B5 - Growth and Development

Question 1

What are living organisms made up of?

Answer 1

Cells

Question 2

Give 2 examples of multicellular organisms

Answer 2

• Humans

- Plants

Question 3

What do similar cells form?

Answer 3

A tissue

Question 4

What do groups of tissues form?

Answer 4

And organ

Question 5

What do groups of organs form?

Answer 5

They make up systems within the whole organism

Question 6

By which 2 processes do cells divide?

Answer 6

• Mitosis

- Meiosis

Question 7

What is mitosis?

Answer 7

The division of body cells to produce new cells

Question 8

Each new cell from the process of mitosis has what? (3 things)

Answer 8

• Identical sets of chromosomes as the parent cell
• The same number of chromosomes as the parent cell
• The same genes as the parent cell

Question 9

For what 3 reasons does mitosis occur?

Answer 9

• For growth
• For repair
• To replace old tissues

Question 10

To enable mitosis to take place, cells go through a cycle of ___a)____ and then ___b)____.

Answer 10

a) growth

b) division

Question 11

For how long does the cycle of growth and division in the process of mitosis take place?

Answer 11

Until the cell can no longer divide

Question 12

What 2 things happen when a cell enters the growth phase of the mitosis cycle?

Answer 12

• The number of organelles increase

- The chromosomes are copied (the two strands of each DNA molecule separate and new strands form alongside them)

Question 13

What 2 things happen when a cell enters the division phase of the mitosis cyle?

Answer 13

• The copies of the chromosomes separate

- The cell divides

Question 14

Explain the process of mitosis.

Answer 14

1) Parent cell with two pairs of chromosomes - each chromosome copies/replicates itself
2) The copies are pulled apart. Cell now divides for the only time in this mitosis sequence
3) Two ‘daughter’ cells are formed

Question 15

Which places are the only places that mitosis can occur?

Answer 15

In the testes and ovaries

Question 16

What is meiosis?

Answer 16

A special type of cell division that produces gametes (sex cells) for sexual reproduction

Question 17

What are gametes?

Answer 17

Sex cells

Question 18

How many chromosomes do gametes contain compared to their parent cells?

Answer 18

Half the number of chromosomes

Question 19

Explain the process of meiosis.

Answer 19

1) Cells with two pairs of chromosomes - each chromosome replicates itself
2) Chromosomes part company and move to opposite sides with their ‘copies’
3) Cell divides for the first time
4) Copies now separate and the second cell division take place
5) Four gametes, each with half the number of chromosomes as the parent cell.

Question 20

Give examples of gametes

Answer 20

Eggs and sperm

Question 21

What happens during fertilisation?

Answer 21

A male gamete (sperm) and a female gamete (egg) fuse together to produce a single body cell called a zygote

Question 22

What is the name of the single body cell produced through fertilisation?

Answer 22

A zygote

Question 23

Because gametes only have half the number of chromosomes as the parent cell, how many chromosomes will the zygote that’s produced contain?

Answer 23

Gametes only have half the number of chromosomes as the parent cell, so the zygote that’s produced has one whole set of chromosomes.

Question 24

Where does each chromosome come from in a new pair of chromosomes?

Answer 24

One chromosome comes from the father and one chromosome comes from the mother.

Question 25

Through what process does a zygote divide to produce the cluster of cells called an embryo?

Answer 25

Meiosis

Question 26

When a zygote divides by meiosis, what is produced?

Answer 26

A cluster of cells = an embryo

Question 27

What is the name for the cluster of cells produced when a zygote divides by meiosis?

Answer 27

An embryo

Question 28

Complete:

The embryo continues to divide by ___a)___ (from one cell to two, to four, to eight, etc) after which the cells become ___b)___, until birth as a fully developed ___c)___.

Answer 28

a) mitosis
b) specialised
c) baby

Question 29

What do meiosis and sexual reproduction produce between offspring and parents?

Answer 29

Variation

Question 30

How do meiosis and sexual reproduction produce variation between offspring and parents?

Answer 30

• When the gametes fuse, genetic information from two individuals is combined
• For each gene, just one of each parent’s alleles is passed on
• Each offspring can have a different combination of alleles from either parent
• The offspring have different characteristics from each other

Question 31

Where can genes be found?

Answer 31

In the chromosomes within each cell nucleus

Question 32

What 2 things can genes control?

Answer 32

• Growth and development in organisms

- The development of characteristics, e.g. eye colour

Question 33

How do genes control characteristics?

Answer 33

By providing instructions for the production of proteins

Question 34

In what form do a gene’s instructions for producing proteins come?

Answer 34

In a code made up of four bases (that hold the two strands of the double helix of the DNA molecule together)

Question 35

How do the 4 bases of genetic code always match up?

Answer 35

Adenine (A) pairs up with Thymine (T), and Cytosine (C) pairs with Guanine (G).

Question 36

What does the A base in genetic code stand for?

Answer 36

Adenine

Question 37

What does the T base in genetic code stand for?

Answer 37

Thymine

Question 38

What does the C base in genetic code stand for?

Answer 38

Cytosine

Question 39

What does the G base in genetic code stand for?

Answer 39

Guanine

Question 40

What does Adenine (A) always pair up with in the bases of genetic code?

Answer 40

Thymine (T)

Question 41

What does Thymine (T) always pair up with in the bases of genetic code?

Answer 41

Adenine (A)

Question 42

What does Cytosine (C) always pair up with in the bases of genetic code?

Answer 42

Guanine (G)

Question 43

What does Guanine (G)always pair up with in the bases of genetic code?

Answer 43

Cytosine (C)

Question 44

What is a gene?

Answer 44

A small section of DNA within the chromosome

Question 45

The order of the bases in the DNA section is the genetic code for the production of what?

Answer 45

A particular protein

Question 46

How does a code determine the end characteristics of any organism?

Answer 46

A gene is a small section of DNA within the chromosome. The order of the bases in the DNA section is the genetic code for the production of a particular protein.

Question 47

True or False?

DNA is able to leave the nucleus.

Answer 47

False - DNA is too large to leave the nucleus

Question 48

Because DNA is too large to leave the nucleus, what happens to the genes and the production of proteins?

Answer 48

The genes stay inside the nucleus but the production of proteins takes place outside the nucleus (in the cytoplasm)

Question 49

Where outside the nucleus does the production of proteins take place?

Answer 49

In the cytoplasm

Question 50

Because the production of proteins takes place outside the nucleus in the cytoplasm, what has to happen to information stored in the genes?

Answer 50

It has to be transferred into the cytoplasm

Question 51

How is information stored in genes transferred outside the nucleus into the cytoplasm?

Answer 51

• The relevant section of DNA is unzipped
• Instructions are copied onto smaller molecules called mRNA (messenger RNA) [HT]
• These molecules leave the nucleus and carry the instructions to the ribosomes
• The ribosomes follow the instructions to make the relevant protein

Question 52

The sequence of bases in a gene determines the order in which ___a)___ are joined together to make a particular ___b)___. (HT)

Answer 52

a) amino acids

b) protein

Question 53

What is the name for the codes for one amino acid in a protein chain, created from a group of 3 base pairs? (HT)

Answer 53

Triplet code

Question 54

How many different amino acids can be created through the triplet code? (HT)

Answer 54

20

Question 55

True or False?

The structure of the protein depends on the amino acids that make it up. (HT)

Answer 55

True.

Question 56

Explain the process by which triplet codes are used to create amino acids. (HT)

Answer 56

• DNA unravels at the correct gene
• A copy of the coding strand is made to produce mRNA
• The mRNA copy moves from the nucleus into the cytoplasm
• The triplet code is decoded by the ribosomes
• Amino acids are joined together to form a polypeptide (protein)

Question 57

How can a triplet code be decoded? (HT)

Answer 57

By the ribosomes

Question 58

What are amino acids joined together to form? (HT)

Answer 58

A protein called polypeptide

Question 59

Up to the 8 cell stage, all cells in a human embryo are what? (2 things)

Answer 59

• Unspecialised

- Have any gene switched on to form any kind of specialised cell

Question 60

Before the 8 cell stage, what are human embryos called?

Answer 60

embryonic stem cells

Question 61

Once a human embryo reaches the 8 cell stage, what 2 things do the cells become?

Answer 61

• Specialised

- Form different types of tissue

Question 62

The cells contain the same __a)___, but many are not ___b)___ (switched off) because the cell only produces the ___c)___ it needs to carry out its role.

d) What about specialised cells?

Answer 62

a) genes
b) active
c) proteins
d) In specialised cells, only the genes needed for the cell to function are active (switched on) as it only requires specific proteins (mainly enzymes).

Question 63

What could stem cells potentially be used to do?

Answer 63

• Help treat diseases and disorders

- Repair damage to various tissues

Question 64

What are the 3 sources of stem cells?

Answer 64

• Embryos
• Blood from umbilical cord
• Adult stem cells

Question 65

Only the __________________ are completely unspecialised and can be used to form any cell type.

Answer 65

embryonic stem cells

Question 66

What needs to be thought about when using embryonic stem cells?

Answer 66

Ethical decisions - this work is subject to government regulation

Question 67

Explain the process of therapeutic cloning. (HT)

Answer 67

• The nucleus is removed from an egg cell and replaced with a nucleus from one of the patient’s cells
• The egg cell is then stimulated so that it starts to divide (as if it were a zygote)
• At the 8 cell stage, cells can be removed as they’re still unspecialised

Question 68

True or False?

Adult stem cells will only produce cells of a certain type. (HT)

Answer 68

True.

Question 69

Adult stem cells will only produce cells of a certain type. Give an example of this. (HT)

Answer 69

Cells for creating blood cells in bone marrow have to be encouraged to grow more of that type of cell by reactivating (switching back on) inactive genes in the nuclei.

Question 70

What is an advantage of using adult cells for growing replacement tissue? (HT)

Answer 70

They can be taken from the patient, so the patient’s immune system will not reject the transplant

Question 71

Where can replacement tissue be grown? (HT)

Answer 71

In a laboratory

Question 72

What is sometimes used to maintain a blood supply during growth of a replacement tissue in a lab? (HT)

Answer 72

A ‘host animal’ (e.g. a mouse)

Question 73

What are ‘host animals’ sometimes used for? (HT)

Answer 73

To maintain a blood supply during growth of a replacement tissue in a lab

Question 74

Through what process do plant cells divide?

Answer 74

Mitosis

Question 75

New cells in plants specialise into the cells of what 3 things?

Answer 75

• Roots
• Leaves
• Flowers

Question 76

Unlike animals, how can plants continue to grow throughout their lives?

Answer 76

In height and in width

Question 77

In what area of a plant can plant growth only occur?

Answer 77

In areas called meristems

Question 78

What are meristems?

Answer 78

Sites where unspecialised cells are dividing by mitosis

Question 79

Unspecialised cells that are dividing by mitosis in a meristem then:

Answer 79

• Differentiate

- Become specialised

Question 80

What are the two types of meristem? Explain what the function of each one is.

Answer 80

• Lateral (which leads to increased girth)

- Apical (which leads to increased height and longer roots)

Question 81

Some plants cells remain unspecialised and can…

Answer 81

…develop into any type of cell.

Question 82

Cells that remain unspecialised (meaning they can develop into any type of cell) allow clones of plants with desirable features to be produced from what?

Answer 82

Cuttings

Question 83

If the hormonal conditions in their environment are changed, the unspecialised plant cells can develop into other what?

Answer 83

• Tissues (e.g. xylem and ploem)

- Organs (e.g. leaves, roots, flowers)

Question 84

What are xylem tubes used by a plant for?

Answer 84

• To transport water and soluble mineral salts from the roots to the stem and leaves
• To replace water lost during transpiration and photosynthesis

Question 85

What are phloem tubes used by a plant for?

Answer 85

To transport dissolved food to the whole plant for respiration or storage

Question 86

Plants can be reproduced in what way? (3 stages)

Answer 86

• Cuttings are taken from a plant
• The cuttings are put in a rooting hormone
• Roots start to form and the new plants develop

Question 87

The new plants are ______________ to the parent plant - they are clones.

Answer 87

genetically identical

Question 88

What are auxins? (HT)

Answer 88

The main plant hormones used in horticulture, which:

• affect cell division at the tip of a shoot
• cause cells to grow in size just under the tip so that the stem or roots grow longer

Question 89

How do plants respond to light?

Answer 89

By changing the direction in which they grow.

Question 90

What is the process called when plants respond to light by changing the direction in which they grow?

Answer 90

Phototropism.

Question 91

Why do plants grow towards a light source?

Answer 91

Because they need light to survive

Question 92

Where are auxins produced? (HT)

Answer 92

At the shoot tip

Question 93

What happens when an auxin moves down the shoot? (HT)

Answer 93

It causes other cells further down the shoot to grow

Question 94

When light shines on a shoot, what happen to auxin near that source of light? (HT)

Answer 94

Auxin near the light source is slowly destroyed, so there’s more auxin on the far away side from the light. This causes these cells to lengthen faster than those near the light, so the shoot bends towards the light.

Question 95

What happens when a light source is directly overhead a plant? (HT)

Answer 95

• Auxin is evenly spread through the shoot

- The shoot grows straight up

Question 96

What happens when a light source is at an angle towards a plant? (HT)

Answer 96

• Auxin is destroyed nearest to the light source
• The auxin is concentrated on the side furthest away from the light
• The shoot bends towards the light

Question 97

What happens when the tip of a shoot is removed or covered in opaque material? (HT)

Answer 97

The plant will continue to grow upwards as if the light source isn’t there

Question 98

What happens when the tip of a shoot is covered with a transparent cap? (HT)

Answer 98

It will still grow towards a light source.

Question 99

What happens when the tip of a shoot is covered with an opaque cylinder is wrapped around the stem, leaving the tip exposed? (HT)

Answer 99

It will still grow towards a light source.

Question 100

What is the name of the process when plants grow towards light? (HT)

Answer 100

Phototropism

Question 101

Jonah planted a seedling (a young plant) into a flowerpot and placed it in a greenhouse. His sister moved it so that the Sun only shone on it from one side.

Explain how the seedling would grow and why this would help it to survive.

Answer 101

The Sun shining on the plant from only one side would mean that it would grow towards the light. This is because the growth rate on the dark side is much faster than the light side. This pattern of growth is called phototropism and is caused by hormones. It helps the plant to obtain more sunlight energy for photosynthesis. This allows the plant to produce more glucose, giving it more energy for growth and reproduction, and helping it to survive.

Question 102

What are the characteristics of stem cells?

Answer 102

They’re unspecialised and can turn into any kind of cell

Question 103

Why can’t stem cells be taken after the 8 cell stage?

Answer 103

The cells will have become specialised

Question 104

Why are embryonic stem cells sometimes better to use than adult stem cells?

Answer 104

Embryonic stem cells can develop into any specialised cell, whereas adult stem cells can only develop into some specialised cells