Lec01_Introduction to Microorganisms.pdf

Transcript

an introduction to the world of…
Microscopic Organisms
 What are microorganisms?
 Are known to be in every possible
ecological niche (ubiquitous)
 Are usually too small to be seen
with the naked eye.
 A microscope or a magnifying glass
would be needed to view the tiny
ones clearly.
 Because of their size and in terms
 of population size, they
outnumber all other groups of
bigger animals or plants.
Comprise 3 of 5 Kingdoms
 Taxonomic
Classification of
microorganism
follows the
Linnaean System of
Classification of
living things.
 Species is the
fundamental rank.
 Does not apply to
viruses, viroids and
prions.
 Microorganism - Cell types
 Of the 5 taxonomic Kingdoms, Fungi and Protists all
have cells that are of the eukaryotic type (living)
 Only the Bacteria have cells that are of the prokaryotic
type (living)
 The viruses, viroids and prions are acellular, also known
as non-living entities
Prokaryote
vs
Eukaryote
Cell types
Eukaryote Microorganisms
Prokaryote Microorganisms
 THE FUNGI :

MOULDS & YEASTS
 The Fungi Kingdom
 Fungi can be found to live in:
 soil
 on & inside plants and animals
 water and
 on non-living things or items
 Studies have identified 80, 000 species, but it is
thought that there must be at least 1.5 million species
 Evolutionary history of the fungi is not very clear,
however, it is theorized that the hypothetical common
ancestor is an aquatic, unicellular, flagellated protist
(similar to chytrids)
 …..What do Fungi look like?

Here are some representatives….
 Fungi: friend or foe?
 Fungi may not have a good reputation with humans. Why?
 Known to spoil food or are pests/nuisance
 Cause disease in plants and animals
 Contribute to bio-deterioration
 Few are carnivorous

 Fungi can benefit humans directly. How?
 Some are edible
 Some aid in food & beverage production
 Some useful in biological research
 Some produce antibacterial substances
 Few aid in decomposition processes - biodegradation
 Few form mutual relationships with other living things that
have a indirect benefit to humans
 Fungi Characteristics
 Moulds are aerobic, spore bearing, eukaryotic cells
 Yeasts are anaerobic, elliptical, eukaryotic cells
 Most moulds form macroscopic structure, while yeasts
are unicellular(single celled)
 Heterotrophs – secrete enzymes that digest the substrate
(food) they live on
 Have cell walls that is largely made of chitin (tough,
flexible carbohydrate)
 Storage carbohydrate is glycogen
 Have unique reproductive cycles – both asexual and
sexual modes of reproduction
Fungi grow on their food substrate
 Hyphae absorbing nutrients (vegetative hyphae)
remain hidden in their food, while the reproductive
structures (aerial hyphae) emerge at the surface
and are visible
 Yeast Structure
 Yeast are oval or elliptical
in shape
 They do not have any
external appendages
 Cell wall is made of chitin
 Being a eukaryotic
organism, it has a number
of different types of
membrane bound
organelles and a nucleus
all wrapped in a cell
membrane
 Mold Structure
 Moulds have numerous
threadlike filaments
called ‘hyphae’.
 Mass of aggregated
hyphae is referred to as
‘mycelia’.
 Spores are found at the
ends of the hyphae in
specialized structures.
 Some moulds are large
in size and can be seen
without microscopes -
mushrooms
 Reproductive structure
produces ‘spores’ which
can be formed through
asexual or sexual
reproduction
THE PROTISTA
 The Protista Kingdom
 Are the simplest of the eukaryotic organisms
 Place in this Kingdom by the virtue of being a eukaryotic
organism that did not fit the description of a plant, animal or
fungus.
 Scientists have described just over 100, 000 species of
protists
 All of them are metabolically diverse displaying great variety
in: size, structures, modes of nutrition, locomotion,
reproduction and cell surface
 Classification/grouping is often done in order of being:
- animal-like protista
- plant-like protista
- fungus-like protista
 Importance of Protists
 Metabolic diversity implies wide variety of role/function
in human life or other living things – not well studied
 Autotrophic algae carry out photosynthesis producing
some of the oxygen in earth’s atmosphere which
supports food webs globally
 Algae living in association with fungi in rocks and tree
bark form lichen
 Some members contribute to the first step in producing
soil from bare rock(rock erosion) – big role in SOIL
PRODUCTION
 BIOLOGICAL INDICATORS of ATMOSPHERIC POLLUTION
Protista: friend or foe….
 Some are medically important parasites of humans
(e.g. malaria parasite) and plants
 Some species of algae make chocolate smooth and
creamy or used in food processes (e.g. jelly)
 Other species make paint reflective or other
industrial purposes
 Some play a major role in biological research
 Distinctive protist fossils are often good indicators
of petroleum reserves
 Maybe one day mankind can fully harness the
energy from multitudes of photosynthetic protists
in bioreactors that use sunlight and CO2 to produce
oils and other biofuels
What do they look like?

Here are some representatives….
 Algae Characteristics
 Some protists (algae) are photosynthetic
 Cells of algae contain chloroplasts that store a
rainbow of yellow, gold, brown, red & green
photosynthetic pigments.
 These organelles use light energy and CO2 to
produce carbohydrates and other organic molecules
that support freshwater and marine food webs.
 O2 is released as a metabolic waste product.
 Algae - typical structure
 Algae may take the form of being:
 single-celled
 Colonial
 Filamentous or
 Multi-cellular

 Algae body shape resemble plants, but lack the
distinctive reproductive structures that define plants.
 Algal Groups
1) Euglenoids e.g. euglena – can be
autotrophs or heterotrophs
2) Dinoflagellates – characterised by
flagella; are major component of
plankton; 50% are
photosynthetic; some mutually
live in tissues of marine animals;
some are predators or parasites
(harmful algal blooms or toxic to
humans from fish); others are
bioluminescent
3) Diatoms (unicellular; good indicators of
environmental quality because sensitive
to pH, salinity & other factors), golden
and brown algae (some are
photosynthetic and contribute to food
web; others can cause fish kills)
4) Red algae – some secrete CaCO3 and help
build reefs; used in culture medium for
microbes; gel in canned meats, thickener
in ice cream & yoghurt; emulsifier in
chocolate bars, stabilizes paint, cosmetics
and creamy food, one type(nori) used for
wrapping sushi
5) Green algae – very plant-like; possess
chlorophyll a & b and photosynthesize;
some live in symbiosis with fungi(lichen).
 Slime and Water mold traits
 Slime molds resemble fungi in some ways:
 Are heterotrophic
 Some are single-celled, others multi-cellular
 Some produce filaments
 Found alongside fungi in nature
 Water molds (Oomycetes) are largely decomposers or
parasites in nature
 Produce swimming spores that aids in dispersal
 Contain cellulose instead of chitin in cell wall
 Cause of major plant disease – downy mildew of
grapes and potato blight disease
 Protozoa characteristics
 Largely unicellular, aerobes and anaerobes
 Vast majority heterotrophs, few autotrophs
 Move by flagella, cilia or pseudopodia
 Some free-living; others obligate parasites
 Protozoa categorized as:
 Ameboid protozoa move by pseudophodia (amoeba)
 Flagellated protozoa move by flagella (trypanasoma,
giardia, leishmania, sporozoa)
 Ciliated protozoa move by cilia (paramecium)
 Apicomplexa – non-motile, spore-forming, internal
parasites of man (cryptosporidium, toxoplasma &
plasmodium (malaria parasite)
THE BACTERIA
 The Monera Kingdom
 Species types could be anywhere between 100,000 –
10,000,000
 Said to have a huge influence on the earth’s history and
impact on life on earth today
 Bacteria are ubiquitous – virtually no place on & in earth and
the atmosphere is free of bacteria
 Most of what we know about bacteria comes from the
handful that have been able to grow in artificial (lab)
conditions
 Bacteria Features
 Bacteria (archae and eu bacteria)
 Single-celled & reproduces asexually by binary fission
 Is the only group of organisms with a prokaryotic cell
structure:
 Lacks a nucleus (no nuclear membrane)
 Its DNA does not contain histone proteins
 Has a circular DNA molecule
 Has very limited internal membrane-bound organelles
(only ribosomes & mesosomes)
 Has extra chromosomal material (plasmid)
 Cell wall chief component is peptidoglycan
General Bacteria Structure
Bacteria under the microscope
 Bacteria – typical features
 Typically 10-100 times smaller than eukaryotic cells
 Bacteria are classified at the species level as having 70%
similarities in biochemical characteristics
 Metabolically very diverse by growing in:
 Light or darkness
 Use of organic & inorganic compounds
 Can be aerobic, anaerobic or facultative
anaerobes
 extreme temperatures
 extreme pH’s
 extreme barometric pressure
 extreme osmotic conditions
Bacteria shapes
 What do they look like?

Here are some representatives….
 Bacteria & their importance
 Some are parasitic/pathogenic to animals & plants
 Some enjoy a mutualistic relationship with other
organisms (ruminant bacteria, endophytes, nitrogen
fixing bacteria)
 Others have a commensalistic relations with plant &
animals (body micro flora)
 Some are used in medical research
 Some contribute to the biogeochemical cycle
 Some are used in the food and industry
 Some produce antibiotics and other useful substance
used in the food and drug industry