B.Sc. microbiology II Bacteriology Unit I Classification of Microorganisms
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Classification of Microorganisms Course: B.Sc. Microbiology Sem II Sub: Bacteriology Unit I
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Transcript of B.Sc. microbiology II Bacteriology Unit I Classification of Microorganisms
Classification of Microorganisms
Course: B.Sc. MicrobiologySem II
Sub: BacteriologyUnit I
Types of Classification Systems cont.
• Carlolus Linnaeus proposed the Two Kingdom Classification in 1758.
• The two kingdoms consisted of:
– Plantae
– Animalia
THREE KINGDOM SYSTEM
• ERNEST HAECKEL‐1866
• KINGDOM PROTISTA:
– It includes unicellular & colonial eukaryotes such as bacteria, algae, fungi & protozoans.
• KINGDOM PLANTAE:
– It includes multicellular photosynthetic plants.
• KINGDOM ANIMALIA:
– It includes multicellular animals.
Types of Classification Systems cont.
• The next classification system that came about consisted of 5 kingdoms.
• It was proposed by Robert Whittaker in 1969.
• The 5 kingdoms consisted of:– Plantae
– Animalia
– Fungi
– Protista
– Monera
Robert Whittaker’s Five Kingdom System
• Plantae– Plants are immobile, multicellular eukaryotes that produce
their food by photosynthesis and have cells encased in cellulose cell walls.
– Examples: Ferns, pine trees, roses
• Animailia– Animals are multicellular, heterotrophic eukaryotes that
are capable of mobility at some stage during their lives, and that have cells lacking cell walls.
– Examples: Humans, worms, spiders
Robert Whittaker’s Five Kingdom System
• Fungi– Fungi are a eukaryotic, heterotrophic, usually multicellular group
having multinucleated cells enclosed in cells with cell walls.
– They obtain their energy by decomposing dead and dyingorganisms and absorbing their nutrients from those organisms.
– Examples: Mushrooms, moulds, yeast
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• Protista• The most ancient eukaryotic kingdom, protista include a variety of
eukaryotic forms. • Perhaps they are best defined as eukaryotes that are not fungi, animals,
or plants.• Cell wall is usually absent, if present it is impregnated with silica
(diatoms).• Photosynthetic or non photosynthetic.• Locomotory structure may be cilia, flagella, pseudopodia or absent.
• Examples: Paramecium, amoeba, diatom, euglena, some algae (unicellular), slime moulds
Robert Whittaker’s Five Kingdom System
Protista
Paramecium diatom
amoeba euglena
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Robert Whittaker’s Five Kingdom System
• Monera
– Monera are the only kingdom composed of prokaryoticorganisms, they have a cell wall, and lack both membrane-bound organelles and multicellular forms.
– Examples: Bacteria, blue-green bacteria (cyanobacteria)
Characteristics of Monera:
• Unicellular or filamentous prokaryotes
• Omni present (air, soil, hot springs, deserts, deep sea, snow & asparasites)
• Cell wall is composed of polysaccharides & amino acids(peptidoglycons ormurein)
• Autotrophic (photo & chemosynthetic) & heterotrophic(saprophytic & parasitic)
• Reproduce by vegetative, asexual & sexual methods
• MAJOR GROUPS OF MONERA:
1. Archaebacteria: Methanogens, Halophyles, thermoacidophyles
2. Eubacteria: Vibrio, mycobacteria
3. Cyanobacteria: Nostoc, Anabena
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HalobacteriumVibrioAnabenaNostoc
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Types of Classification Systems cont..
• In the 1970’s, microbiologist Carl Woese, among otherresearchers conducted studies and concluded that a group ofprokaryotic microorganisms called archaebacteria areseparate from other monerans.
• Therefore, they decided to split kingdom monera into twoseparate kingdoms:– Eubacteria
– Archaebacteria
• Archaebacteria– Unicellular– Prokaryotic– Exist in extreme environments – they do not need oxygen or
light to live– Examples: methanogens, extreme thermophiles, extreme
halophiles
• Eubacteria– Unicellular– Prokaryotic– Heterotrophic, autotrophic, and chemotrophic– Examples: Bacteria, cyanobacteria (blue-green bacteria)
Three Domain System
• The Three Domain System, developed by Carl Woese,is a system for classifying biological organisms.
• Over the years, scientists have developed severalsystems for the classification of organisms.
• From the late 1960's, organisms had been classifiedaccording to a Five Kingdom system.
• This classification system model was based onprinciples developed by Swedish scientist CarolusLinnaeus, whose hierarchical system groups organismsbased on common physical characteristics.
The Three Domain System• As scientists learn more about organisms, classification systems change.• Genetic sequencing has given researchers a whole new way of analyzing
relationships between organisms.• The current system, the Three Domain System, groups organisms
primarily based on differences in ribosomal RNA structure.• Ribosomal RNA is a molecular building block for ribosomes.• Under this system, organisms are classified into three domains and six
kingdoms.• The domains are Archaea, Bacteria, and Eukarya. The kingdoms are
Archaebacteria (ancient bacteria), Eubacteria (true bacteria), Protista,Fungi, Plantae, and Animalia.
• The Archaea and Bacteria domains contain prokaryotic organisms.These are organisms that do not have a membrane bound nucleus.
• Eubacteria are classified under the Bacteria domain and archaebacteriaare classified as Archaeans.
• The Eukarya domain includes eukaryotes, or organisms that have amembrane bound nucleus. This domain is further subdivided into thekingdoms Protista, Fungi, Plantae, and Animalia.
Comparison of Classification Systems
• Five Kingdom System
Kingdoms: Monera, Protista, Fungi, Plantae, and Animalia.
Three Domain System
• Archaea Domain
– Archaebacteria Kingdom
• Bacteria Domain
– Eubacteria Kingdom
• Eukarya Domain
– Protista Kingdom
– Fungi Kingdom
– Plantae Kingdom
– Animalia Kingdom
ReferencesBooks:1. Biology of microorganisms By M. T. Madigan, J. M. Martinko, D. A.
Stahl and D. P. ClarkImages:
1. https://lh4.ggpht.com/BL8zyuw37iAzWft6GzMuHTWQ7LmX1pGCKxaXjY_wF8RuMzVbHGnNAsu-XFO-r6w_ozc8hHM=s125
2. http://cfb.unh.edu/phycokey/Choices/Amoebae_Flagellates_Ciliates/Ciliates/PARAMECIUM/Paramecium_05_600x395_caudatum.jpg
3. http://www.bodc.ac.uk/projects/uk/mfmb/introduction/images/diatoms.jpg
4. http://www.microscopy-uk.org.uk/mag/imgsep01/amoebaproteus450.jpg
5. https://lh6.ggpht.com/mkGhpDrT154r8rgB0tTM4wfgOG0-ULTlnUzmbRT7pvKbgVUoTrBC9XuJEqxTdQkEniP1jQ=s170
6. http://www.ohio.edu/plantbio/vislab/algaeimage/jpegs/nost1nitr.JPG
7. http://protist.i.hosei.ac.jp/PDB/images/Prokaryotes/Nostocaceae/Anabaena/Anabaena9c.jpg
8. https://s3.amazonaws.com/healthtap-public/ht-staging/user_answer/reference_image/8742/large/Cholera.jpeg?1344948822
9. http://plantphys.info/organismal/lechtml/images/halobacterium.jpg
