Introduction to DNA

Question 1

Explain the ultrastructure of DNA on ‘beads on a string’.

Answer 1

DNA is wrapped around 8 histones also called a histone core. This structure is called a nucleosome. The DNA between the nucleosomes are genes that are expressed and can be read.

Question 2

How come the DNA wraps itself around the histone core?

Answer 2

Because the histones are positively charged and the DNA is negatively charged.

Question 3

What other even more dense form of packaging exist?

Answer 3

The solenoid.

Question 4

What is heterochromatin?

Answer 4

DNA that is in the packaging form of a solenoid (30 nm fibre). These genes are not expressed and cannot be read. The heterochromatin on a TEM is stained much darker than euchromatin.

Question 5

What is euchromatin?

Answer 5

The DNA that is in the packaging form of ‘beads on a string’. These genes are expressed and can be read. The euchromatin on a TEM is stained much lighter.

Question 6

Explain the ultrastructure of chromosomes.

Answer 6

They are tightly packed solenoids with a p-arm and a q-arm. Each chromosome has two chromatids.

Question 7

Explain briefly what genes are.

Answer 7

Genes carry the code for proteins.

Question 8

Where can you find the genes?

Answer 8

They have a chromosomal location. Certain genes can be found on certain chromosomes.

Question 9

How many genes can be found in a human?

Answer 9

Around 25000

Question 10

Define the genome.

Answer 10

The genome is the entire DNA sequence of the 24 chromosomes. 22 autosomes + sex chromosomes X and Y.
It is the total genetic information of an organism.

Question 11

Explain the structure of the DNA.

Answer 11

It’s a nucleic acid which are polynucleotides = linear polymers of nucleotides.

Question 12

What are nucleotides?

Answer 12

A nitrogenous base with a pentose sugar and a phosphate group.

Question 13

What are nucleosides?

Answer 13

A nitrogenous base with a pentose sugar. NO phosphate group!

Question 14

What are the two types of pentose sugar? How do they differ?

Answer 14

Ribose which can be found in RNA.
2-deoxyribose where there is an absence of the oxygen that can be found on ribose on the second carbon.
2-deoxyribose can be found in DNA.

Question 15

What is the charge of the phosphate group?

Answer 15

It’s negatively charged so it can bind to the histones.

Question 16

There are two types of nitrogenous bases (structurally). Which? How do they differ?

Answer 16

Purines which have a 2 ring structure

Pyrimidines which have a 1 ring structure

Question 17

What are the two types of purines in DNA and RNA?

Answer 17

Adenine and guanine

Question 18

What are the three types of pyrimidines found in DNA and RNA?

Answer 18

Cytosine, thymine and uracil

Question 19

What are nucleotides joined via?

Answer 19

Phosphodiesterbonds

Question 20

What does the polymer chain of DNA or RNA start with at the 5’ end?

Answer 20

A phosphate group

Question 21

What does the polymer chain of DNA or RNA end with at the 3’ end?

Answer 21

An OH group.

Question 22

What can be found at the 5’ end?

Answer 22

Phosphate group

Question 23

What can be found at the 3’ end?

Answer 23

an OH group.

Question 24

What types of nitrogenous bases bind to which?

Answer 24

Pyrimidines bind to purines.
A binds to T
G binds to C
A also binds to U

Question 25

What are nitrogenous bases joined via?

Answer 25

Via hydrogen bonds.

Question 26

How many H-bonds does a G-C binding have?

Answer 26

3

Question 27

How many H-bonds does a A-T binding have?

Answer 27

2

Question 28

How many H-bonds does a A-U binding have?

Answer 28

2

Question 29

How is the DNA sequence usually depicted? (Read and written)

Answer 29

Always written and read from 5’ to 3’ and left to right. So from phosphate group to OH group.

Question 30

What would be the complementary strand of 5’ACCTCG3’?

Answer 30

3’TGGAGC5’ since it is antiparallel. If you want to write it from 5’ to 3’ it would b 5’CGAGGT3’

Question 31

What are the different steps in the cell cycle?

Answer 31

(Interphase)
G1
S
G2
and
(Division)
M

Question 32

What happens in G1 interphase?

Answer 32

The cell content is replicated. All organelles and cytoplasm duplicate.

Question 33

What happens in S interphase?

Answer 33

DNA replication

Question 34

What happens in G2 interphase?

Answer 34

There’s a double check where everything that has gone wrong goes under reparation.

Question 35

What happens in M division?

Answer 35

The cell divides into two new daughter cells.

Question 36

What are the three steps of DNA replication?

Answer 36

Initiation
Elongation
Termination

Question 37

Explain initiation.

Answer 37

There’s a recognition of the origin of replication.
This requires DNA polymerase and other specific proteins.
It also requires primate to kick-start the replication.

Question 38

In which direction does DNA polymerase read?

Answer 38

In 3’ to 5’.

Question 39

In which direction is the new strand formed?

Answer 39

In 5’ to 3’ meaning antiparallel to the template strand.

Question 40

What is the leading strand?

Answer 40

The 5’3’ strand that is read by the template strand that goes from 3’ to 5’.

Question 41

What is the lagging strand?

Answer 41

The 5’3’ strand that is read by the template strand that goes from 5’ to 3’.

Question 42

How can the DNA polymerase read the template strand that goes rom 5’ to 3’?

Answer 42

It reads it in reverse by the use of primase. Primers are added along the way so that the DNA polymerase can read in the right direction backwards. This forms Okazaki fragments that are then connected by DNA ligase.

Question 43

Explain elongation.

Answer 43

This is what has previously been discussed. Also how the DNA helix unwinds.

Question 44

How does the DNA helix unwind in order for more replication to occur?

Answer 44

By DNA helicase.

Question 45

When does DNA replication terminate?

Answer 45

Replication occurs all over the DNA strand so not just in one ‘end’ or something. DNA replication stop when two forks meet each other. Because the direction of replication on one fork might be to the right and the other one to the left.

Question 46

What does the one chromosome = one DNA molecules, one chromosome = two DNA molecules mean?

Answer 46

Before replication one chromosome is only one DNA molecule or one chromatid.
After replication one chromosome consist of two DNA molecules or two chromatids.