Search for notes by fellow students, in your own course and all over the country.
Browse our notes for titles which look like what you need, you can preview any of the notes via a sample of the contents. After you're happy these are the notes you're after simply pop them into your shopping cart.
Title: Microbiology Chapter 3
Description: Grand Valley State University, BMS 212 class notes. These notes follow the book: Microbiology with Diseases by Taxonomy, 4th Edition Author - Robert W. Bauman Ph.D.
Description: Grand Valley State University, BMS 212 class notes. These notes follow the book: Microbiology with Diseases by Taxonomy, 4th Edition Author - Robert W. Bauman Ph.D.
Document Preview
Extracts from the notes are below, to see the PDF you'll receive please use the links above
Chapter 3 – Cell Structure and Function
1
...
Growth as living things can grow in size
...
Responsiveness to their environment
...
Metabolism is to take in nutrients use them in a series of controlled chemical reactions
...
Compare and Contrast eukaryotic and prokaryotic cells
...
Describe the composition, function, and relevance to human health of glycocalyces (aka slime)
...
Bacterial biofilm in dental plaque
4
...
Rotation propels bacterium through environment
avoid danger, towards food, chemical [chemotaxis], light [phototaxis]
Are not present on all bacteria
Composed of filament, Hook, and basal body
...
5
...
Peritrichous: flagella that cover the surface of the cell
Polar: only cover ends
Tufts of Polar: [not much info found]
Endoflagella: found in spirochete bacteria, corkscrew
coating (axial filament) around cell
6
...
Fimbriae (smallest)
Pili
Flagella (longest)
Used by bacteria to adhere to one
– Special type of fimbria
- longer
another, to
– AKA conjugation pili
...
Describe common shapes and arrangements of bacterial cells
...
Describe the sugar and peptide portions of peptidoglycan
...
Compare the cell walls of Gram-positive and Gram-negative bacteria in terms of structure and Gram
staining
...
Compare the cell walls of acid-fast bacteria with typical Gram-positive cell walls
...
11
...
Outer membrane can implicate disease
...
Prevents penicillin to the underlying peptidoglycan, thus drug useless
...
Explain the fluid mosaic model of membrane structure
...
Describe the functions of a plasma membrane as they relate to permeability
...
14
...
Active transport requires ATP to go against the concentration gradient
...
group translocation (in bacteria) = chemically altered product during transport
Passive transport does not require ATP
...
Examples include Diffusion, Facilitated diffusion, and Osmosis
...
Define osmosis and distinguish among isotonic, hypertonic, and hypotonic solutions
...
16
...
Cytosol – Liquid portion of cytoplasm
Inclusions – May include reserve deposits of chemicals
Endospores – Unique structures produced by some bacteria that are a defensive strategy
against unfavorable conditions
17
...
Deposits of lipids, starch, or compounds containing nitrogen, phosphate, or sulfur
...
stored and used when nutrients are scarce
18
...
19
...
Ribosomes – Sites of protein synthesis
Cytoskeleton – Plays a role in forming the cell’s basic shape
20
...
Glycocalyces are absent in eukaryotic cell walls
Eukaryotic cell walls contain steroid lipids (cholesterol) for fluidity, plants have cellulose
Only eukaryotes frequently attach chains of sugar to outer of lipids for signaling
Both types can control materials in/out cell via endocytosis
i
...
Contrast exocytosis and endocytosis
...
This
done with cell forming arms called pseudopods
...
22
...
eukaryotes flagella are internal structures within cytoplasmic membrane
eukaryotes push the cells through medium, prokaryotes have rotate motion
23
...
Only eukaryotes have cilia: motile, internal, hairs, shorter than flagella
24
...
Flagella are long, wavelike, slow moving, few
Cilia are short, rotational, many, move substances along surface
25
...
Ribosomes
Cytoskeletons
centrioles
- protein synthesizers
- internal scaffolding of fibers/
- only found in animal/ few
- larger in eukaryotes
tubules
fungi
- attached to membranes or
- anchor/ move organelles
- role in mitosis/ in
endoplasmic reticulum
- may contract cell for
formation of
Endocytosis
Flagella and cilia
26
...
eukaryotes have larger ribosomes than prokaryotes
27
...
tubulin microtubules
microfilaments are composed of actin
intermediate filaments contain various proteins
28
...
Describe the endosymbiont theory of the origin of mitochondria, chloroplasts, and eukaryotic cells
...
Aerobic cells provide organelles and anaerobic cells becomes dependent host
Aerobic prokaryote become mitochondria, and its cytoplasmic membrane become cristae
chloroplasts origin from phagocytized photosynthetic prokaryotes
30
...
Mitochondria and chloroplasts contain small amount of circular DNA
i
Title: Microbiology Chapter 3
Description: Grand Valley State University, BMS 212 class notes. These notes follow the book: Microbiology with Diseases by Taxonomy, 4th Edition Author - Robert W. Bauman Ph.D.
Description: Grand Valley State University, BMS 212 class notes. These notes follow the book: Microbiology with Diseases by Taxonomy, 4th Edition Author - Robert W. Bauman Ph.D.