Lecture Exam 2 – Lim Cabrillo Microbiology Bio 6 – Flashcards

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factors influencing enzyme activity (5)
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-temperature
-pH
-substrate concentration
-competitive inhibitors
-non-competitive inhibitors
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temperature affects enzyme activity by
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increasing activity with increased temp to an optimum temp
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pH affects enzyme activity by
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increased activity at optimum pH
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substrate concentration affects enzyme activity by
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increased activity as substrate increases, til saturation
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competitive inhibitor affects enzyme activity by
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binding to active site to physically block enzyme binding
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non-competitive inbhibitor affects enzyme activity by
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binding to allosteric site to change shape of enzyme so active site is no longer available for substrate to bind
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allosteric site
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site separate from enzyme binding site that when non-competitive inhibitor binds, changes shape of enzyme so active site is no longer available for substrate to bind
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apoenzyme
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main part of enzyme; protein; inactive without co-factor
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co-factor
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-activator
-non protein portion of enzyme reaction - vitamin or mineral
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haloenzyme
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active enzyme with cofactor intact
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feedback inhibition
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end product for a pathway is also the inhibitor for the 1st enzyme in that pathway so that when product reaches necessary levels, pathway shuts down
-AKA negative feedback
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general requirements for microbial metabolism (3)
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-electron donor
-electron carrier
-electron acceptor
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aerobic respiration
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-most ATP production (38 total ATP for prokaryote)
-includes glycolysis, Krebs cycle AND electron transport chain
-O2 is final electron acceptor
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Glycolysis
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-glucose is oxidized - splits from a 6C chain to two 3C chains (pyruvic acid)
-oxidation of glucose releases energy -net 2 ATP produced (no O2 involved)
-NAD+ is reduced to NADH
-occurs in cytoplasm
-anaerobic
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electron donor
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fuel source
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electron carrier
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transports high energy e-
-organic molecules
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electron acceptor
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accept low energy e- after most of energy is used up
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glycolysis starts with
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1 glucose (donor)
2 NAD+ (carrier)
2 ATP (energy input)
4 ADP (to become ATP)
2 Phosphate
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glycolysis ends with
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2 pyruvic acid
2 NADH (carrier)
2 net ATP
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Krebs cycle starts with
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2 AcetylCoA
6 NAD+
2 FAD
2 ADP
2 Phosphate
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Krebs cycle ends with
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6 NADH
2 FADH2
2 ATP
4 CO2 (waste)
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krebs cycle in prokaryotes
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occurs in cytoplasm
-does not directly require O2, but is considered aerobic
-produces 2 ATP
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Electron transport chain in prokaryote
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occurs in cell membrane
-aerobic because O2 is final electron acceptor
-e- move along proteins in cell membrane causing H
Produces 34 ATP
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ATP Synthase
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creates ATP when H+ flows back into cell from higher gradient outside cell through oxidative phosphorylation
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prokaryotic ATP yield from 1 glucose
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38 ATP
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anaerobic respiration
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final electron acceptor is NOT O2
electron donor can be organic or inorganic
electron carriers are NAD, FAD, FMN
ATP production is variable
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Fermentation
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e- donor is organic molecule
e- carrier can be NAD, FAD, FMN
e- acceptor is organic (pyruvic acid) - as in glycolysis
ATP production is low
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if O2 availability is low, many organisms use what for ATP production?
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both aerobic respiration and fermentation
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pyruvic acid is a substrate for
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fermentation
Krebs cycle
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substrate level phosphorylation
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phosphate added to ADP to produce ATP
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oxidative phosphorylation
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electrons pass through electron transport chain and ATP is formed through proton pump/ATP synthase
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energy ranking
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glucose
pyruvate
acetylCoA
NADH
FADH2
ATP
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final electron acceptor
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gets rid of low energy e-
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common fermentation products
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lactic acid
ethanol
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NADH produces how many ATp
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3
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FADH2 produces how many ATP
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2
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chemiosmosis
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electron transport chain and oxidative phosphorylation
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binary fission
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-DNA is replicated (duplicated)
-cell wall and cell membrane begin to constrict (to create a septum which divides DNA into two parts)
-cell walls close and cells separate
-parent cell becomes two daughter cells
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bacterial growth is
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exponential
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Generation time is
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the amount of time it takes a population to double
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phases of bacterial growth
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-lag phase
-log phase
-stationary phase
-death phase
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lag phase
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growth is not measureable because the numbers are still too small
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log phase
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bacterial growth is exponential and measureable
bacteria are most metabolically active
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stationary phase
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cell death is equal to cell growth
nutrients and waste products are limiting factors
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death phase
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cell death is exponential and greater than cell growth
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single colony
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a discrete colony on a growth plate - all cells in colony are clones
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determine number of viable bacteria
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-only count living cells "viable cell count)
-requires that you can separate cells to get accurate count
-types -plate count AND filtration
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measuring cell count of both viable and dead cells
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-direct count
-turbidity (specrophotometer)
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direct count
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count cells under microscope
-allows us to see live VS dead cells
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plate count
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-stationary phase culture - see how many colonies grow
-dilute broth culture (serial dilution) so that you no longer get confluent growth and can count individual colonies
-when growing cells on a plate, must use a known volume of broth so that you can calculate now many bacteria are in the original volume
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serial dilution
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-allows for minimal broth to be used to dilute significantly rather than needing liters and liters of solution
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spread plate method
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-use known volume from dilution (usually 0.1 ml)
-use sterile glass rod to spread liquid on top of sterile media plate
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pour plate method
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-use known volume from dilution (usually 0.1 ml)
-mix dilution with warm agar
-pour agar into plate
-can make bacteria harder to see since they're embedded in agar
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filtration count method
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-bacteria get trapped on filter
-lay membrane on petrie dish to grow
-coliform bacteria turn red with indicator (shows fecal bacteria)
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turbidity count method
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use spectrophotometer to measure how much light gets through
-when calibrated through other counting methods, you can use scale of light to see how many cells are present (both alive and dead)
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physical conditions that affect bacterial growth
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temperature
pH
oxygen availability
osmotic pressure
moisture
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acidophile
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bacteria grow in pH under 5.4
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neutrophile
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bacteria grow in pH 5.4-8.5
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alkalinophile
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bacteria grow in pH over 8.5
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psychrophile
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-10 to 20 C; optimum 10 C
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psychrotroph
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0 to 30 C; optimum 20 C
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mesophile
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10 to 50 C; optimum 40 C
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thermophile
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40 to 70 C; optimum 60 C
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extreme thermophile
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70 to 110 C; optimum 95 C
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bacteriacidal
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kills bacteria
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bacteriastatic
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slows growth of bacteria dramatically, but does not kill them
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bacterial growth produces by-products that are
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acidic
-can kill bacteria - this is why we use a buffer in growth plates
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osmotic pressure
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produces plasmolysis (cell membrane shrinks away from cell wall when water leaves cell in hypertonic solution)
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halophile
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loves hypertonicity
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facultative halophile
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range: 0.85% to 15%
-can grow with hypertonicity)
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obligate halophile
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range: must have over 3%
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extreme halophile
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range: must be over 15% up to 20%
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halotolerant
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can grow up to 5% but not well
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non-halophile
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grows most abundantly at 0.85%
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osmotic pressure order of organism tolerance
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non-halophile
halotolerant
facultative halophile
obligate halophile
extreme halophile
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order of organism tolerance (temperatiures)
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psychrophile
psychrotroph
mesophile
thermophile
extreme thermophile
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which osmotic pressure is closest to the average biological cell?
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0.85%
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Obligate aerobe
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needs O2 to survive
-only on top of tube
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Obligate anaerobe
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needs no O2 to survive
-only on bottom of tube
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Facultative anaerobe
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prefers O2, but can adapt to grow without it
-grows anywhere, better on top
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microaerophile
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loves a LITTLE O2
-grows in a band about 1/3 way down the tube
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Aerotolerant anaerobes
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prefers no O2, but can tolerate growth with O2
-grows anywhere, but better on bottom
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to control food spoilage
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-heat food to kill microbes (canning)
-refridgerate food
-create hypertonic environment with salt or sugar
-limit air exposure
-use acid to limit microbe growth
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capnophile
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-anaerobic
-requires CO2 (found in gut and respiratory tract)
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create anaerobic environment in a lab by
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sealing a jar and using a gas pack or candle
-burns off O2 and replaces it with CO2
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chemical requirements for bacterial growth
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-carbon, nitrogen, sulfur, phosphorus
-trace elements and vitamins needed as cofactors
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unstable O2
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damages cell structures
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carbon in cell growth
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carbohydrates and proteins
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nitrogen in cell growth
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nucleic acids, proteins
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sulfur in cell growth
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proteins (disulfide bonds)
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phosphate in cell growth
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phospholipids (cell membranes); nucleic acids; ATP
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complex media
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-details of whats in it are not precise - but there are nutrients
-TSA (tryptic soy agar)
-BHI (beef heart infusion)
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chemically defined media
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nutrients are added in a precise way so you know exactly what nutrients the bacteria are getting
-Mueller-Hinton
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NaCl in cell growth
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osmotic balance (isotonic, hypertonic)
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buffer in cell growth
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-conjugate acid and base
-buffers acid waste product that bacteria creates as it grows so that it can keep growing and not poison itself with the acid
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agar in media
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makes it solid
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enriched media
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has nutrients added so that cells that have little growth otherwise will grow more abundantly
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Glucose in media
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provides energy
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NH4PO4 (ammonium phosphate)
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provides nitrogen (nucleic acids and proteins) and phosphate (phospholipids, nucleic acids and ATP)
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MgSO4 (magnesium sulfate)
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sulfur (amino acids)
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KH2PO4 and K2HPO4 (potassium phosphate salts)
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buffer (balance out acid waste from bacterial growth)
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selective media
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limits growth to a particular type of organism
-ex: Mannitol Salts Agar
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differential media
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has indicator that turns the agar OR bacteria different colors (based on pH)
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sterilization
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killing or removing all living organisms, including spores
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disinfection
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reducing number of harmful microbes to safe levels
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sanitization
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reducing number of harmful microbes to safe levels (less than disinfection)
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disinfectant
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product used to reduce number of harmful microbes to safe levels (on inanimate objects)
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antiseptic
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product used to reduce number of harmful microbes to safe levels (on living tissue)
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degerming
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removal but not necessarily killing microbes (on living tissue)
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asepsis
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absence of unwanted contamination
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sepsis
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bacterial contamination
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efficiency of antimicrobial agents depends on (5)
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-# of microbes initially present
-time of exposure to antimicrobial
-temperature
-organic matter (fat) blocks disinfectants
-biofilms
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physical methods of controling microbial growth (8)
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-moist heat
-dry heat
-pasteurization
-filtration
-low temperatures
-dessication
-osmotic pressure
-radiation
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moist heat
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-boiling
-autoclave
needs enough time for heat to penetrate entire object
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dry heat
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-energy intensive
-burns away living material
-good for glass/metal
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pasteurization
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-raise temp high enough to kill bacteria without changing taste of food
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filtering
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-filter traps microbes
-0.2 to 0.4 micrometers
-use with liquids that are heat unstable
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low temperature
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-bacteriostatic, NOT bacteriocidal
-fridge = 4C
-freezer = -20C
-ice crystals can damage cells, but not reliably kill
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dessication
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drying
-bacteriostatic NOT bacteriocidal
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lyophilization
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freeze-drying
-can be used to preserve yeast or probiotics
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osmotic pressure
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-high salt or sugar
-molds and yeasts are more resistant than bacteria
-used for food
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ionizing radiation
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-gamma rays or electrons
-mutates bacteria by breaking chemical bonds in DNA
-water is ionized to form free radicals
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non-ionizing radiation
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-UV radiation
-germicidal lights
-mutates DNA - Thymine dimers
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chemical control of microbes that target proteins (6)
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-acids/bases
-oxidizing agents
-halogens - chlorine (oxidize)
-heavy metals
-alkylating agents (donate methyl group)
-formaldehyde (cross link protein)
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chemical control of microbes that target cell membranes (2)
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-surfactants (break lipid bilayer)
-detergents (wash away microbes)
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physical methods that sterilize (3)
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-filtration
-moist heat
-radiation
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phenol
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1st disinfectant - dentaures protein
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phenolics
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-disrupt plasma membrane
-denature proteins/inactivate enzymes
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halogens
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chlorine
-alters amino acids chains and fatty acid chains
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alcohol
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-denatures protein
-disrupts lipid bilayer
-does not kill endospores
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heavy metals
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-denatures protein
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aldehydes
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cross link protein w covalent bonds
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gaseous chemosterilizers
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denatures protein
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oxidizing agents
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denatures protein by breaking disulfide bonds
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genetics
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science of heredity
-study of genes, how they carry information, how they're replicated and how they're expressed
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phenotype
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physical characteristics of an organism
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genotype
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genetic information (DNA that determines amino acid sequence)
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basic structure of DNA
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-sugar phosphate backbone
-sugar (deoxyribose) is 5-sided ring
-nitrogenous bases (ACGT)
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chromosomes
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contain DNA that carry information
-is supercoiled within cell
-bacteria have single circular chromosome
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gene
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segment of DNA that codes for a specific protein
-order of nucleotides in DNA determines order of amino acids in protein
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genetic code
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sequence of nucleotides
and set of rules about how the nucleotides are converted to proteins
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replication
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DNA to DNA
-occurs before cells can divide so that each daughter cell has DNA
-hydrogen bonds unzip; DNA polymerase reads single DNA strand and matches base paired nucleotides - hydrogen bonds these to original DNA strand; DNA polymerase creates covalent bonds between nucleotides creating Okazaki fragments; as DNA polymerase moves on to next nucleotide, the DNA ligase joins Okasaki fragments
-DNA strands formed are antiparallel (5' and 3' ends are opposite each other)
-old strand is read 3' to 5'; new strand grows 5' to 3'
-leading strand is copied continuously because it grows in the right direction; lagging strand is copied in fragments opposite the direction that it unzips (Okasaki fragments) which then get joined through DNA ligase
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transcription
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DNA to RNA
-DNA strands separate; RNA polymerase begins at promoter (intitiation site/instructions); RNA polymerase pulls appropriate RNA nucleotides to hydrogen bond with DNA nucleotides and then covalently bonds them together; RNA peels away so DNA base pairs can link up again; termination happens at terminator codon
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translation
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RNA to protein (protein synthesis)
-ribosome sits down on mRNA; two codons within ribosome (in P site and A site); tRNA bind to each codon; ribosime forms peptide bonds between the amino acids linked to each tRNA; first tRNA is released and ribosome moves to next codon; repeat; stop at stop codon - DNA and mRNA separate
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DNA base pairing
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A pairs with T
C pairs with G
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DNA to RNA base pairing
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A(DNA) pairs with U(RNA)
T(DNA) pairs with A(RNA)
C pairs with G
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how are base pairs held together
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hydrogen bonds
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semiconservative replication
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new double stranded DNA has one old and one new strand of DNA
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Okasaki fragment
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segment of DNA on lagging strand of DNA in replication - joined later by DNA ligase
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codon
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set of 3 nucleotides that code for a specific amino acid
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3' end
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OH group end
-this is the end where nucleotides can be added
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5' end
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phosphate end
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antiparallel strands of DNA
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two strands are complimentary based paired in opposite directions
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leading strand in DNA replication
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DNA is copied continuously reading from 3' end towards 5' end (copy is growing 5' to 3')
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lagging strand in DNA replication
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must be copied opposite from direction that DNA is unzipping
-DNA polymerase is copied in segments (called Okasaki fragments)
-DNA ligase connects fragments
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DNA polymerase
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adds new bases to chain
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DNA ligase
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links Okasaki fragments on lagging strand
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RNA polymerase
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sets down primer before DNA polymerase can begin copying; on lagging strand this must happen before EACH Okasaki fragment
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central dogma (flow of genetic information) (3)
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-recombination - genetic information can be transferred between cells of same generation
-expression - genetic infortmation is used to produce proteins
-replication - genetic information is duplicated and cells split from parent to daughter
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AUG
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start codon codes for Methionine
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3 types of RNA
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mRNA (messenger)
tRNA (transfer)
rRNA (ribosomal)
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mRNA
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codes for protein
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tRNA
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carries amino acids to ribosome
connects amino acid to codon
stem and loop structure - stem=short stretches of base pairing within tRNA; loop=short stretches of nucleotides that are not paired
has anticodon - complimentary 3 nucleotide sequence that matching with codon
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anticodon
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complimentary 3 nucleotide sequence that matching with codon
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rRNA
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structural part of ribosome
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