Chapter 27A: Bacteria and Archaea. 1. Extracellular Prokaryotic Structures 2. Intracellular Prokaryotic Structures 3. Genetic Diversity Prokaryotes
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1 Chapter 27A: Bacteria and Archaea 1. Extracellular Prokaryotic Structures 2. Intracellular Prokaryotic Structures 3. Genetic Diversity Prokaryotes
2 1. Extracellular Prokaryotic Structures
3 1 µm 1 µm 3 µm Prokaryotic Cell Shape cocci bacilli spirilla spherical prokaryotes are referred to as cocci (singular = coccus) rod-shaped prokaryotes are referred to as bacilli (singular = bacillus) rod-shaped cells can also be slightly curved (vibrio) or spiral (spirillum) or highly coiled (spirochete) Spherical Rod-shaped Spiral vibrio spirochete
4 Bacterial Cell Wall Structure (a) Gram-positive bacteria (b) Gram-negative bacteria Carbohydrate portion of lipopolysaccharide Cell wall Peptidoglycan layer Plasma membrane Peptidoglycan traps crystal violet, which masks the safranin dye. Cell wall Outer membrane Peptidoglycan layer Plasma membrane Crystal violet is easily rinsed away, revealing the red safranin dye.
5 Gram Staining A Gram stain is a very common stain to distinguish 2 bacterial types: Gram negative 1 2 3* 4 does NOT retain crystal violet, only the safranin Gram-negative bacteria Gram positive retains crystal violet due to thick peptidoglycan layer * key step 10 µm A Gram stain of 2 distinct Bacterial Species Gram-positive bacteria
6 Capsules A polysaccharide or protein layer called a capsule covers many prokaryotes. mediates adhesion and the formation of biofilms Bacterial cell wall Bacterial capsule protects the cell from dessication (drying out) and phagocytosis (being consumed by cells of the immune system) 200 nm Tonsil cell
7 Bacterial Flagella Flagellum consist of a basal body, hook & filament Filament 20 nm Cell wall Hook Motor basal body anchors flagellum in the membrane and cell wall, and rotates the hook & filament to propel bacterium Plasma membrane Rod Peptidoglycan layer
8 Fimbriae Some prokaryotes have fimbriae (aka pili ), which allow them to stick to their substrate or other individuals in a colony. Fimbriae 1 µm
9 Sex Pilus Sex pili are longer than fimbriae and allow prokaryotes to exchange DNA through a process called conjugation. Sex pilus 1 µm
10 2. Intracellular Prokaryotic Structures
11 Endospores Some Gram-positive bacteria form metabolically inactive endospores which can remain viable in harsh conditions for centuries. Coat Endospore inactive, dormant cells enclosed in a highly resistant spore coat remain dormant until conditions improve 0.3 µm very resistant to heating, freezing, dessication and damaging radiation (e.g. UV)
12 Infoldings of the Cell Membrane Some prokaryotes have highly folded membranes to increase the surface area for processes such as cellular respiration and photosynthesis. 0.2 µm 1 µm Respiratory membrane such membrane infoldings are not considered to be true organelles such as those found in eukaryotes Thylakoid membranes (a) Aerobic prokaryote (b) Photosynthetic prokaryote
13 Prokaryotic Chromosome Prokaryotes typically have 1 circular DNA molecule that is the chromosome. the prokaryotic chromosome is located in a region of the cell called the nucleoid
14 Plasmids Some bacteria have 1 or more small, extrachromosomal, non-essential circular DNA molecules called plasmids. Chromosome Plasmids Plasmids generally contain genes that confer some sort of advantage for survival and reproduction: 1 µm protection from toxic substances (antibiotic resistance) toxins to kill competitors, enhance disease gene transfer by conjugation
15 3. Genetic Diversity in Prokaryotes
16 Sources of Genetic Diversity in Prokaryotes 3 general factors contribute to prokaryotic diversity: MUTATION changes in DNA sequences RAPID REPRODUCTION some prokaryotes can reproduce every 20 minutes HORIZONTAL GENE TRANSFER transfer of DNA from one cell to another
17 Horizontal vs Vertical Gene Transfer Vertical transfer to the next generation Horizontal (or lateral) transfer within the same generation
18 Mechanisms of Prokaryotic Gene Transfer Bacteria can acquire DNA (i.e., new genes) in 3 basic ways: 1) Transformation the uptake and retention of external DNA molecules 2) Conjugation direct transfer of DNA from one bacterium to another regular conjugation HFR conjugation 3) Transduction the transfer of DNA between bacteria by a virus
19 Transformation Under the right conditions, bacteria can take in external DNA fragments (or plasmids) by transformation. DNA binding proteins transfer external DNA across cell wall and membrane recombination with the chromosomal DNA can then occur
20 Bacterial Conjugation F plasmid F + cell (donor) Bacterial chromosome F + cell Mating bridge F cell (recipient) Bacterial chromosome F + cell 1 One strand of F + cell plasmid DNA breaks at arrowhead. 2 Broken strand peels off and enters F cell. 3 Donor and recipient cells synthesize complementary DNA strands. 4 Recipient cell is now a recombinant F + cell. Conjugation and transfer of an F plasmid
21 Hfr Conjugation Hfr cell (donor) A + A + A + F factor F cell (recipient) A A + A 1 An Hfr cell forms a mating bridge with an F cell. 2 A single strand 3 Crossing over 4 of the F factor breaks and begins to move through the bridge. Recombinant F bacterium Conjugation and transfer of part of an Hfr bacterial chromosome, resulting in recombination A + A can result in exchange of homologous genes. A A + Enzymes degrade and DNA not incorporated. Recipient cell is now a recombinant F cell.
22 1 2 Phage infects bacterial donor cell with A + and B + alleles. Phage DNA is replicated and proteins synthesized. Phage DNA A + B + A + B + Donor cell Transduction A bacteriophage virus can transfer DNA fragments from one host cell to another followed by recombination: Fragment of DNA with A + allele is packaged within a phage capsid. Phage with A + allele infects bacterial recipient cell. Incorporation of phage DNA creates recombinant cell with genotype A + B. Crossing over Recombinant cell A + A A + B B A + Recipient cell requires a virus to be packaged with bacterial DNA by mistake infection of another cell by such a virus facilitates the gene transfer followed by recombination
1. Extracellular Prokaryotic Structures
1 µm 1 µm 3 µm 2/11/2015 Chapter 27A: Bacteria and Archaea 1. Extracellular Prokaryotic Structures 2. Intracellular Prokaryotic Structures 3. Genetic Diversity Prokaryotes 1. Extracellular Prokaryotic
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