Sexual / Asexual reproduction + DNA

Question 1

How many pairs of chromosomes in the nucleus of human cells

Answer 1

Human cells contain 23 pairs of chromosomes in the nucleus

Normal human cells contain chromosomes that are in pairs

Question 2

Difference between mitosis and meiosis

Answer 2

meiosis leads to non-identical cells being formed while mitosis leads to identical cells being formed.

(every sperm cell and every egg cell are different)

Question 3

Type of cells where the chromosomes are not paired

Answer 3

These cells are called gametes
The chromosomes are single not paired

Question 4

How many chromosomes do human gametes contain

Answer 4

Human sperm and egg cells contain 23 single chromosomes

Question 5

What is sexual reproduction

Answer 5

Sexual reproduction involves the joining (fusion) of male and female gametes. This process is called fertilisation

Question 6

Examples of male and female gametes in plants and animals

Answer 6

• sperm and egg cells in animals
• pollen and egg cells in flowering plants.

Question 7

Features of sexual reproduction

Answer 7

Sexual reproduction involves the joining (fusion) of male and female gametes. This process is called fertilisation

In sexual reproduction there is mixing of genetic information (the offspring receives genetic information from both the male and female parents) which leads to variety in the offspring

(as every gamete is different)
because every gamete is different this means we can variation in the offspring

Question 8

What does the formation of gametes involve
How are gametes made

Answer 8

The formation of gametes involves a type of cell division called meiosis.

Question 9

Features of asexual reproduction

Answer 9

Asexual reproduction involves only one parent (aphid is the only parent of the offspring) and no fusion of gametes.

Asexual reproduction does not involve gametes

(because there is only one parent) There is no mixing of genetic information
This leads to genetically identical offspring (these offspring are called clones).
(offspring are genetically identical to the parent)

Asexual reproduction only involves mitosis
_________________________________________
because Asexual reproduction does not involve gametes, meiosis does not take place

Question 10

Where does meiosis only take place

Answer 10

Meiosis only takes place in reproductive organs

Question 11

Reproductive organs in males and females

Answer 11

Humans
Male - testes
Females - ovaries

Question 12

describe how meiosis halves the number of
chromosomes in gametes

Answer 12

(a cell in human reproductive organ - contains 23 chromosome pairs)

In the first stage of meiosis, all of the chromosomes are copied
The cell now divides into two
Both of these cells now divide one more time, forming the gametes
In the gametes, the chromosomes are now single, not paired.
Meiosis has halved the number of chromosomes

(in the cell we started with, the chromosomes where in pairs, however in the gametes, the chromosomes are now single - in other words, Meiosis has halved the number of chromosomes
)

Question 13

How many gametes does meiosis produce from one cell.
Describe the gametes.

Answer 13

Meiosis produces four gametes from one original cell.
Each of these four gametes are genetically different from each other
Each gamete has different alleles

Question 14

What does meiosis do to the number of chromosomes

Answer 14

Meiosis has halved the number of chromosomes

Question 15

What does meiosis produce

Answer 15

Meiosis produces gametes

Question 16

describe how fertilisation restores the full number of
chromosomes.

Answer 16

Gametes join at fertilisation to restore the normal number of chromosomes.

In sexual reproduction, these gametes (from male and female) join together. This is called fertilisation
After fertilisation, the cell now has the full number of chromosomes.
In fertilisation, the full number of chromosomes is restored

Question 17

how many chromosomes

human sperm cell
human egg cell
fertilised egg

Answer 17

human sperm cell - 23 single chromosomes
human egg cell - 23 single chromosmes
fertilised egg - 23 chromosome pairs - 46 chromosomes

sperm cell \____fertilisation________—> fertilised egg
egg cell /

Question 18

What happens after fertilisation

Answer 18

The new cell divides by mitosis. The number of cells
increases. As the embryo develops cells differentiate.

The new cell divides by mitosis (the number of cells increasing), producing a group of identical cells. This is called an embryo. As the embryo develops cells differentiate, forming different cell types.

Question 19

Advantages of sexual reproduction

Answer 19

Advantages of sexual reproduction:
* produces variation in the offspring
* if the environment changes, this variation gives a species a survival advantage by natural selection

(if environment changes e.g. becomes colder then this variation means that some of the offspring may survive
- sexual reproduction gives a species a greater chance of survival if conditions become challenging)

• natural selection can be sped up by humans in selective breeding to increase food production.

(means population can adapt to changing conditions - allows for evolution (process by which species change over time) to take place - most favourable traits are most likely to be passed on)

Question 20

Advantages of asexual reproduction

Answer 20

only one parent needed
* more time and energy efficient as do not need to find a mate
* faster than sexual reproduction
* many identical offspring can be produced when conditions are favourable. (asexual reproduction allows an organism to produce many genetically identical offspring rapidly)

Question 21

Disadvantages of asexual reproduction

Answer 21

Asexual reproduction is very risky
Because all the offspring are genetically identical (clones), there isnt any genetic variation, therefore there is a risk they could all die if conditions become unfavourable

Less chance of adapting to new conditions

Question 22

Disadvantages of sexual reproduction

Answer 22

It takes energy to find a mate. E.g. flowering plants spend energy making flowers full of nectar to bribe insects to spread their pollen (male gametes) to other plants. This is costly to the plant

Question 23

organisms which reproduce by both methods depending on the circumstances.

Answer 23

Malarial parasites reproduce asexually in the human host, but sexually in the mosquito.

• Many fungi reproduce asexually by spores but also reproduce sexually to give variation in their offspring.
• Many (all flowering) plants can reproduce sexual to produce seeds , but also reproduce asexually by runners such as strawberry plants (where the runner touches the soil, it can develop into a new plant, genetically identical to the parent) , or bulb division such as daffodils (the parent plant has an underground bulb which produces buds. These buds eventually form new offspring plants. The offspring are genetically identical to the parent)

Question 24

where are chromosomes found

Answer 24

Chromosomes are found in the nucleus of cells

Question 25

What do chromosomes contain

Answer 25

Chromosomes contain the molecule DNA (the genetic material - DNA determines our inherited features)

Question 26

What is the genetic material in the nucleus composed of

Answer 26

The genetic material in the nucleus of a cell is composed of a chemical called DNA.

Question 27

Describe the structure of DNA

Answer 27

DNA is a polymer made up of two strands forming a double helix

each strand is a polymer
each strand is made by joining together lots of smaller molecules
the two strands wrap/wind around each other to form a double helix.

DNA is double stranded

Question 28

Where is DNA contained

Answer 28

The DNA is contained in structures called chromosomes

Question 29

What is a gene

Answer 29

A gene is a small section of DNA on a chromosome

Question 30

Function of genes

Answer 30

Each gene codes for a particular sequence of amino acids, to make a specific protein.

e.g. the blood type gene encodes the sequence of amino acids for the protein that determines blood type.

genes tell cells in what order to put the amino acids together
DNA determines what proteins the cell produces E.G. haemoglobin, keratin
This in turn determines what type of cell it is - e.g. red blood cell, skin cell

Question 31

how are proteins made

Answer 31

Proteins are made by joining together amino acids

Question 32

what do both chromosomes in a pair have in common

Answer 32

Both chromosomes in a pair have the same genes

Chromosome 9 pair
Both copies of chromosome 9 have the genes for blood type

Question 33

What is a genome

Answer 33

The genome of an organism is the entire genetic material of that organism.
The human genome is the entire genetic material that makes a human

Question 34

Benefits of scientists studying the human genome

Answer 34

Understanding the human genome will help us to search for genes that are linked to a disease. E.g. genes that increase the risk of developing cancer of Alzheimer’s disease

Understanding the human genome will help us to understand and treat inherited disorders e.g. cystic fibrosis

We can use the human genome to trace human migration patterns from the past. This helps people to discover their ancestry

Question 35

What is DNA

Answer 35

DNA is the genetic material

Question 36

Describe the structure of DNA

Answer 36

DNA is a double-stranded polymer of molecules called nucleotides

DNA is a polymer made from four different nucleotides

Question 37

What makes each nucleotide different

Answer 37

Each nucleotide has a different base

Question 38

Describe the structure of a nucleotide

Answer 38

Nucleotides have three main parts
A phosphate group is attached to a sugar molecule.
The sugar is attached to a molecule called a base
_____________________________________________
Each nucleotide consists of a common sugar and
phosphate group with one of four different bases attached to the sugar.

Question 39

In terms of the structure of DNA, what remains constant (and does not change)

Answer 39

In DNA, the phosphate group and sugar molecule never change. However there are four different bases

Question 40

Name the different types of bases

Answer 40

There are four different bases
These are called A, C,G and T

This means that DNA contains four different nucleotides

Question 41

Draw the four different nucleotides DNA contains

Answer 41

https://bam.files.bbci.co.uk/bam/live/content/z7qn2sg/medium

but in the rectangle, write A, C, G and T

https://bam.files.bbci.co.uk/bam/live/content/zvf9vk7/medium

https://www.youtube.com/watch?v=o4LHU79fB3s&list=PL9IouNCPbCxWt28Bifo2jK9xn-ym956sf&index=5

Question 42

The DNA strands are ________

Answer 42

The DNA strands are complimentary.

Question 43

The DNA strands are complimentary
What does this mean?

Answer 43

The DNA strands are complimentary
This means that the same bases always pair on the opposite strands
The two strands are complimentary

Question 44

What bases are complimentary to each other

Answer 44

C is always linked to G on the opposite strand
A is always linked to T on the opposite strand

C and G are complimentary
A and T are complimentary