2.1: The structure of RNA and DNA

Question 1

Nucleic acids are a group of the most what molecules?

Answer 1

Nucleic acids are a group of the most important molecules

Question 2

Nucleic acids are a group of the most important molecules, of which the best known are what?

Answer 2

Nucleic acids are a group of the most important molecules, of which the best known are:

1. Deoxyribonucleic acid (DNA)
2. Ribonucleic acid (RNA)

Question 3

The what structure of DNA makes it what?

Answer 3

The double helix structure of DNA makes it immediately recognisable

Question 4

What does DNA carry?

Answer 4

DNA carries genetic information

Question 5

Despite its complex structure, what is DNA made up of?

Answer 5

Despite its complex structure, DNA is made up of nucleotides

Question 6

Despite its complex structure, DNA is made up of nucleotides that have what?

Answer 6

Despite its complex structure, DNA is made up of nucleotides that have just 3 basic components

Question 7

What are individual nucleotides made up of?

Answer 7

Individual nucleotides are made up of 3 components, a:

1. Pentose sugar
2. Phosphate group
3. Nitrogen-containing organic base

Question 8

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has what), a phosphate group and a nitrogen-containing organic base?

Answer 8

Individual nucleotides are made up of 3 components, a:

1. Pentose sugar (so called because it has 5 carbon atoms)
2. Phosphate group
3. Nitrogen-containing organic base

Question 9

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
What are these nitrogen-containing organic bases?

Answer 9

These nitrogen-containing organic bases are:

1. A - Adenine
2. C - Cytosine
3. G - Guanine
4. T - Thymine
5. U - Uracil

Question 10

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of what, to form what?

Answer 10

The:
1. Pentose sugar
2. Phosphate group
3. Organic base
are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide)

Question 11

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide).
2 mononucleotides may, in turn, be joined as a result of a condensation reaction between what?

Answer 11

2 mononucleotides may, in turn, be joined as a result of a condensation reaction between the:

1. Deoxyribose sugar of one mononucleotide
2. Phosphate group of another

Question 12

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide).
2 mononucleotides may, in turn, be joined as a result of a condensation reaction between the deoxyribose sugar of one mononucleotide and the phosphate group of another.
What is the bond formed between them called?

Answer 12

The bond formed between them is called a phosphodiester bond

Question 13

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide).
2 mononucleotides may, in turn, be joined as a result of a condensation reaction between the deoxyribose sugar of one mononucleotide and the phosphate group of another.
The bond formed between them is called a phosphodiester bond.
What is the new structure called?

Answer 13

The new structure is called a dinucleotide

Question 14

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide).
2 mononucleotides may, in turn, be joined as a result of a condensation reaction between the deoxyribose sugar of one mononucleotide and the phosphate group of another.
The bond formed between them is called a phosphodiester bond.
The new structure is called a dinucleotide.
The continued linking of mononucleotides in this way forms a long chain known as what?

Answer 14

The continued linking of mononucleotides in this way forms a long chain known as a polynucleotide

Question 15

Individual nucleotides are made up of 3 components, a pentose sugar (so called because it has 5 carbon atoms), a phosphate group and a nitrogen-containing organic base.
The pentose sugar, phosphate group and organic base are joined, as a result of condensation reactions, to form a single nucleotide (mononucleotide).
2 mononucleotides may, in turn, be joined as a result of a condensation reaction between the deoxyribose sugar of one mononucleotide and the phosphate group of another.
The bond formed between them is called a phosphodiester bond.
The new structure is called a dinucleotide.
The continued linking of mononucleotides in this way forms a long chain known as a polynucleotide.
In addition to DNA and RNA, some other what molecules contain nucleotides?

Answer 15

In addition to:
1. DNA
2. RNA
,some other biologically important molecules contain nucleotides

Question 16

‘Thymine’ is a base in DNA, but what is ‘thiamine’?

Answer 16

‘Thymine’ is a base in DNA, but ‘thiamine’ is vitamin B1

Question 17

Don’t get confused between DNA and proteins.

DNA is a sequence of bases, but proteins are a sequence of what?

Answer 17

1. DNA is a sequence of bases
   ,but
2. Proteins are a sequence of amino acids

Question 18

Don’t get confused between DNA and proteins.
DNA is a sequence of bases, but proteins are a sequence of amino acids.
What join to form a polynucleotide and what join to form a polypeptide?

Answer 18

1. Nucleotides join to form a polynucleotide

2. Amino acids join to form a polypeptide

Question 19

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of what?

Answer 19

Ribonucleic acid is a polymer made up of nucleotides

Question 20

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a what chain?

Answer 20

RNA is a:
1. Single
2. Relatively short
3. Polynucleotide
chain

Question 21

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a single, relatively short, polynucleotide chain in which the pentose sugar is always what?

Answer 21

RNA is a:
1. Single
2. Relatively short
3. Polynucleotide
chain in which the pentose sugar is always ribose

Question 22

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a single, relatively short, polynucleotide chain in which the pentose sugar is always ribose and what are the organic bases?

Answer 22

RNA is a single, relatively short, polynucleotide chain in which the:

1. Pentose sugar is always ribose
2. Organic bases are A, U, C and G

Question 23

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a single, relatively short, polynucleotide chain in which the pentose sugar is always ribose and the organic bases are A, U, C and G.
What does one type of RNA do?

Answer 23

One type of RNA transfers genetic information from DNA to the ribosomes

Question 24

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a single, relatively short, polynucleotide chain in which the pentose sugar is always ribose and the organic bases are A, U, C and G.
One type of RNA transfers genetic information from DNA to the ribosomes.
What are the ribosomes themselves made up of?

Answer 24

The ribosomes themselves are made up of:

1. Proteins
2. Another type of RNA

Question 25

Ribonucleic acid (RNA) structure:
Ribonucleic acid is a polymer made up of nucleotides.
RNA is a single, relatively short, polynucleotide chain in which the pentose sugar is always ribose and the organic bases are A, U, C and G.
One type of RNA transfers genetic information from DNA to the ribosomes.
The ribosomes themselves are made up of proteins and another type of RNA.
What is a third type of RNA involved in?

Answer 25

A third type of RNA is involved in protein synthesis

Question 26

DNA structure:

In what year, who worked out the structure of DNA?

Answer 26

In 1953:
1. James Watson
2. Francis Crick
worked out the structure of DNA

Question 27

DNA structure:

In 1953, James Watson and Francis Crick worked out the structure of DNA, following what by who?

Answer 27

In 1953:
1. James Watson
2. Francis Crick
worked out the structure of DNA, following pioneering work by Rosalind Franklin

Question 28

DNA structure:
In 1953, James Watson and Francis Crick worked out the structure of DNA, following pioneering work by Rosalind Franklin on what?

Answer 28

In 1953:
1. James Watson
2. Francis Crick
worked out the structure of DNA, following pioneering work by Rosalind Franklin on the X-ray diffraction patterns of DNA

Question 29

DNA structure:

In DNA, what is the pentose sugar?

Answer 29

In DNA, the pentose sugar is deoxyribose

Question 30

DNA structure:

In DNA, the pentose sugar is deoxyribose and what are the organic bases?

Answer 30

In DNA, the:

1. Pentose sugar is deoxyribose
2. Organic bases are A, T, C and G

Question 31

DNA structure:
In DNA, the pentose sugar is deoxyribose and the organic bases are A, T, C and G.
What is DNA made up of?

Answer 31

DNA is made up of 2 strands of nucleotides (polynucleotides)

Question 32

DNA structure:
In DNA, the pentose sugar is deoxyribose and the organic bases are A, T, C and G.
DNA is made up of 2 strands of nucleotides (polynucleotides).
Each of the 2 strands is what and they are joined together by what formed between where?

Answer 32

Each of the 2 strands is extremely long and they are joined together by hydrogen bonds formed between certain bases

Question 33

Base pairing:

The bases on the 2 strands of DNA attach to each other by what bonds?

Answer 33

The bases on the 2 strands of DNA attach to each other by hydrogen bonds

Question 34

Base pairing:
The bases on the 2 strands of DNA attach to each other by hydrogen bonds.
It is these hydrogen bonds that hold the 2 strands together.
What is the base pairing?

Answer 34

The base pairing is specific

Question 35

Base pairing:
The bases on the 2 strands of DNA attach to each other by hydrogen bonds.
It is these hydrogen bonds that hold the 2 strands together.
The base pairing is specific.
What are the base pairs?

Answer 35

The base pairs are:

1. A and T
2. G and C

Question 36

Base pairing:
The bases on the 2 strands of DNA attach to each other by hydrogen bonds.
It is these hydrogen bonds that hold the 2 strands together.
The base pairing is specific.
A always pairs with T and G always pairs with C.
As a result of these pairings, A is said to be what and G is said to be what?

Answer 36

As a result of these pairings:

1. A is said to be complementary to T
2. G is said to be complementary to C

Question 37

Base pairing:
The bases on the 2 strands of DNA attach to each other by hydrogen bonds.
It is these hydrogen bonds that hold the 2 strands together.
The base pairing is specific.
A always pairs with T and G always pairs with C.
As a result of these pairings, A is said to be complementary to T and G is said to be complementary to C.
It follows that the quantities of A and T and C and G in DNA are always the same.
However, what varies from species to species?

Answer 37

The ratio of:
1. A and T
to
2. G and C
varies from species to species

Question 38

In every molecule of DNA, what are always the same?

Answer 38

In every molecule of DNA, the:
1. Phosphate group
2. Deoxyribose
3. 4 bases
are always the same

Question 39

In every molecule of DNA, the phosphate group, the deoxyribose and the 4 bases are always the same.
What differs between one DNA molecule and another one are what?

Answer 39

What differs between one DNA molecule and another one are the:
1. Proportions
2. More importantly, the sequence
,of each of the 4 bases

Question 40

In order to appreciate the structure of DNA, you need to imagine the ladder-like arrangement of the 2 polynucleotide chains being twisted.
In this way, what wind around one another to form a double helix?

Answer 40

In this way, the uprights of:
1. Phosphate
2. Deoxyribose
wind around one another to form a double helix

Question 41

Why is DNA a stable molecule?

Answer 41

DNA is a stable molecule, because:

1. The phosphodiester backbone protects the more chemically reactive organic bases inside the double helix
2. Hydrogen bonds link the organic base pairs

Question 42

DNA is a stable molecule, because the phosphodiester backbone protects the more chemically reactive organic bases inside the double helix and hydrogen bonds link the organic base pairs, forming what between what?

Answer 42

DNA is a stable molecule, because:

1. The phosphodiester backbone protects the more chemically reactive organic bases inside the double helix
2. Hydrogen bonds link the organic base pairs, forming bridges (rungs) between the phosphodiester uprights

Question 43

DNA is a stable molecule, because the phosphodiester backbone protects the more chemically reactive organic bases inside the double helix and hydrogen bonds link the organic base pairs, forming bridges (rungs) between the phosphodiester uprights.
As there are how many hydrogen bonds between C and G, the what the proportion of what, the more stable the DNA molecule?

Answer 43

As there are 3 hydrogen bonds between:
1. C
2. G
,the higher the proportion of C - G pairings, the more stable the DNA molecule

Question 44

DNA is the hereditary material responsible for passing genetic information from what?

Answer 44

DNA is the hereditary material responsible for passing genetic information from:

1. Cell to cell
2. Generation to generation

Question 45

DNA is the hereditary material responsible for passing genetic information from cell to cell and generation to generation.
In total, there are around how many base pairs in the DNA of a typical mammalian cell?

Answer 45

In total, there are around 3.2 billion base pairs in the DNA of a typical mammalian cell

Question 46

DNA is the hereditary material responsible for passing genetic information from cell to cell and generation to generation.
In total, there are around 3.2 billion base pairs in the DNA of a typical mammalian cell.
What does this vast number mean?

Answer 46

This vast number means that there is an almost infinite variety of sequences of bases along the length of a DNA molecule

Question 47

DNA is the hereditary material responsible for passing genetic information from cell to cell and generation to generation.
In total, there are around 3.2 billion base pairs in the DNA of a typical mammalian cell.
This vast number means that there is an almost infinite variety of sequences of bases along the length of a DNA molecule.
It is this variety that provides what?

Answer 47

It is this variety that provides the genetic diversity within living organisms

Question 48

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation how?

Answer 48

DNA is a very stable structure, which normally passes from:
1. Generation
to
2. Generation
without change

Question 49

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA do what?

Answer 49

Only rarely does DNA mutate

Question 50

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA mutate.
2. Its 2 separate strands are joined only with what?

Answer 50

DNA’s 2 separate strands are joined only with hydrogen bonds

Question 51

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA mutate.
2. Its 2 separate strands are joined only with hydrogen bonds, which allow them to do what?

Answer 51

DNA’s 2 separate strands are joined only with hydrogen bonds, which allow them to separate during:

1. DNA replication
2. Protein synthesis

Question 52

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA mutate.
2. Its 2 separate strands are joined only with hydrogen bonds, which allow them to separate during DNA replication and protein synthesis.
3. It is an extremely large molecule and therefore carries what?

Answer 52

DNA:

1. Is an extremely large molecule
2. Therefore carries an immense amount of genetic information

Question 53

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA mutate.
2. Its 2 separate strands are joined only with hydrogen bonds, which allow them to separate during DNA replication and protein synthesis.
3. It is an extremely large molecule and therefore carries an immense amount of genetic information.
4. By having the base pairs within what, the genetic information is to some extent protected from being what?

Answer 53

By having the base pairs within the helical cylinder of the deoxyribose-phosphate backbone, the genetic information is to some extent protected from being corrupted by outside:
1. Chemical
2. Physical
forces

Question 54

The DNA molecule is adapted to carry out its functions in a number of ways:
1. It is a very stable structure, which normally passes from generation to generation without change.
Only rarely does DNA mutate.
2. Its 2 separate strands are joined only with hydrogen bonds, which allow them to separate during DNA replication and protein synthesis.
3. It is an extremely large molecule and therefore carries an immense amount of genetic information.
4. By having the base pairs within the helical cylinder of the deoxyribose-phosphate backbone, the genetic information is to some extent protected from being corrupted by outside chemical and physical forces.
5. What does base pairing lead to?

Answer 54

Base pairing leads to DNA being able to:
1. Replicate
2. Transfer
information as mRNA

Question 55

What does the function of the remarkable molecule that is DNA depend on?

Answer 55

The function of the remarkable molecule that is DNA depends on the sequence of base pairs that is possesses

Question 56

Nucleic acids are large molecules contained where?

Answer 56

Nucleic acids are large molecules contained in the nucleus of cells

Question 57

Nucleic acids are large molecules contained in the nucleus of cells (hence the name).
Nucleic acids are composed of monomers called nucleotides.
A nucleotide is composed of 3 subunits (one phosphate group, one pentose sugar and one organic nitrogenous base.
These subunits are joined by what to form what?

Answer 57

These subunits are joined by covalent bonds to form a nucleotide molecule

Question 58

In DNA, the sugar is what, whereas in RNA, what is the sugar?

Answer 58

In:
1. DNA, the sugar is deoxyribose
,whereas
2. RNA, the sugar is ribose

Question 59

Features of nucleotides:

DNA and RNA have the same what, but a different pentose sugar and different what?

Answer 59

DNA and RNA have:
1. The same phosphate group
,but:
2. A different pentose sugar
3. Different base pairs

Question 60

Apart from U in place of T, RNA is different to DNA in how many other ways?

Answer 60

Apart from U in place of T, RNA is different to DNA in 2 other ways - The:

1. Sugar is ribose, not deoxyribose
2. Nucleotide strand is a single strand, not double

Question 61

Apart from U in place of T, RNA is different to DNA in 2 other ways - The sugar is ribose, not deoxyribose and the nucleotide strand is a single strand, not double.
Also, there are 2 different kinds of what?

Answer 61

Also, there are 2 different kinds of DNA:

1. Messenger RNA (mRNA)
2. Transfer RNA (tRNA)

Question 62

There are 5 bases (A, T, C, G and U), split into what?

Answer 62

There are 5 bases (A, T, C, G and U), split into 2 types:

1. Purine bases
2. Pyrimidine bases

Question 63

There are 5 bases (A, T, C, G and U), split into 2 types - Purine bases and pyrimidine bases.
What are the purine bases?

Answer 63

The purine bases are:

1. A
2. G

Question 64

There are 5 bases (A, T, C, G and U), split into 2 types - Purine bases and pyrimidine bases.
What are the pyrimidine bases?

Answer 64

The pyrimidine bases are:

1. T
2. C
3. U

Question 65

What are the 2 antiparallel strands in DNA held together by?

Answer 65

The 2 antiparallel strands in DNA are held together by hydrogen bonds