Genetics and inheritance

Question 1

A breeder crossed a black male cat with a black female cat on a number of occasions. The female cat produced 8 black kittens and 4 white kittens.

Explain the evidence that the allele for white fur is recessive.

(1 mark)

Answer 1

• Parents are heterozygous
• Kittens recieve white allele from parents/ black cat

Question 2

A cat breeder expects an equal no. of 2 types of kittens. Explain why the actual numbers were different from those expected.

(1 mark)

Answer 2

• Offspring ratios are a probablitly
• Gametes may not be produced in equal numbers
• Random fusion of gametes
• Small sample

Question 3

Explain what is meant by codominant alleles

(1 mark)

Answer 3

• Both alleles are equally expressed within the phenotype

Question 4

Explain what is meant by the term phenotype

(2 marks)

Answer 4

• Expression due to genetic constitution
• Due to environment

Question 5

Males are more likely than female to show a phenotype produced by a recessive allele carried on the X chromosome. Explain why

(2 marks)

Answer 5

• Males only have 1 allele
• Females need 2 recessive alleles

Question 6

Explain how a substitution mutation leads to the formation of a non-functioning enzyme

(3 marks)

Answer 6

• Change in amino acid sequence
• Change in hydrogen/ ionic/ disulphide bonds alters tertiary structure
• Substrate not compementary/ cannot bind to active site

Question 7

Describe how alterations to tumour supressor genes can lead to the development of tumours

(3 marks)

Answer 7

• Increased methylation of TSG
• Mutation
• Tumour supressor genes are not transcribed

When the queation asks about “alterations” you must specify the alteration (mutation)

Question 8

Papaya plants reproduce sexually by means of seeds. Papaya plants grown from seeds are very variable in their yield. Explain why.

(2 marks)

Answer 8

• Independant segregation
• Random fertilisation

Question 9

Explain the advantage of growing plants from tissue culture rather than from seeds

(1 mark)

Answer 9

• All plants will have desired characteristics

Question 10

Describe the method used to find the mean no. of capillaries per mm^2 of samples of heart muscle tissue

(4 marks)

Answer 10

• Measure diameter of field of view and calculate area
• Using micrometer slide and eyepiece graticule
• Count no. of capillaries in large no. of fields of view and calculate mean
• Select fields of view randomly

Always mention how to improve validity

Question 11

Define what is meant by epigenetics

(2 marks)

Answer 11

• Heritable chnages in gene function
• Without changes to base sequence of DNA

Question 12

Explain how increased methylation could lead to cancer

(3 marks)

Answer 12

• Methyl groups added to a tumour supressor gene
• The transcription of tumour supressor genes is inhibited
• Leading to uncontrolled cell division

Question 13

Give one way in which benign tumours differ from malignant tumours

(1 marks)

Answer 13

Cells of benign tumours cannot metastasise

(1 mark)

Question 14

Explain how the methylation of tumour supressor genes can lead to cancer

(3 marks)

Answer 14

• Methylation prevents transcription of gene
• Protein not produced that prevents cell division
• No control of mitosis

Question 15

Explain how an activated oestogen receptor affects the target cell

(2 marks)

Answer 15

• Receptor/ transcription factor binds to promoter which stimuates RNA polymerase
• Transcribes gene

Question 16

Describe 2 ways in which both malignant and benign tumours may cause harm to the body

(2 marks)

Answer 16

• May damage organ concerned
• May cause blockages/ obstructions
• May damage/ exert pressure on other organs

(Max 2)

Question 17

Suggest why people with a family history of no cancer are at a greater risk of cancer than those with no family history of cancer

(1 mark)

Answer 17

• Cancer has genetic component/ may have inherited gene which gives predisposition to cancer

Question 18

Describe he role of 2 named types of enzymes used to insert DNA fragments into plasmids

(2 marks)

Answer 18

1. Restrtictionj endonuclease to cut plasmid/ vector
2. DNA ligase to join gene to plasmid/ vector

2 mark question means little detail but it’s imortant to remeber its hydrolysis and condensation

Question 19

Suggest and explain how delayed insertion of a gene could produce offspring of a transgenic species without the desired characteristic

(2 marks)

Answer 19

• Cell division has occured before the gene is added
• Gametes fo not recieve the gene

Question 20

What is a DNA probe

(2 marks)

Answer 20

• Short single strand of DNA
• Bases complementary with gene/ DNA

Question 21

During genetic screening, the DNA is treated to form single strands. Explain why.

(1 mark)

Answer 21

So DNA probe binds

Question 22

Explain the role of reverse transcriptase in reverse transcriptase PCR

(1 mark)

Answer 22

Produces (c)DNA using (m)RNA

Question 23

Explain the role of DNA polymerase in PCR

(1 mark)

Answer 23

Joins nucleotides to produce complementary strands of DNA

Question 24

In recombinant DNA technology, an insect gene is inserted into plant DNA. The plant is able to synthesise the insect protein.
Explain why this is possible.

(3 marks)

Answer 24

• Genetic code is universal/ triplets in DNA always code for the same amino acid
• Insect DNA can be transcribed
• Can be translated

Question 25

Name the type of enzyme used to produce the cDNA

(1 mark)

Answer 25

Reverse transcriptase

Question 26

Recombinant gene tech question

Explain the purpose fo attaching a gene that codes for a protein that glows green under florescent light.

(2 marks)

Answer 26

• Acts as a marker gene to show that the gene has been expressed
• Only implant cells that show fluoresence

Question 27

Suggest one reason why very few live birhs result from embryos implanted to produce transgenic animals

(2 marks)

Answer 27

• Mutation/ DNA may be damaged
• May interfere with gene expression

Question 28

Explain how electrophoresis seperates fragments of DNA

(2 marks)

Answer 28

• Move towards anode
• Different rates of movement related to charge

Question 29

Explain why radioactive DNA probes are used to locate specific DNA fragments

(2 marks)

Answer 29

• DNA invisible on gel
• Allows detection

Question 30

Explain why the DNA of different species shows difference in base sequence

(2 marks)

Answer 30

• Different genes (due to mutations), base sequence determines protein
• Different species have different protein structures

Question 31

The length of replicated DNA fragments is different for each species. Explain why this is important in identifying the species involved.

(3 marks)

Answer 31

• Electrophoresis separates DNA
• So they can be identified by position on gel
• Smaller/ shortest fragments travel furthest

Question 32

Describe the polymerase chain reaction

(6 marks)

Answer 32

• Heat DNA
• Breaks H bonds/ seperates strands
• Add primers
• Add nucleotides
• Cool
• (to allow) binding of nucleotides/ primers
• DNA polymerase
• Joins nucleotides together
• Repeat cycle many times