between the NH2 and COOH group of 2 amino acids to form a dipeptide and — polypeptide.

A condensation reaction

Question 15

Polar definition?

Dipole definition?

Answer 15

Polar = uneven distribution of electrons
If a bond in a molecule is polar (large difference in electronegativity) then the molecule will be polar. Unless the bonds are symmetrical and hence cancel out.

Dipole = separation of opposite charges

Question 16

In a protein which way do you name the a.as?

Answer 16

From the amine to the carboxyl terminal

Question 17

Protein

Primary, secondary, tertiary, quaternary structures…

Answer 17

1. Sequence of a.a
2. H bonds from causing the formation of an alpha helix of a beta pleated sheet
3. Disulphide bridges and ionic bonds can form, leading to a 3D specific structure
4. Tertiary + more a.a chains +/or a prosthetic group

Question 18

Name the different types of intermolecular forces and bonds found in a protein.

Answer 18

Induced dipole - dipole interactions - electrons moving about in atom cause instantaneous dipole which induces further dipoles in neighbouring molecules that attract.

Permanent dipole - dipole interactions - permanent delta + and delta - attraction

Hydrogen bonding - between electronegative atom, (N, O, F) with a lone pair of electrons that attracts a delta + Hydrogen.

Ionic bonds - atoms lose electrons to form ions that attract one another

Disulphide bridges - only found in cytosine, when the protein folds and it brings two of these molecules together a bridge will form. Provides extra support.

Note - hydrophobic side chains form tight cores in the interior proteins when in water.

Question 19

How to determine the structure of proteins?

Answer 19

X-ray diffraction of protein crystals. This produces spots of light that can be analysed and used to rebuild the protein.

Question 20

Enzymes

Answer 20

Biological catalysts, increases the rate of reaction, but can also control the rate.
Work by the lock and key or induced fit theory…

Question 21

Sickle cell anaemia, what is it and symptoms?

Answer 21

Genetic disorder that is characterised by the formation of hard, sticky sickle shaped red blood cells.
Pain in chest, legs etc as they can block them and also shortness of breath and energy as they transport less oxygen.

Question 22

Antibodies/ immunoglobulins

What is the CDR and what is its job?

Answer 22

= Complementarity determining region
It is responsible for the range of boding effects - ionic, MF’s etc
Also has loops that compliment the surface of the antigen.
This ensures a very tight bond/ antigen-antibody complex.
The portion of antigen bound is known as the epitope.

Question 23

DNA function?

Answer 23

The genetic material of an organism that acts as a template for transcription and hence protein synthesis. It is all the structural basis for heredity and genetic diseases.

Question 24

Prokaryotes vs Eukaryotes DNA?

Answer 24

In prokaryotes the DNS has no nuclear membrane, one circular strand, non linear and is not associated with histones.

Question 25

DNA structure?

Answer 25

It is made up of 4 nucleotide bases, a phosphate group and deoxyribose.
It is made of two anti parallel strands and grows from the 5 to the 3 prime end, via the phosphate group binding with the OH and hence forming a phosphodiester bond.

Question 26

Epigenetics

Answer 26

How environmental factors such as jet and stress can cause heridedible changes to DNA without changing the DNA base sequence.
This is due to methylation and acylation.

Question 27

Oncogenes

Proto-oncogenes

Answer 27

A mutated gene that can cause cancer

A gene involved in normal cell growth (regulate division and death)

Question 28

DNA Replication:

Answer 28

DNA opens at the replication fork and DNA helicase splits the strands.
Topoisomerase unwinds the strands and then DNA nucleotides activated using ATP join via complimentary base pairing.
Each strand has one new and one old strand and this is why it is called Semi-conservative replication.
The strands are shut via DNA Polymerase - forming the phosphodiester bonds

DNA has multiple origins of replication.

Question 29

Polymerase Chain Reaction

Answer 29

1. Select DNA to be amplified
2. Heat to separate the strands
3. Cool and add primers
4. Add heat stable DNA polymerase
5. Heat and cool with primers and DNA nucleotides and repeat to produce more copies

Question 30

What damages DNA?

Answer 30

Chemicals
Radiation - ionising and UV

DNA adduct = reacts with bases to form a bulky group that disrupts replication

Question 31

DNA repair:

Answer 31

The base or nucleotide is taken out (excision)

Then the strand is corrected

Question 32

What are the differences between DNA and RNA?

Answer 32

Double stranded
1 x type
More stable
No Uracil

Question 33

3 types of RNA and their function?

Answer 33

MRNA - (messenger) - template for protein synthesis
RRNA - (ribosomal) - 4 types and protein are used to form ribosomes
TRNA - (transfer) - complimentary anticodon to codon on mRNA brings specific a.a to ribosome

Question 34

Transcription process:

Answer 34

DNA helicase separates the two strands
Topoisomerase unwinds it
RNA nucleotides join to their complimentary base pairs
RNA polymerase forms the sugar phosphate backbone.
Pre mRNA detaches and is spliced in the nucleus
It then passes out the nuclear pore and will travel to a ribosome most likely on the RER

Question 35

Introns

Exons

Answer 35

Introns = non coding sections of DNA
Exons = coding sections of DNA

Question 36

The code is…

Answer 36

Almost universal
Degenerate
Non overlapping

Question 37

What turns expression off?

What turns expression on

Answer 37

Represors that inhibit RNA polymerase binding
Enzymes no longer activated
RNA stability
Methylation acylation

On = TFs

Question 38

Retro virus =

Answer 38

a virus that can produce DNA from RNA using an enzyme known as reverse transcriptase

Question 39

Hb

Answer 39

Haemoglobin is a quaternary protein involved in transporting oxygen around the body via red blood cells.
At the core of Hb is a porphyrin ring which golds an iron atom this iron atoms forms ligand with oxygen.

increase temperature decreased affinity of Hb for oxygen - enhance unloading.

Question 40

What is the job of glycosylases?

Answer 40

Glycosylases are involved in the repair of damaged bases in DNA