1. 3.1.4 Fungi
Living things
Monera
Protista
Fungi
Plants
Animals

2. Classification of organisms
Living things are divided into five Kingdoms:
Living things
Monera
Protista
Fungi
Plants
Animals
Necessary due to the large number of organisms in the world – makes it easier to manage – like our wardrobe.
Every single living thing must fit into one of these groups. Kingdoms!

3. The Fungi Include moulds, yeasts, lichens and mushrooms
Mainly terrestrial – live dead or living plants/animals and found in the soil
Moulds are microscopic fungi
Yeasts are single celled fungi
Lichens are fungi

4. Fungi can be edible or poisonous!
The Death cap fungus causes liver failure and death
Standard Field mushrooms are safe to eat
Death cap mushroom is found in European woods and in north America

5. The Fly agaric mushroom sends toxins into the central nervous system and cause hallucinations

6. Identifying mushrooms
To identify mushrooms…
Use a key to classify them
Look at their colours, patterns and shapes!
Smell them!

7. Nutrition in Fungi
Heterotrophic
Saprophytic
Parasitic
Feed on dead organic matter
Feed on live hosts
the fungus that causes Athletes foot feeds on live human flesh
Rhizopus fungus feeds on bread.

8. Parasitic Fungi

10. Rhizopus
A microorganism is any tiny organism

11. Structure of Rhizopus Sporangium where spores are made
Spores cells that can germinate to produce a new mycellium
Columella wall at base of Sporangium
Apophysis
Sporangiophores Stalks of hyphae whose tips have swellings called sporangia
Stolon Hyphae that spread across the substrate
Not necessray to know the functions
Apophysis - Area where stolon meets columella
Hyphae Thread like structures that digest and absorb the substrate
Mycelium A group of Hyphae
Rhizoids Root like hyphae which provide extra surface area to absorb the substrate

12. Rhizopus – Asexual Reproduction
1. A Sporangiophore grows upwards and forms a sporangium.
2. Within the sporangium mitosis occurs to produce lots of cells.
3. When each cell develops a resistant wall is becomes a spore.
4. Spores are dispersed by the wind
5. When spores fall on a suitable substrate they germinate and produce new mycelia.
Sporangium
Spores
Columella
Apophysis
Sporangiophore
Mycelium

13. Put them in the correct order
When spores fall on a suitable substrate they germinate and produce new mycelia.
Within the sporangium mitosis occurs to produce a mass of cells.
Spores are dispersed by the wind
A Sporangiophore grows upwards and forms a sporangium.
When each cell develops a resistant wall is becomes a spore.

16. Sexual reproduction
+ Strain
- Strain

17. Sexual reproduction
+ Strain
- Strain

18. Sexual reproduction
+ Strain
- Strain

19. Sexual reproduction
+ Strain
- Strain

20. Sexual reproduction
+ Strain
- Strain

21. Sexual reproduction
+ Strain
- Strain

22. Sexual reproduction
+ Strain
- Strain

23. Sexual reproduction

24. Rhizopus – Sexual Reproduction
Production of Progametangia
The hyphae from different mycelia produce bulges called Progametangia which grow towards each other

25. Rhizopus – Sexual Reproduction
Suspensor
The cross wall blocks off each tip form each other
2. Formation of gametangia and suspensors
The stalk of each Prometangia is called a suspensor and the tip is called gametangia.

26. Rhizopus – Sexual Reproduction
The cell wall dissolves
3. Formation of zygospore
The gametangia fuse to form a zygospore

27. Rhizopus – Sexual Reproduction
Sporangiophore
Zygospore
Zygot with a thick wall - zygospore
4. Germination of zygospore
The zygospore may remain dormant , but when favourable conditions return it germinates to make a sporangiophore with a sporangium at it’s tip.

28. Yeasts Yeasts are also part of the Fungi Kingdom They are unicellular.
Cell wall
Nucleus
Vacuole
Ceusually found on the surfaces of leaces, flowers, fruites, milk,animal faeces
Vacuole – like in a plant cell!
About 10 um long
Can be seen with an electron microscope
Granular cytoplasm
Food vacuole

29. Asexual reproduction in yeast

30. Asexual reproduction in yeast

31. Asexual reproduction in yeast

32. Yeast – reproduction by budding
A small _________ is formed on the cell
This ________ gets __________and is filled with cytoplasm
The nucleus of the parent cell ____________ by _______
One of the nuclei formed moves into the bud which can break free of the parent and form a new __________itself
Parent cell
Bud
Bud
Bud
Bud
Daughter cell
Mitosis

33. Yeast – reproduction by budding
Or the bud may remain _____________ to the parent cell and form a _____________ of attached cells which eventually divide
Parent cell
Bud
Bud
Bud
Bud
Daughter cell
Mitosis
Unseperated buds

34. Budding

35. Budding

36. Laboratory Procedures when handling microorganisms
Sterilise your working area, all of your equipment and materials before and after using it
Upside down prevents condensation from getting on the lids
An autoclave is used to sterilise glassware, agar and instruments!

37. Laboratory Procedures when handling microorganisms
2. Flame metal apparatus during use
3.Seal the Petri dishes with tape AND turn it upside down before incubation!
4. Sterilise all cultures before disposal

38. Lab procedures when handling microorganisms
Sterile means absence of all the microorganisms
Aseptic means free of pathogenic microorganisms.

39. Keywords for mircobiology
Sterile means absence of all the microorganisms
Aspetic means free of pathogenic microorganisms.

40. Fungi Fungi are economically very important.. In the food industry…
Bakers use yeast to produce CO2 for raising bread,
In the healthcare industry…
Penicillium fungi are used to make penicillin, a widely used antibiotic.
Thenaol is a by product of anaerobic respiration in yeast
Also mushrooms are edible, poisononous mushrooms need medical care!

41. Fungi Fungi can also be economically harmful.. In the food industry…
Rhizopus mould causes food spoil e.g. bread, fruit
In the healthcare industry…
Athletes foot is caused by a fungus that feeds on warm, damp tissue between your toes! - expenses in medical care!
Athletes foot causes skin to go scaly, red and ithcy!

42. 3.1.10 Growth Curves Higher Level

43. Growth curves
Any microorganism – typical population of bacteria would look like this – you would have to count the numbers in the population at fixed intervals

44. Growth curves -Lag phase
The microorganisms are adapting to their new environment and must produce the enzymes needed to digest the available nutrients here. There is little increase in numbers.
Lag phase

45. Growth curves -Log phase
The microorganisms reproduce at their maximum rate so their numbers rise rapidly. They now have ideal conditions to live in – lots of food, space and little toxic wastes around.
Log phase

46. Growth curves -Stationary phase
There is no increase or decrease in the number of microorganisms because equal numbers are being produced and dying. Food and space may now be scarce and toxic waste products may poison the organisms.
Stationary phase

47. Growth curves - Decline phase
Due to lack of Food and space and the build up of toxic waste products more microorganisms are now dying than are being produced. Population numbers fall.
Decline phase

48. Growth curves –The survival stage
Not all of the population of microorganisms will die. Some will form endospores when unfavourable conditions persist. The endospores may remain dormant for many years before favourable conditions return. At this point the endospores will undergo binary fission and reproduce.
Survival phase

49. What did you learn? What are the five stages of microorganism growth?
Why do microorganisms grow slowly during the lag stage?
What happens during the log stage?
Why do microorganisms numbers stay the same during the stationary phase?
What is the name of the stge that comes after the stationary phase?

50. Bioprocessing
It can be very useful to grow populations of microorganisms as they can be used to produce food products, antibiotics, enzymes, insulin and other substances.
Microorganisms are used to do reactions in large sterilised containers called Bioreactors.
Bioprocessing
Need to know the two types of processing only
Batch flow processing
Continuous flow processing

51. Batch Flow processing
Survival phase
Nutrient medium and microorganisms put in the Bioreactor.
Most product is produced at lag, log and stationary phases.
Process stopped after stationary phase, product is extracted, filtered and purified
Bioreactor is cleaned, sterilised and the process is restarted
Stationary phase
Decline phase
Lag phase
Log phase

52. Batch Flow processing

53. Continuous flow processing
Survival phase
Nutrient medium and microorganisms put in the Bioreactor.
Nutrients continuously fed into the bioreactor and culture medium taken out – organisms stay in the log phase as conditions do not change
Stationary phase
Decline phase
Log phase
Lag phase

54. Continuous flow processing
The Bioreactor

55. What did you learn? What are the five stages of microorganism growth?
Why do microorganisms grow slowly during the lag stage?
What happens during the log stage?
Why do microorganisms numbers stay the same during the stationary phase?
What is the name of the stge that comes after the stationary phase?