Basics of Microbiology l chemical nature of life l types of cells l cell structure and function.
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Transcript of Basics of Microbiology l chemical nature of life l types of cells l cell structure and function.
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Basics of Microbiology chemical nature of life types of cells cell structure and function
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Prokaryotic Eukaryotic
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Bacteria and Protozoa
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Floc and Protruding Filaments
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Ciliated Protozoan
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Filamentous Algae
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Chemical Nature of Life
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Cellular Complexity
Cell
supramolecularassemblies
nucleic acids
proteinspoly-sacch
lipids
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Cellular Complexity (Continued)
minerals
keto acidsRibosePhosphate
pyruvate acetate
mononucleotides
amino acids
simplesugars
fatty acidsglycerol
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Chemical Composition of E. coli
Element % Dry Wt
C 50
O 20
N 14
H 8
P 3
S, K, Na, Ca, Mg,Cl, Fe
4.5
Others 0.3
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What do we use for Cell Composition?
Simple formula based on typical cell composition, C5H7O2N MW = 113 Should recognize this is a “typical”
value that is no more than a representative number
Alternative to include phosphorus C60H87O23N12P MW = 1374
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Functional Groups Carbon is a primary element in cellular life Carbon may be oxidized or reduced These reactions give rise to different
functional groups that are important in cellular chemistry. As examples amino acids alcohols DNA, RNA
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Functional Groups
Name Structure Example
Methyl hydrocarbons
Hydroxyl alcohols- OH
CH3
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Functional Groups
Name Structure Example
Carbonyl aldehydes ketones
Carboxyl acids
- C -
= O
- C - OH
= O
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Functional Groups
Name Structure Example
Amine amino acids
Sulfhydrylamino acidsmercaptans
- NH2
- SH
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Polymeric Nature of Cellular Structure
Many of the cells components are constructed of polymeric units
Cell walls, membranes, storage products, DNA, RNA, enzymes, etc. are all polymers made from a predetermined set of monomers
The four primary polymers of interest are:
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Polymeric Structures
Lipids: glycerol and fatty acids
Polysaccharides: carbohydrates
Proteins: amino acids
RNA and DNA: nucleotides
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Lipids Soluble in non-polar solvents
Found primarily in cell membranes
Found in many industrial wastestreams
Lipids can be classified as Simple or Complex
An important component of simple lipids are short chain fatty acids which are important intermediates in anaerobic metabolism leading to methane formation
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Carbohydrates
general group of compounds (CnH2nOn)
found in all cells, structural or storage
most prevalent form of organic matter in biosphere
basic component of diet (>50%)
present in large amounts in domestic and industrial wastes
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Pentose Sugars
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Complex Sugars: Polysaccharides
CarbohydratePolymers
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Amino Acids
Sequences of amino acids make proteins (peptide bond)
All amino acids have an amine group and a carboxyl group
There are approximately 20 different amino acids found in natural proteins
Amino acids classified based on their hydrophobicity
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Proteins Proteins most abudent matter in cell Typically 30 - 70% as dry wt. All contain C H N O Some contain S which contributes to
structure Proteins contribute to nitrogen loadings
in treatment plants Found in a variety of wastewaters
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Protein Function Biological Catalyst (Enzyme)
oxidoreductases transferases hydrolases lyases isomerases
Contractile proteins Transport proteins Glycoproteins
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Nucleotides
Informational polymer for cell heredity (RNA, DNA)
Energy carriers (adenosine disphosphate and adenosine triphosphate)
ATP + H20 ADP + PO4 + energy
Electron carriers (nicotinamide adenine dinucleotide)
NAD+ + 2e- + 2H+ NADH + H+ (NADH2)
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Basic Structure of Nucleotides
Phosphoric Acid
Ribose or Deoxyribose sugar
Nitrogenous base
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Nitrogenous Bases
DNA (double strand) Purine bases
Adenine Guanine
Pyrimidine bases Thymine Cytosine
A/T G/C
RNA (single strand) Purine bases
Adenine Guanine
Pyrimidine bases Uracil Cytosine
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Structure of ATP
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Microorganisms Types
Basic microorganisms of interest are Bacteria Algae Protozoa Fungi
Bacteria are Prokaryotic organisms Algae, Protozoa, and Fungi are
Eukaryotic organisms
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Microorganism Classification
Prokaryotic EukaryoticMacroorganisms None
knownEukarya:AnimalsPlants
Microorganisms Archaea Eukarya:Algae
Bacteria FungiProtozoa
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Prokaryotic Organism Structure
flagella
DNA
cellwall
cytoplasmicmembrane
ribosomes
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Eukaryotic Organism Structure
cell membrane nucleus mitochondrion
cytoplasm
lysosome
golgibody
nuclear membrane
endoplasmicreticulum
nucleolus
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Microorganism Classification
Prokaryotic Eukaryotic
Size very small,
1 - 5 m long
bigger,
2 - 100 mlong
NuclearStructure
None
Single DNAmolecule
well definenucleus
Severalchromosomes
InternalStructures
none, otherthan storage
many,membranebound
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Prokaryotic Bacteria Two Prokaryotic kingdoms Archaea: includes those bacteria that
have traits typically associated with harsh environments
examples included halophyles, thermophyles, methanogens,
Bacteria: includes a variety of bacteria including most “typical” groups
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Bacteria and Archaea prokaryotic bacteria (Bacteria and
Archaea) are nutritionally diverse
assimilate soluble substrates which are either soluble initially or have been solubilized by exocellular enzymes
live in anaerobic and aerobic environments
key component of the decomposers
disease
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Prokaryotic Organisms Classified by Metabolic requirements
autotrophic (CO2) and heterotrophic (organics) for cell carbon
chemotrophic (chemical)and phototrophic (light) for energy oxidize inorganics for energy
(chemolithotrophs) oxidize organics for energy
(chemoorganotrophs)
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Prokaryotic Organisms Also Classified by Shape
Coccus
Rod
Spirilum
Spirochete Filamentous
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Algae
microscopic and macroscopic
microscopic (single cell/filamentous)
most are obligate photoautotrophs
characterized by: nature of chlorophylls carbon reserves or storage motility cell wall structure
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Protozoa
unicellular Eukaryotic organism which lack cell wall
chemoorganoheterotrophs
typically fulfill nutritional needs by grazing
Grazing on bacteria is an important process in producing clear effluents in biological treatment plants
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Protozoa Continued
often parasitic Giardia Cryptosporidium
often motile, means of motility is used to classify flagella cilia
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Fungi
lack chlorophyll
are chemoorganoheterotrophs
most are obligates aerobes
structure often characterized by long filaments called hyphae
grow well under low nutrient and acidic conditions
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Fungi, Continued
because they grow well under adverse conditions and form filaments, they are often problematic in wastewater treatment plants where settling is important
play major role in nutrient cycling in soil and aquatic environments
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Biological Structure and Function
All cells need:
capture and excretion of nutrients and wasteproducts
protection from environment
metabolic conversion of nutrients
preservation and replication of genetic information
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Capture of Nutrients:Cytoplasmic Membrane
Thin structure that completely encloses cell
Selective to regulate nutrient and waste flow
Phospholipid bilayer structure hydrophilic phosphoric head hydrophobic lipid tail hydrophobic interactions give stability to
membrane
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Phospholipid Bilayer of Membrane
protein
phospholipid
protein
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Protection from the Environment:Cell Wall
Structural Protection In Eukarya, cell wall constructed of
cellulose (fungi, algae, plants) chitin (fungi) silica (diatoms) polysaccharides (yeasts)
Prokaryotic and Archaea (different amounts of peptidoglycan Gram + versus Gram -
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Additional Cell Structures Related to Protection
Flagella
Cilia
Gylcocalyx (capsule or slime layer)
Fimbriae
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Flagella Flagella provide means to move towards or
away from chemicals (chemotaxis), light (phototaxis), or oxygen (aerotaxis)
From an ecological view, chemotaxis provides a competitive advantage in environments
Organisms can have a single polar flagella (montrichous), a tuft of flagella (lophotrichous), or many (peritrichous)
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Flagella
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Chemotaxis
Chemotaxis consists of runs (nearly straight) and tumbles (random redirection)
Runs are longer when bacteria move in favorable direction
Response based on relative change, not absolute concentration
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Chemotaxis
Attractant
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Other Movement Strategies
Eukaryotic cells also move by cilia
Cilia are shorter and more numerous than flagella
Paramecia move by cilia
Amoebae move by cytoplasmic streaming (amoeboid movement)
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Survival in Low Nutrient Conditions
Organisms growth in low nutrient waters is limited by supply of nutrients
Rather than move around to capture nutrients, organisms in these environments fix themselves in place and let nutrients come to them
Thus attachment mechanisms are important
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Gylcocalyx
capsule or slime layer is comprised of a polysaccharide and protein matrix
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Gylcocalyx Function
Attachment to surfaces
Protection from desiccation
Microbial flocculation
Metal complexation
Protection from phagocytosis
Pathogen virulence
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Other External Appendages
Fimbriae: attachment mechanisms
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Eukaryotic Organelles for Metabolism
Mitochondria: site of cellular respiration, contains enzymes for aerobic energy production
Chloroplasts: large organelles for energy production in photosynthetic organisms
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Microbial Replication For growth to occur, DNA must be
replicated before cell division As reported, DNA is a double stranded
macromolecule consisting of a sugar-phosphate backbone and purine or pyrimidine bases
The double strands are linked by hydrogen bonding between base (T-A) and (G-C)
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DNA Structure (Simple)
A
T
T
A
A
T
T
A
G
C
A
T
G
C
C
G
T
A
A
T
C
G
T
A
T
A
G
C
T
A
T
A
T
A
T
A
Base pair hydrogen bonding between adenine and thymine
Base pair hydrogen bonding between guanine and cytosine
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DNA Replication (Simple)
TTTGTTAATGAGCATCTT
AAACAATTACTCGTAGAA
AAACAATTACTCGTAGAA
TTTGTTAATCAGCATCTT
TTTGTTAATCAGCATCTT
AAACAATTACTCGTAGAA
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Protein Synthesis
All information needed for protein synthesis is located on DNA
However, this information can not be used directly
Ribonucleic acid (RNA) is used as an intermediate to take information from DNA to make proteins
The RNA used for this transcription is called messenger RNA (mRNA)
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Translation in Protein Synthesis
The specific sequence of amino acid in each protein is directed by the specific sequences of purine or pyrimidine bases in mRNA
Proteins are synthesized by translating the mRNA base sequence in a system consisting of ribosomes, transfer RNA (tRNA), and a number of enzymes.
The translation of each amino acid requires three bases (codon) in mRNA
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Diagram of Translation
tRNA
RNA polymerase separates DNA strands
mRNA strand
Amino acid
Protein
ribosomes
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Prokaryotic Genetic Material
Single circular strand of DNA supercoiled to fit in cell
Plasmid: extrachromosomal DNA, smaller units of non-essential DNA Conjugative plasmids (DNA exchange)
Resistance plasmids (antibiotics, metals)
Catabolic plasmids (degradation of unusual, non-essential substrates, PAHs, PCBs, chlorophenols, etc.
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Plasmid Transfer from Cell to Cell
important in virus reception and DNA transfer (conjugation: transfer through cell to cell contact )
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Eukaryotic Genetic Material Eukaryotic cells have a distinct nucleus
surrounded by a nuclear membrane which has very small pores to allow the exchange of material between the nucleus and cytoplasm.
DNA is present as multiple chromosomes
Nucleolus: an area rich in RNA, site of ribosomal RNA synthesis
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Other Eukaryotic Organelles In Eukaryotic organisms the locations of
mRNA and protein synthesis are separated by the nuclear membrane characteristic of Eukaryotic organisms
Endoplasmic Reticulum: folded membrane system which forms channels through cytoplasm. Attached to both cytoplasmic membrane and nuclear membrane. Houses ribosomes for protein synthesis.
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Storage Products in Cells
Carbon storage polymers
Phosphate storage
Sulfur storage
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Carbon Storage
Carbon storage as glycogen, starch, polyhydroxybutyric acid (PHB)
PHB is very important in the biological removal of phosphorus
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Phosphorus and Sulfur Storage
Polyphosphate granules, storage of energy increased phosphorus uptake over stoichiometric needs
Sulfur granules, elemental sulfur used as an energy source in sulfur filamentous bacteria
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Gas Vacuoles Gas vacuoles found in prokaryotic
organisms, both Bacteria and Archaea
Cyanobacteria and other photosynthetic bacteria float because of gas vacuoles and form massive blooms at water surface.
Allows photosynthetic organisms to “float” to optimal light intensity
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Endospores
Form inside bacteria cells
Physical and chemical agents trigger spore formation
Spores are very resistant to heat, chemicals, desiccation, very difficult to kill