Chapter 4 Prokaryotic cell Bacteria are prokaryotic organisms
DNA is not enclosed within a membrane DNA is not associated with
histone proteins ( no nucleosomes) No membrane bound organelles.
Cell walls peptidoglycan Divide by binary fission Curved rod Bent
rod Loose spiral Tight spiral Glycocalyx Capsule gelatinous
substance outside the cell wall. Polysaccharides Contribute to the
virulence Protect bacteria from phagocytosis Capsulated
Streptococcus pneumoniae pneumonia Uncapsulated destroyed by WBCs
Streptococcs mutans surface of teeth Tooth decay Flagella long
filamentous Movement motile Rotate their flagella to swim Exhibit
chemotaxis Positive chemotaxis towards substances Negative
chemotaxis - move away Spirochetes Treponema pallidum syphilis
Fimbriae Gram - bacteria have hair like structures. Shorter thinner
than flagella Numerous Attachment virulence Neisseria gonorrhoeae
fimbriae Mucous membrane colonize the area No fimbriae cannot
colonize Pili One or two pili Longer than fimbriae Used for
conjugation Join two bacterial cells together for DNA transfer Cell
wall Protects internal structures and plasma membrane Made up of
peptidoglycan Glycan sugar repeating units of disaccharide
N-acetylmuramic acid N-acetylglucosamine Peptido-peptide-amino
acids Rows are sugars are cross linked by amino acid chains.
Lipoprotein Phospholipid lipopolysaccharide Lipid A Endotoxin
Septic shock Mycoplasma has no cell walls Cell wall can be damaged
Antibiotic penicillin Stops the formation of peptide cross bridges
in peptidoglycan Lysozyme-enzyme-tears, saliva, mucus Breaks the
bond between sugar molecules. Gram- more resistant outer membrane
Gram+ more sensitive peptidoglycan is exposed to the environment
Plasma membrane Encloses the cytoplasm Phospholipids and proteins
No sterols exception is mycoplasma Phospholipids are arranged in a
bilayer Proteins are inserted Structure fluid mosaic Plasma
membrane selectively permeable (semipermeable) Damaged by alcohol,
polymyxin Molecules constantly cross the membrane Nutrients get
into the cell Waste products move out of the cell Active process
and passive process Passive process molecules move from an area of
high concentration to low concentration. Energy is not used. Active
process molecules move from an area of low concentration to high
concentration Energy is used. Passive process Simple diffusion,
facilitated diffusion, osmosis Simple diffusion molecules move from
an area of high concentration to low concentration. CO2 and O2
cross the membrane by means of simple diffusion. Facilitated
diffusion molecules move from an area of high concentration to low
concentration. Energy is not used. Transport proteins are used.
Osmosis movement of water molecules from an area of high
concentration of water to an area of low concentration of water
through a selectively permeable membrane. hypotonic solute
concentration lower outside the cell. Water moves into the cell.
Cell swells up and breaks down. Osmotic lysis. Cell walls are
damaged bacteria undergo osmotic lysis. Hypertonic solute
concentration is higher outside the cell. water moves out of the
cell. Plasma membrane shrinks away from the cell wall. Plasmolysis
Most bacteria cannot survive in a hypertonic environment Active
process Active transport - molecules move from an area low
concentration to high concentration. Energy is used. Transport
proteins are involved. Ribose, histidine Group translocation
molecules move from an are low concentration to high concentration.
Energy is used. Transport proteins are involved. While the molecule
is being transported, it is chemically altered. Glucose transported
across the membrane, phosphate is added. Cytoplasm carbohydrates,
proteins, lipids, ribosomes, DNA, inclusions Nuclear area
(nucleoid) long circular, double stranded DNA chromosome Genetic
information needed for the structure and function of the cell. Some
bacterial cells small circular DNA plasmid Plasmids make the
bacterium resistant to antibiotics. Ribosomes two subunits Each
subunit is made up of proteins and ribosomal RNA. 70S ribosomes
smaller, less dense than 80S ribosomes Protein synthesis Inclusions
organic or inorganic Metachromatic granules phosphate used by the
cell to make ATP. Corynebacterium diphtheriae Polysaccharide
granules glycogen or starch Lipid inclusions hydroxybutyric acid
Bacillus, Mycobacterium Sulfur granules Thiobacillus uses sulfur
for energy. Carboxysomes enzyme ribulose diphosphate carboxylase.
Needed for photosynthesis Cyanobacteria photosynthetic bacteria Gas
vacuoles hollow cylinders covered by protein. Float at a certain
depth in water - light Endospores Clostridium and Bacillus Dormant
stage of the cell Resistant to hostile environmental conditions
Heat, UV light, disinfectant, desiccation Nutrient depletion
sporulation Endospores dehydrated DNA, RNA, ribosomes, enzymes,
dipicolinic acid, calcium ions. Stay dormant for thousands of
years. When conditions are favorable, spores germinate into
vegetative cells. Sporulation is not reproduction. One cell one
spore germinates into a single cell. No increase in the number of
cells
