Storing and using genetic information

Question 1

Define phenotype

Answer 1

Outward, physical manifestation of organism

Question 2

Define genotype

Answer 2

Full hereditary information of organism (even if not expressed)

Question 3

What is a nucleotide made up of?

Answer 3

o 2’ deoxyribose sugar
o Base
o Phosphate group

Question 4

Describe the structure of DNA

Answer 4

Double stranded helix
The bases are arranged in the centre of the helix, bound on the outside by the sugar-phosphate backbone.
There are 10 bases for every full turn of the helix.
These nucleotides connect using carbons 3 and 5 on the pentose sugars.
The polynucleotide chains run anti-parallel to one another – that is one runs 5’ to 3’ from the top of the helix in the picture, while the other runs 3’ to 5’.
The way the helix is wound results in a major and a minor groove – this is important for the interaction of proteins with the DNA molecule – many binding sites are located in the major groove.
The double helix is also right-handed and spirals in a clockwise (right-handed) direction.

Question 5

Describe complementary base pairing

Answer 5

Complementary base pairing refers to the structural pairing of nucleotide bases in deoxyribonucleic acid, which is commonly known as DNA
• Adenine – Thymine (Uracil in RNA)
• Cytosine - Guanine

Question 6

Describe in outline the post-transcriptional processing of RNA.

Answer 6

In eukaryotes, a synthesized RNA transcript may undergo a number of levels of processing known as post-transcriptional modifications. In the case of messenger RNA, modification is necessary to convert pre-mRNA into a mature mRNA that is ready for protein translation. One such modification is splicing.

Question 7

Describe alternative splicing and its function

Answer 7

• Alternative splicing is a process by which the exons of the RNA produced by transcription of a gene (a primary gene transcript or pre-mRNA) are reconnected in multiple ways during RNA splicing. The resulting different mRNAs may be translated into different protein isoforms; thus, a single gene may code for multiple proteins.

Question 8

Describe chromatin

Answer 8

• Name given to the mixture of DNA proteins and RNA that package DNA within the nucleus
• Divided between heterochromatin (condensed) and euchromatic (extended) forms

Question 9

How can you distinguish between heterochromatin and euchromatin?

Answer 9

Chromatin is found in two varieties: euchromatin and heterochromatin. Originally, the two forms were distinguished cytologically by how intensely they stained – the euchromatin is less intense, while heterochromatin stains intensely, indicating tighter packing.

Question 10

Which processes require the two strands of DNA to be separated?

Answer 10

DNA transcription

DNA replication

Question 11

What are the two major mechanisms that unwind DNA?

Answer 11

o Histones enzymatically modified

o Histones displaced by chromatin remodelling complexes

Question 12

What are the stages of mitosis?

Answer 12

Interphase
Prophase
Prometaphase
Metaphase
Anaphase
Telophase
Cytokinesis

Question 13

What does mitosis produce?

Answer 13

Two daughter cells identical to the parent cell

Question 14

What happens during interphase?

Answer 14

Chromsomes duplicate and the copies remain attached to each other

Question 15

What happens during prophase?

Answer 15

Chromosome condense and become visible in the nucleus. Spindles start to form in the cytoplasm.

Question 16

What happens during prometaphase?

Answer 16

Nuclear membrane breaks apart and the spindle starts to interact with the chromosomes

Question 17

What happens during metaphase?

Answer 17

The copied chromosomes align in the middle of the spindle

Question 18

What happens during anaphase?

Answer 18

Chromsomes separate into two genetically identical groups and move to opposite ends of each spindle

Question 19

What happens during telophase?

Answer 19

Nuclear membranes form around each set of chromosomes.The chromosomes begin to spread out and the spindle begins to break down,

Question 20

What happens during cytokinesis?

Answer 20

The cells split into two daughter cells, each with the same number of chromosomes as the parent. In humans, such cells have 23 pairs of chromosomes and are called diploid.

Question 21

Describe DNA replication

Answer 21

DNA replication is Semi-conservative and Bi-directional. This means that one half of each DNA molecule is old, and the other is new, and the strands are created in opposite directions.
DNA Helicase unzips the double helix by breaking H bonds.
Then new nucleotides are added in using DNA Polymerase, which builds the new DNA strand using complementary base pairing.
The new strand is formed in the C’5 to C’3 direction.
Another Polymerase enzyme is responsible for copying off the other template strand, but it forms discontinuous fragments (okazaki fragments)which are then connected by DNA ligase.

Question 22

When are chromosomes most compact and visible during mitosis?

Answer 22

Metaphase

Question 23

What % of the genome codes for proteins?

Answer 23

<2%

Question 24

Wha % of the genome is made up of repeated sequences?

Answer 24

50%

Question 25

Define exons and introns

Answer 25

• Exons = Coding Regions

* Introns = Non-coding Regions

Question 26

What is the genetic code?

Answer 26

• Describes how base sequences are converted into amino acids
• Each set of 3 bases is called a codon
• Each codon specifies a particular amino acid

Question 27

How many codons are there in the human genome?

Answer 27

64 (4^4)

Question 28

What is genetic redundancy?

Answer 28

The number of codons is greater than the number of amino acids. With the exception of methionine and tryptophan they are all encoded by more than one codon.

Question 29

What are genetic synonyms?

Answer 29

Codons that refer to the same amino acid are called synonyms and tend to be very similar.

Question 30

What is the wobble position?

Answer 30

Variations between synonyms tend to occur at the third base of the codon – the wobble position.

Question 31

Whats the benefit of genetic redundancy?

Answer 31

This degeneracy minimises the effect of genetic mutations in order that alterations to the base sequences are less likely to alter the protein being coded for. This prevents any alteration in protein structure and hence function.

Question 32

What amino acid is the initiation codon?

Answer 32

Methionine

Question 33

What mutation is associated with sickle cell anaemia?

Answer 33

• A mutated Haemoglobin gene causes Sickle Cell Anaemia.
• In the mutant hemoglobin a hydrophilic glutamate (Glu) is substituted by the hydrophobic valine (Val), (GAA or GAG becomes GUA or GUG)

Question 34

What is RNA used for?

Answer 34

Protein synthesis

Question 35

Describe the open reading frame

Answer 35

A set of codons runs continuously and is bound by a start/initiation codon and a termination codon – this is known as the open reading frame and is used to identify DNA which encodes protein sequences in genome sequencing projects

Question 36

What determines the reading frame of an RNA sequence?

Answer 36

Initiation codon

Question 37

Whats the major role of tRNA?

Answer 37

Major role is to translate mRNA sequence into amino acid sequence

Question 38

Describe how a base sequence of DNA is transcribed into a base sequence in RNA.

Answer 38

o Methionine only has one possible Codon sequence. It acts as the Initiation Codon and tells enzymes where to begin the transcription of RNA.
o From there, the sequence is read in Codons until the Termination Codon is reached, which tells the enzymes to stop transcribing.
o Once this has occurred, the sequence copied is spliced and the junk sections of RNA called “Exons” are removed, leaving the Introns., and producing a strand of Messenger RNA (mRNA). During this phase, the initial order of the entrons can be mixed up. i.e. “1-2-3-4” can be rearranged to make “1-2-4”, “1-3-4” or “1-2-3-4”.
o Once the mRNA has been produced, a cap is added to the ‘5 end and a tail is added to the ‘3 end, to protect it from being broken down by other enzymes

Question 39

Describe the translation of mRNA

Answer 39

o Translation occurs in the endoplasmic reticulum
o To start off, a small ribosomal subunit attaches to the mRNA molecule. At the same time, a specific tRNA molecule carrying methionine binds to the corresponding section of the mRNA. Finally, the large unit of the ribosome joins the smaller one and the tRNA, and the tRNA occupies the P section of the binding sites.
o Once another tRNA comes along carrying the correct amino acid for the next section of mRNA, it binds to the A site.
o As the ribosome moves along, the tRNA in the P site leaves, and the one in the A site takes its place, and the amino acid it was carrying.
o This sequence continues, and the amino acid chain grows, until a termination sequence is reached, upon which, the polypeptide chain is released and the ribosome splits into its sub units again.

Question 40

What is the function of mRNA?

Answer 40

Carries information from the nucleus to the cytoplasm for protein synthesis.

Question 41

What is the function of tRNA?

Answer 41

• Major role is to translate mRNA sequence into amino acid sequence
• Acts as an adaptor molecule between the coded amino acid and the mRNA

Question 42

What is rRNA?

Answer 42

• Component of ribosome
• rRNA molecules are produced in nucleus
• Transported to cytoplasm where they combine with proteins to form a ribosome
• Short half life, very susceptible to enzyme degradation, protects stocks and prevents excessive protein formation

Question 43

What is a polysome?

Answer 43

Several ribosomes can translate mRNA at one time to make numerous copies of a protein, creating what is known as a polysome