The Microbial World. Tree of Life Phylogeny based on 16S ribosomal DNA. Three domains of living organisms Borderline entities –Viruses –Viroids –Prions.

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Presentation transcript:

The Microbial World

Tree of Life Phylogeny based on 16S ribosomal DNA. Three domains of living organisms Borderline entities –Viruses –Viroids –Prions

Characteristics of Living Organisms Metabolism Growth Reproduction

Characteristics of Cells Cell membrane separates cell from outside DNA as genetic material Ribosomes Basic structural macromolecules Regulate flow of materials in and out Reproduce and are the result of reproduction Require energy

Types of Cells Prokaryotes Eukaryotes

Generally eukaryotic cells are morphologically complex and biochemically simple; prokaryotic cells are morphologically simple and biochemically complex

Prokaryotic Cell (Minimal) No “true” nucleus No internal membrane bound organelles

Prokaryotic Cell (Maximal) Inclusions External structures for attachment, genetic exchange, and movement

Prokaryotic Cell Wall Unique chemical composition Protects cell from osmotic lysis Two major types –Gram positive –Gram negative

Gram Negative Cell Walls

Gram Positive Cell Walls

Structures Exterior to the Wall

Glycocalyx/Capsule Extracellular polymer Important in attachment to surfaces - biofilms Protects against phagocytosis

Biofilm Formation

Pili Short hairlike appendages projecting from the bacterial cell surface Composed of protein Function: –Attachment –Transfer of DNA

Flagella Long protein (flagellin) appendage Motility Structure and function like a propeller Arrangement of flagella sometimes used in taxonomy/identification of bacteria

Cell Membrane Fluid Mosaic Model Phospholipid bilayer with embedded proteins Regulates transport of substances into and out of the cell

Membrane Transport Diffusion Passive/Facilitated Transport Group Translocation Active Transport

Internal Structures

Nucleoid Bacterial chromosome Single circular piece of DNA No associated histones

Plasmids Extrachromosomal small piece of DNA Independent of chromosome Code of ancillary functions –Antibiotic resistance –Metal resistance –Catabolic pathways Self-replicating Used in genetic engineering

Ribosomes Combinations of protein and RNA Essential structures Function –Protein synthesis –Expression of genetic information Size differs between prokaryotes and eukaryotes Prokaryotes: 70S

Inclusions Magnetosomes Poly-  hydroxybutyrate Sulfur granules Glycogen Polyphosphate granules