Nucleic Acids

Question 1

give an overview on the structure of DNA

Answer 1

• dna is found mainly in the nucleus
• the backbone consists of deoxyriboses linked by phosphodiester bridges called bonds
• the sugar of one nucleotide is joined at the hydroxyl group on carbon three to the phosphate group attached to carbon five of the sugar of the next nucleotide
• the bases project laterally from the sugar residues

Question 2

what is the 3’5’ phosphodiester bond

Answer 2

the bond between the OH group on 3’ of one sugar and the phosphate group on 5’ of the other sugar

Question 3

give a breakdown on the structure of a single DNA strand

Answer 3

• sugar phosphate backbone formed by the 3’5’ phosphodiester bonds
• the double stranded structure that dna usually adopts is held together by hydrogen bonding between base pairs
• two chains wound around each other to form a regular double helix
• one strand is linked to another by base pairing

Question 4

what direction is the double helix

Answer 4

it is right handed

Question 5

how many bonds hold guanine and cytosine together

Answer 5

three bonds

Question 6

how many bonds hold adenine and thymine together

Answer 6

two bonds

Question 7

how are the two single dna strands held together

Answer 7

hydrogen bonding between the base pairs

Question 8

give a breakdown on the general structure of RNA

Answer 8

• rna is ribonucleic acid
• it is found mainly in the cytoplasm
• it has the same 5’3’ backbond as DNA
• uracil replaces thymine in rna
• the ribose replaces deoxyribose
• it is single stranded, so no base pairing occurs

Question 9

what is the exception to the no base pairing rule found in rna

Answer 9

hairpin loops, where there is local double strand formation occuring within DNA when there are stretches of bases that lie in close enough proximity to each other that they can form local double strands by the rna folding back on itself

Question 10

what are the three types of rna

Answer 10

ribosomal rna
transfer rna
messenger rna

Question 11

how much of the rna in the cell is composed of ribosomal rna

Answer 11

80%

Question 12

what is used to measure the actual size of the rna

Answer 12

the sedimentary coefficient

Question 13

what composition of the total RNA is made up by messenger RNA

Answer 13

5%

Question 14

what composition of total RNA in a cell is made up by transfer RNA

Answer 14

15%

Question 15

which form of RNA has a varying size when in animal cells

Answer 15

messenger RNA

Question 16

what does the base sequence of DNA contain

Answer 16

genetic information in all cells known as the genetic code

Question 17

what is the genetic code transmitted by

Answer 17

genes

Question 18

what are genes

Answer 18

specific stretches of DNA that code for a protein

Question 19

what are most of our characteristics coded by

Answer 19

our genes

Question 20

what is the amino acid sequence of each protein determined by

Answer 20

the nucleotide sequence of its corresponding genes

Question 21

what is the genome

Answer 21

the whole genetic information within a single cell nucleus

Question 22

how is the order of nucleotides within DNA determined

Answer 22

they are ordered in such a way that they code for a specific sequence of amino acids

Question 23

what are the different genomes you can find

Answer 23

viruses, bacteria and eukaryotes

Question 24

what is an example of a virus genome and give its size

Answer 24

polyma and SV40 are both around 5100 bases in length

Question 25

give an example of bacteria and its size

Answer 25

e. coli which is 4000 bases long

Question 26

give an example of some eukaryotic genomes and their size

Answer 26

yeast have 13,500 and drosophila have 165000 bases
humans have 2.9 million bases

Question 27

how are protein synthesised from dna

Answer 27

dna codes for the proteins, and we have to decipher the genetic message contained in DNA such that we have a protein made. this is done via the processes of transcription and translation

Question 28

give a breakdown of transcription

Answer 28

• in the nucleus, dna unfolds (hydrogen bonds are split) to expose base pairs of the template strand
• we now have two single strands of dna
• rna polymerase copies sequences of bases in the template strand of dna to produce mrna
• mrna is translated by trna using ribosomes as functional support in the cytoplasm

Question 29

give a breakdown of translation

Answer 29

• each trna molecule carries an amino acid to the ribosome
• there one specific trna molecule for each amino acids
• amino acid is then transferred to the growing polypeptide chain
• the sequence of mrna codons determines the sequence of amino acids in a protein

Question 30

how are do trna molecules join the amino acids

Answer 30

each trna molecule contains an anticodon which is a sequence of three bases which is complementary to a sequence of three bases called a codon on the mrna

Question 31

how many transfer rnas are encoded by a triplet code

Answer 31

up to 64

Question 32

how many amino acids are there

Answer 32

20

Question 33

can some amino acids have more than one trna

Answer 33

yes

Question 34

which codons code for phenyl alanine

Answer 34

uuu and uuc

Question 35

how many different codons does serine have

Answer 35

six

Question 36

what does it mean to say that genetic code is degenerate

Answer 36

multiple codons that code for the same amino acid

Question 37

how do the degenerate codons differ

Answer 37

by the third base position - they are usually grouped together

Question 38

how does protein synthesis start

Answer 38

every protein has a start codon which signals for synthesis to begin. the start codon AUG codes for methionine.

Question 39

how does protein synthesis get terminated

Answer 39

there are signals to terminate protein synthesis known as stop codons. they are UAA, UGA, UAG.

Question 40

what are ribosomes

Answer 40

organelle with small and large subunits that contain proteins and rrna

Question 41

how many codons code for the 20 amino acids

Answer 41

64

Question 42

what are mutations

Answer 42

permament alteration in dna (gene sequences)

Question 43

what are the possible causes for mutations

Answer 43

errors in dna synthesis that occur spontaneously at low frequencies
chemical mutagens
ionising radiation
single base mutations that may have effects of varying degrees of severity
order of base changes
insertion, deletion and altered bases

Question 44

what are the different types of subsitution mutation

Answer 44

conservative and non conservative, and no mutation

Question 45

what is a conservative amino acid substition

Answer 45

the amino acid is replaced by another with similar properties

Question 46

what is a non conservative subsitution

Answer 46

this is when the amino acid is replaced by another with different properties

Question 47

what is a no mutation substution mutation

Answer 47

this is when there is a change in the third position of the codon but it does not change the amino acid that it codes for because it is a degenerative codon

Question 48

what are the possible effects of mutations on the protein being synthesised

Answer 48

• the protein could have premature termination and be shorter
• could be an entirely different protein
• could be a normal functional protein
• could be a single amino acid change
• there could be no change

Question 49

what can cause a premature or delayed stop codon

Answer 49

the frameshift caused by the insertion or deletion of a base can lead to synthesis of a protein that has a completely different sequence downstream of the mutation. and if a stop codon is included in this it can lead to it being premature if one is inserted, or delayed if one is deleted

Question 50

what is sickle cell anaemia caused by

Answer 50

single base substitution in the beta chain of haemoglobin which replaces glutamic acid with valine, which is a non conservative mutation. the substitution is GAG to GTG

Question 51

what are some more drastic mutations that can occur

Answer 51

deletion or duplication of longer stretches of DNA

Question 52

why is it good that hydrogen bonds join the two base pairs together to form the double helix of dna

Answer 52

they are weaker than covalent bonds, and can be easily broken and reformed. this is useful during transcription and in cell division

Question 53

what is a polynucleotide chain

Answer 53

this is a string of nucleotides one after another

Question 54

what are the two strands that make up the double helix of dna called

Answer 54

polynucleotides

Question 55

give a breakdown on histone proteins and their function

Answer 55

these are proteins usually found in groups of eight called nucleosomes, that the dna wraps twice around.

Question 56

how do dna attach to nucleosomes

Answer 56

the nucleosomes are positively charged and the phosphate group on the dna are negatively charged, so the opposite attract.

Question 57

what are chromatin fibres

Answer 57

these are groups of nucleosomes that can fall into two different groups; eurochromatine and heterochromatin

Question 58

what are eurochromatin fibres

Answer 58

these are where the groups of nucleosomes are loosely packed together, and this is becuase they contain genes that the cell frequently uses and needs access to

Question 59

what are heterochromatin fibres

Answer 59

these are nucleosomes that are more densely packed, and they contain genes the cell rarely uses, if ever.

Question 60

what do nucleosomes package together to form

Answer 60

chromatin fibres

Question 61

what are the bases on the dna structure also sometimes referred to as

Answer 61

nitrogenous bases