genetic diversity (section 4)

Question 1

what is a diploid

Answer 1

a cell with 46 chromosomes or 23 pairs of chromosomes

Question 2

what is a haploid

Answer 2

a cell with 23 chromosomes(no pairs yet)

Question 3

what is chiasmata

Answer 3

the points where the chromosomes break and rejoin

Question 4

what does it mean to condense

Answer 4

chromosomes become visible

Question 5

what is a homologous chromosome

Answer 5

two chromosomes in a pair - normally one inherited from the mother and one from the father

Question 6

what is cytokinesis

Answer 6

a process of cell division , which divides the cytoplasm of a parental cell into two daughter cells forming a new cell membrane

Question 7

what is a centromere

Answer 7

links a pair of sister chromosomes toghether during cell division . this is usually in the middle of the homologous pairs

Question 8

what is a chromatid

Answer 8

one of the two identical halves of a chromosome that has been replicated in preparation for cell division

Question 9

what is chromatin

Answer 9

a mixture of loosely packed DNA and proteins that form the chromosomes

Question 10

what is meisosis

Answer 10

meiosis is a type of cell division that produces 4 gametes (haploid cells) that are used in sexual reproduction

Question 11

where does meiosis occur

Answer 11

meiosis occurs in the ovaries and testes of animals and the ovaries and anthers of flowering plants (so animals and plants)

Question 12

how many chromosomes do the gametes produce have

Answer 12

23 chromosomes

Question 13

how is meiosis different from mitosis

Answer 13

meiosis has 2 divisions , meiosis 1 and meiosis 11

Question 14

what stages are in both meiosis 1 and 11

Answer 14

prophase , metaphase , anaphase and telophase

Question 15

what are the two important roles of meiosis

Answer 15

-results in haploid cells
-creates genetic variation

Question 16

how does it produce variation

Answer 16

meiosis produces daughter cells that are genetically different from eachother and the parent cell , this is due to two processes that happen
-independent segregation
-crossing over

Question 17

what happens at independent segregation

Answer 17

this is when homologous chromosomes line up in random orientations at the middle of the cell during metaphase. when pulled to either side of the cell this will result in different combinations of alleles in each gamete

Question 18

what happens at crossing over

Answer 18

the process whereby a chromatid breaks during meiosis and joins to the chromatid on its homologous chromosome so that its alleles are exchanged

Question 19

what is crossing over

Answer 19

chromosomes in each homologous pair twist around each other , chromatids break and rejoin to the chromatid on sister chromosome

Question 20

what are sister chromatids

Answer 20

exactly the same ‘replicated’

Question 21

what is meant by bivalent

Answer 21

a pair of homologous chromosomes ( 4 chromatids )

Question 22

describe the process of meiosis

Answer 22

interphase - DNA replication occurs which doubles the amount of chromosomes
prophase 1 - DNA condenses and becomes visible as chromosomes , nuclear envelope breaks down, the chromosomes are arranged side by side in homologous pairs ( bivalent ) , crossing over can occur exchanging alleles , centroles migrate to oppositte poles and the spindle is formed
metaphase 1 - the pairs of homologous chromosomes (bivalents) are aligned at the centre of the cell . independent segregation occurs where they can align in different orientations
anaphase 1 - spindle fibres pull homologous chromosomes towards oppositte poles
telophase 1 and cytokinesis - nuclear envelope forms around the two groups of chromosomes and nuclei reform . cytokinesis is when the division of the cytoplasm occurs
prophase 2 - chromosomes condense and become visible again . nuclear membrane breaks down and spindle fibres develop
metaphase 2 - the chromosomes are aligned at the centre of the cell in single file this time
anaphase 2 - centromere of each chromosome divide and the chromatids are pulled to opposite poles of the cell by spindle fibres
telophase 2 and cytokinesis - the chromatids are now at either side of the cell and each cell undegoes cytokinesis to produce 4 haploid cells

Question 23

What is a gene definition

Answer 23

Short sequence of dna bases that code for a protein

Question 24

What is an allele definition

Answer 24

A version of a gene

Question 25

What is the definition for genetic diversity

Answer 25

Number of different alleles or genes in a species or population

Question 26

Why is genetic diversity important

Answer 26

-species less likely to adapt to change if didn’t have it
-more likely to be a wipeout by an event ( if we didn’t have it )

Question 27

How can we increase genetic diversity

Answer 27

-mutations - new alleles forms eg from migrating population , this is gene flow

Question 28

What is a genetic bottle neck

Answer 28

Event causes huge reduction in a population which reduces different alleles in a gene pool . Then there’s less genetic diversity

Question 29

What is the founder effect

Answer 29

A few organisms from a population start a new colony , the new colony starts from a smaller number of different alleles which causes low genetic diversity

Question 30

What are the steps for natural selection

Answer 30

1) genetic variation in a population due to mutations
2) organism with advantageous allele is more likely to survive and reproduce
3) advantageous allele is passed onto offspring
4) frequency of allele increases over each generation
5) over many generations this leads to evolution

Question 31

What are the 3 types of advantageous alleles

Answer 31

• behavioural adaptations
  -physiological adaptations
  -anatomical adaptations

Question 32

What are behavioural adaptations

Answer 32

Ways they act , eg migration

Question 33

What are physiological adaptations

Answer 33

Processes inside the body eg slower metabolism for hibernation

Question 34

What are anatomical adaptations

Answer 34

Structural features of the body eg spikes on hedgehogs to deter predators

Question 35

What are the 3 types of selection

Answer 35

-directional
-stabilising
-disruptive

Question 36

What is directional selection

Answer 36

One sided . Selection favours one extreme phenotype therefore normal distribution curve shifts in the direction of this phenotype

Question 37

What is stabilising selection

Answer 37

Mean survive . The average phenotype has the selective advantage and therefore variation of traits decreases over generations

Question 38

What is disruptive selection

Answer 38

Extremes survive , mean doesn’t

Question 39

What is a mutation

Answer 39

A change in the sequence of bases as a new strand of DNA is being built . This usually occurs during DNA replication

Question 40

What’s the result of a mutation

Answer 40

The wrong amino acid will be coded for which means the full protein structure will not be folded properly and therefore is dysfunctional

Question 41

What are the causes of mutations

Answer 41

-Can occur by mistake during DNA replication , these can spontaneously occur
-mutations can also occur when DNA polymerase makes a mistake , this happens once every 100,000,000 bases

Question 42

What is a mutagenic agent

Answer 42

-these can increase the frequency of mutations above the rate of naturally occurring ones
-it is a chemical or physical agent that changes the genetic material of an organism
-they include high energy radiation chemicals that alter DNA structure or interfere with transcription

Question 43

What are the types of base mutations

Answer 43

Substitution- a single nucleotide is replaced by another. This could alter the triplet which means it could code for the wrong amino acid
Insertion - an extra base is inserted into the sequence
Deletion - when a nucleotide is lost from the DNA sequence . This means almost the whole sequence will be read differently because each has been shifted to the left by one base
Reverse order - triplets are organised in the opposite order

Question 44

How would a substitution not cause a change

Answer 44

Sometimes there is no change to the function or tertiary structure of the protein because of the degenerate nature of the genetic code as it could still code for the same amino acid

Question 45

What is a chromosome mutation

Answer 45

Changes in the structure or number of chromosomes . This normally happens spontaneously

Question 46

What are the changes of chromosomes

Answer 46

-changes in whole sets of chromosomes
Polyploid plants are plants that have more than two sets of chromosomes in their cells
This is polyploidy , you could have 3 or more sets and this mostly occurs in plants
-changes in the number of individual chromosomes
Homologous pairs of chromosomes fail to separate during meiosis . This is known as non - disjunction and results in a gamete having either one or more or fewer chromosomes

Question 47

What are the advantages of polyploidy

Answer 47

Bigger plants , increased size and can be more stress resistant to disease and cold

Question 48

What are the disadvantages

Answer 48

Difficulty in reproducing them with other plants , meiosis is more difficult resulting in more mutations at base level

Question 49

What is an example of non - disjunction

Answer 49

Down’s syndrome where individuals have an additional chromosome 21

Question 50

How does meiosis provide genetic diversity other than co and independent s

Answer 50

Variation due to random fertilisation of gametetes , or populations have further mutations

Question 51

How can a gene mutation have
-a positive effect on an individual
-no effect on an individual

Answer 51

A mutation is a change in the DNA base sequence therefore results in the formation of a new allele
- this may have no effect on an individual as genetic code is degenerate and therefore the amino acid sequence may not change , additionally if the mutation is in an intron then amino acid sequence may not change. Or there may be a change in the amino acid but not a change in the tertiary structure or if the new Allele is recessive so does not influence phenotype
A mutation can have a positive effect if
It results in a change in the polypeptide that positively changes the properties eg an advantageous allele which could result in increased reproductive success or survival

Question 52

Describe the role of the centromere in mitosis

Answer 52

The centromere holds together the chromatids which have been replicated in dna replication . The centromere attaches the chromatids to the spindle allowing them to be separated and pulled to opposite poles

Question 53

What should you never say in meiosis

Answer 53

‘Split’ - always say separated