Unit 3.5.4 - Homeostasis

Question 1

What is homeostasis?

Answer 1

Maintenance of a constant internal environment.

Question 2

What is meant by homeostasis keeps your internal environment in a state of dynamic equilibrium?

Answer 2

It fluctuates about it’s normal level.

Question 3

Why is keeping the internal environment constant vital in the body?

Answer 3

Allows cells to function normally and stops them being damaged.

Question 4

What three things have to be particularly controlled in the body?

Answer 4

Core body temperature, blood pH and blood glucose concentration.

Question 5

What do both temperature and pH affect?

Answer 5

Enzymes that control the rate of metabolic reactions.

Question 6

What happens to the rate of metabolic reaction as temperature increases up to the optimum temperature.

Answer 6

Molecules have more kinetic energy so move faster, this means there will be more collisions and the energy of the collisions will increase so a reaction will be more likely so the rate of reaction increases.

Question 7

What happens to the rate of metabolic reactions once temperature is increased passed the optimum temperature?

Answer 7

When the temperature is too high it starts to interfere with the hydrogen bonds that hold the enzyme together so the enzyme and it’s active site will start to change shape. This means the enzyme and sub straight will no longer be complimentary and they can’t form E-S complexes and so the enzyme will be denatured and rate of reaction would decrease.

Question 8

Why is the rate of reaction low at low temperatures?

Answer 8

Reduced enzyme activity.

Question 9

How is the rate of metabolic reactions affected if the blood pH is too high or too low.

Answer 9

The pH starts to interfere with the hydrogen bonds holding the enzyme together so the enzyme and it’s active site will start to change shape. This means the enzyme and sub straight will no longer be complimentary and they can’t form E-S complexes and so the enzyme will be denatured and rate of reaction would decrease.

Question 10

What happens to cell if blood glucose concentration is too high?

Answer 10

The water potential of the blood is reduced to a point where water molecules diffuse out of the cell into the blood by osmosis causing the cell to shrivel up and die.

Question 11

What happens to cells if the blood glucose concentration is too low?

Answer 11

The cell is unable to carry out normal activities because there isn’t enough glucose for respiration to provide energy.

Question 12

What are the two different classifications for animals which depends on how they control their body temperature?

Answer 12

Ectotherms and endotherms.

Question 13

How do ectotherms control their body temp?

Answer 13

By changing their behaviour.

Question 14

What does the internal temp of ectotherms depend on?

Answer 14

The external temp.

Question 15

Why do ectotherms have variable metabolic rates?

Answer 15

Because they can’t keep their internal temp constant.

Question 16

Do the activity ectotherms or endotherms depend on the external temp?

Answer 16

Ectotherms

Question 17

How do endotherms control their body temp?

Answer 17

Homeostasis as well as altering their behaviour.

Question 18

Is the internal temp of ectotherms or endotherms most affected by external temp?

Answer 18

Ectotherms

Question 19

Why do endotherms have a high metabolic rate?

Answer 19

They can keep their internal temp constant.

Question 20

What things do mammals try to control to control body temp?

Answer 20

Heat loss, heat production and heat conservation - Hollie is a very annoying girl!

Question 21

What three things can increase heat loss?

Answer 21

1. Opening the windows
2. Sweating
3. Hairs lying flat against the skin
4. Vasodilation

Question 22

How does sweating increase heat loss?

Answer 22

It smells and more sweat will be secreted from sweat glands and the water in the sweat evaporates from the surface of the skin taking heat from the body with it.

Question 23

How do hairs lying flat against the skin increase heat loss?

Answer 23

Ask Hollie as Hollie’s legs are very hairy

Erector pili muscles relax so the hairs lie flat against the skin so less air is trapped and the skin is less insulated

Question 24

What is vasodilation?

Answer 24

When the arterioles near the surface of the skin dilate.

Question 25

Why does vasodilation increase heat loss?

Answer 25

More blood flows through the blood capillaries in the surface layer of the dermis. This means more heat can be lost from the skin by radiation.

Question 26

What two things can increase heat production?

Answer 26

Shivering and hormones.

Question 27

How does shivering increase heat production?

Answer 27

Because mum puts heating up

Muscles contract in spasms, this makes the body shiver, this requires energy from respiration so more heat is produced.

Question 28

How do hormones increase heat production?

Answer 28

The body releases adrenalin, this increase metabolism so more heat is produced.

Question 29

What three ways can heat be conserved?

Answer 29

1. Shut the windows
2. Sweating less
3. Hairs standing up
4. Vasoconstriction

Question 30

How does hair standing up conserve heat?

Answer 30

The erector pili muscles contract when it is cold which makes the hair stand up. This traps more air which provides more insulation.

Question 31

What is vasoconstriction?

Answer 31

The arterioles near the surface of the skin constrict.

Question 32

How does vasoconstriction conserve heat?

Answer 32

Less blood flows through the capillaries in the surface layer of the dermis reducing heat loss.

Question 33

What is control of body temp known as?

Answer 33

Thermoregulation.

Question 34

What part of the brain controls the body temp?

Answer 34

Hypothalmus

Question 35

What receptors detect internal and external temp?

Answer 35

Thermoreceptors

Question 36

What part of the nervous system regulates body temp?

Answer 36

The autonomic system

Question 37

What type of feedback is there in regulating body temp?

Answer 37

Negative.

Question 38

What organ monitors blood glucose concentration?

Answer 38

Pancreas

Question 39

What activity causes your blood glucose concentration to increase?

Answer 39

Eating foods that contain carbohydrates

Question 40

What activity to causes your blood glucose concentration to decrease?

Answer 40

Respiration - excessive exercise.

Question 41

What two hormones control blood glucose concentration?

Answer 41

Insulin and glucagon

Question 42

What cluster of cells release insulin and glucagon?

Answer 42

Islets of langerhans

Question 43

What cells secrete glucagon?

Answer 43

Alpha cells

Question 44

What cells secrete insulin?

Answer 44

Beta cells

Question 45

What are the seven steps in how insulin reduces blood glucose concentration?

Answer 45

1. The pancreas detects the rise in BGC
2. Beta cells within the islets of Langerhans secrete insulin into the blood
3. Insulin binds to the complimentary in shape receptors onto the target cell
4. This cause more glucose channel proteins to be opened and synthasised which increase the permeability of the cell membrane to glucose.
5. Glucose diffuses down the concentration gradient into the target cell and is converted to glycogen.
   6 .This maintains the concentration gradient so glucose can continue to diffuse into the cell.
6. This decreased the BGC back to it’s original level.

Question 46

What is the process called of converting glucose to glycogen?

Answer 46

Glycogenesis

Question 47

What is glycogenesis?

Answer 47

The process of converting glucose to glycogen

Question 48

What are the two processes that BGC is increased by?

Answer 48

Glycogenolysis and Gluconeogenesis

Question 49

In 7 steps how does Glucagon decrease BGC during glycogenolysis?

Answer 49

1. The pancreas detects the fall in BGC.
2. Alpha cells within the islets of Langerhands secrete glucagon into the blood
3. Glucagon binds to the complimentary in shape receptors on the target cells
4. This binding activates the enzyme adenylate cyclase which converts ATP to cAMP.
5. cAMP diffuses into target cells
6. cAMP then activates a cascade that breaks down glycogen into glucose.
7. Which increases the BGC back to its original level.

Question 50

What is glycogenolysis?

Answer 50

A process of converting glycogen into glucose

Question 51

What is gluconeogenesis?

Answer 51

The formation of glucose from glycerol and amino acids.

Question 52

Why is glycogenolysis also called the secondary messenger model?

Answer 52

Glucagon doesn’t cause the effect it activates another enzyme which then activates the effect.

Question 53

What process is adrenalin the same as?

Answer 53

The secondary messenger model

Question 54

What is adrenalin?

Answer 54

A hormone secreted from your adrenal gland.

Question 55

When is adrenalin secreted?

Answer 55

When there is a low concentration of glucose in your blood so when you are stressed or during exercise.

Question 56

How does the adrenalin get the body ready for action?

Answer 56

Makes more glucose available for muscles to respire.

Question 57

Other than producing more glucose what does adrenalin also do?

Answer 57

Inhibit the production of insulin.

Question 58

What is diabetes?

Answer 58

A condition where BGC cant be controlled properly

Question 59

What are the two types of diabetes?

Answer 59

Type 1 and Type 2

Question 60

What is type 1 diabetes caused by?

Answer 60

When beta cells stop producing insulin.

Question 61

How can you treat type 1 diabetes?

Answer 61

Regular injections of insulin.

Question 62

How can you avoid sudden rises in blood glucose levels?

Answer 62

Eating regular and controlling sugar intake

Question 63

What is Type 2 diabetes caused by?

Answer 63

Beta cells don’t produce enough insulin or when the body cells don’t respond properly to insulin.

Question 64

Why might cells not respond properly to insulin?

Answer 64

Receptors on their membranes don’t work properly or the cells don’t take up enough glucose.

Question 65

What is type 2 diabetes often linked with?

Answer 65

obesity

Question 66

What 3 ways can type 2 diabetes be controlled?

Answer 66

1. Controlling sugar intake
2. Losing weight
3. Glucose lowering tablets