final

Question 1

archaea characteristics

Answer 1

prokaryote cell structure
no disease causing species
can have monolayer
ether linked lipids
has ring structures

Question 2

transmission electron microscope

Answer 2

scans cellular structures in side the cell

Question 3

scanning electron microscope

Answer 3

scans the surface of cellular structures

Question 4

three forms of transport across a membrane

Answer 4

simple transport
group transport
ABC transport

Question 5

simple transport

Answer 5

have an integral membrane protein allowing diffusion through membrane

Question 6

group transport

Answer 6

substance is chemically modified
ATP drives transport (usually)

Question 7

ABC transport

Answer 7

-ATP has a binding site
-ATP drives uptake of substance
binding proteins guides substance into transporter protein into cell

Question 8

gram negative

Answer 8

membrane + cell wall + membrane

Question 9

gram postive

Answer 9

membrane + thick cell wall

Question 10

hami

Answer 10

grappling hook pili
assists in surface attachment

Question 11

cell inclusions

Answer 11

-Carbon Polyphosphate, Sulfur, and Carbonate Minerals Storage Polymers
-Gas Vesicles

-overall reduces osmotic stress
-prokaryotic only

Question 12

endospore formation steps

Answer 12

activation, germination, outgrowth

Question 13

endospore characteristics

Answer 13

dormant cells resistant to heat, radiation, chemicals, drying and lack of nutrients

Found ONLY in gram positive bacteria

Question 14

archella

Answer 14

-smaller than flagella
-related more to pili than flagella
-uses atp to move
-moves slower than flagella

Question 15

flagella structure

Answer 15

-rigid and helical
-reversible rotating machine
-uses proton diffusion to rotate flagella
-filament (tail)
-hook (connects tail to motor)
-basal body (motor)

Question 16

surface motility

Answer 16

slower than swimming
requires type 4 pili
movement occurs away from colony

Question 17

steps for surface motility

Answer 17

-extend from one cell pole
-attachment of pili to surface
-retraction of pili pulling cell towards grasping spot

Question 18

gliding motility

Answer 18

-has helical intracellular protein track with adhesion proteins that allows for smooth motion across surface

Question 19

chemoorganotrophs

Answer 19

gets energy from organic material

Question 20

chemolithotrophs

Answer 20

gets energy from inorganic material

Question 21

heterotrophs

Answer 21

gets carbon from organic materials

Question 22

autotrophs

Answer 22

gets carbon from CO2

Question 23

Substrate-level phosphorylation

Answer 23

substrate bond used
directly to drive ATP formation

Question 24

Oxidative phosphorylation

Answer 24

electrons creates pmf used to make ATP

Question 25

Photophosphorylation

Answer 25

light used to form proton motive force

Question 26

two main stages of glycolysis

Answer 26

1-prep phase-forms key intermediate
2-redox phase- energy conserved w pyruvate

Question 27

Defined media

Answer 27

exact chemical composition known

Question 28

Complex media

Answer 28

composed of digests of microbial,
animal, or plant products

Question 29

Selective medium

Answer 29

contains compounds that selectively
inhibit the growth of some microbes but not others

Question 30

Differential medium

Answer 30

contains an indicator, usually a dye,
that detects particular metabolic reactions during growth

Question 31

growth curve

Answer 31

-lag phase
-exponential phase
-stationary phase
-death phase

Question 32

Sessile growth

Answer 32

growth attached to surface

Question 33

Planktonic growth

Answer 33

growth in suspension of medium

Question 34

stages of biofilm

Answer 34

attachment
colonization
development
dispersal

Question 35

spread plate method

Answer 35

pipette desired microbes on top of agar plate

Question 36

pour plate method

Answer 36

pipette desired microbes
then pour agar on top of microbes

Question 37

Psychrophile

Answer 37

low, found in cold environments

Question 38

Mesophile

Answer 38

midrange temperatures

Question 39

Thermophile

Answer 39

found in high temperatures

Question 40

Hyperthermophile

Answer 40

found in extremely high temperatures

Question 41

Decontamination

Answer 41

The treatment of an object to make it safe to handle

Question 42

Disinfection

Answer 42

kills and Directly targets pathogens, not necessarily all
microorganisms

Question 43

Sterilization

Answer 43

The killing or removal of all living organisms and viruses

Question 44

static

Answer 44

stops growth, eventually resuming growth

Question 45

lytic

Answer 45

kills and destroys microbes

Question 46

cidal

Answer 46

kills microbes, doesnt destroy them

Question 47

DNA pol Family A

Answer 47

-DNA repair and Okazaki fragment maturation
-exonuclease activity

Question 48

DNA pol Family B

Answer 48

-Main polymerase in eukaryotes
-exonuclease activity

Question 49

DNA pol Family C

Answer 49

-Main polymerase in bacteria
-exonuclease activity

Question 50

DNA pol Family X

Answer 50

-monomeric
-fills gaps for DNA repair

Question 51

DNA pol Family Y

Answer 51

-low fidelity, translesion synthesis
-no exonuclease activity

Question 52

translocation systems

Answer 52

sec and tat system

Question 53

two component regulatory system components

Answer 53

Sensor kinase
Response regulator

Question 54

how does the 2 component regulatory system terminate the responce?

Answer 54

A phosphatase removes phosphate from the response regulator

Question 55

sensor kinase

Answer 55

-detects environmental signals and autophosphorylates at
specific histidine residue
-integral to cell membrane

Question 56

response regulator

Answer 56

-DNA-binding protein that regulates transcription
-receives phosphate from sensor kinase
-in cytoplasm

Question 57

what is this picture depicting?

Answer 57

-This picture shows the 2 component regulatory system
-the sensor kinase gives its phosphate to the response regulator which then blocks transcription of certain genes

Question 58

Methyl-accepting chemotaxis proteins (MCPs)

Answer 58

proteins that sense attractants and repellents and interact with cytoplasmic sensor kinases

Question 59

2 component regulatory system and flagella

Answer 59

counterclockwise-run
clockwise-tumble

-When MCPs bind repellent or release
attractant, a kinase is phosphorylated
interacts with flagellar motor to induce clockwise rotation and tumbling

-When MCPs bind attractant or release repellent, a kinase is unphosphorylated and not bound to the flagellar motor, resulting in
counterclockwise rotation and running

Question 60

Acyl homoserine lactone (AHL)

Answer 60

autoinducer
gram negative only

Question 61

autoinducer

Answer 61

-molecule that indicates to a cell that other cells are nearby
-moves freely about membranes of cells
-reaches high concentrations in a cell when around other cells
-binds to sensor kinases which activates specific genes

Question 62

Quorum sensing

Answer 62

regulatory mechanism by which
Bacteria and Archaea
assess their population density near themselves

Question 63

heat shock responce

Answer 63

global control mechanism to
protect cells from protein denaturation resulting from heat, high solvent levels, osmotic stress, UV light

Question 64

heat shock proteins

Answer 64

proteins that counteract damage of denatured
proteins and help cell recover from stress

Question 65

Global control systems

Answer 65

regulate transcription of many
different genes in more than one regulon

Question 66

Enzyme repression

Answer 66

preventing the synthesis of an
enzyme unless the product is absent from culture
medium; excess of product decreases enzyme synthesis

Question 67

Chaperones

Answer 67

catalyze macromolecular folding events

Question 68

Open reading frame

Answer 68

AUG followed by a number of
codons and a stop codon

Question 69

lac operon regulatory controls

Answer 69

negative control: lactose must be present to remove the repressor
positive control: cAMP must be present in high quantities to allow the activator to bind

Question 70

endospore sporulation

Answer 70

-When Spo0A highly phosphorylated, sporulation
proceeds
-5 sensor kinases monitor envionrment
-turns into spore

Question 71

endospore germination

Answer 71

germination receptors monitor environment

Question 72

attachment of biofilm

Answer 72

-Random collision accounts for the initial attachment
-Facilitated by flagella and pili or by cell surface proteins
-Attachment is a signal for expression of biofilm-specific genes
-Once committed to biofilm formation, the cell loses flagella and becomes nonmotile

Question 73

biofilm formation steps

Answer 73

Attachment, colonization, development,
and dispersal

Question 74

Activation of endospore steps

Answer 74

-release of DPA
-rehydration of core
-transcription and translation increase

Question 75

Germination of endospore steps

Answer 75

-removal of the cortex is a
major event
-full rehydration of core
-metabolically active

Question 76

Outgrowth of endospore steps

Answer 76

-elongates allowing escape of spore from mother cell
-fully metabolically active

Question 77

heterocyst

Answer 77

-dedicated cells to nitrogen fixation
-anoxic

Question 78

heterocyst formation

Answer 78

-inactivation of photosystem
-grows thickened cell wall to prevent 02 diffusion
-expresses nitrogenase
-triggered by limited amount of fixed nitrogen

Question 79

Pseudomonas aeruginosa biofilm

Answer 79

biofilm forms in high concentration of the same species

Question 80

Vibrio cholerae biofilm

Answer 80

biofilm forms in low concentration of the same species

Question 81

efflux pump

Answer 81

-transport molecules, including antibiotics, out of the cell
-lowers intracellular concentration allowing cell to survive at higher external cellular concentrations

Question 82

Auxotroph

Answer 82

has an additional nutritional
requirement for growth compared to prototroph

Question 83

prototroph

Answer 83

wild type bacteria, no additional requirement for life

Question 84

Replica plating

Answer 84

-screens for nutritionally defective mutants

-transfers colonies from main plate
-if colony is unable to grow on medium
lacking a nutrient indicates mutation

Question 85

Transduction

Answer 85

Transfer of DNA from one cell to another by a
bacteriophage

Question 86

Transformation

Answer 86

Genetic transfer process by which free DNA is
incorporated into a recipient cell and brings about genetic
change

Question 87

Specialized transduction

Answer 87

DNA from a specific region of
the host chromosome is integrated directly into the virus
genome, typically replacing some viral genes

Question 88

Gene Transfer Agents (GTAs)

Answer 88

Defective bacteriophages that transfer DNA between prokaryotic cells

Question 89

Conjugation

Answer 89

Horizontal gene transfer that
requires cell-to-cell contact

Question 90

archaeal chromosome

Answer 90

usualy only have 1 circular chromosome

Question 91

Heterologous expression

Answer 91

Expressing a gene in a
different host

Question 92

Thermocycler

Answer 92

automated PCR machine

Question 93

Cristae

Answer 93

folded internal membranes

Question 94

matrix

Answer 94

-innermost area of mitochondrion
-Contains citric acid enzyme

Question 95

Thylakoids

Answer 95

-flattened membrane discs contain
-chlorophyll and ATP synthetic components,
-forms pmf

Question 96

symbiogenesis endosymbiosis

Answer 96

mitochondria was integrated before nucleus formation in eukarya chloroplasts were integrated after

Question 97

Hydrogen hypothesis

Answer 97

Eukaryotic cells arose from an H2-
producing bacterium and an H2- consuming Archaea

Question 98

Orthologs

Answer 98

Homologus genes sharing the same
function

Question 99

Paralogs

Answer 99

A single ancestral gene diverges to many
different functions in many different organisms

Question 100

Gene conversion

Answer 100

-homologous recombination results in
replacement of recipient copy with donor copy

Question 101

Systematics

Answer 101

Study of diversity of organisms
and relationships, links phylogeny with taxonomy

Question 102

Phenotypic analysis

Answer 102

morphological, metabolic, physiological,
chemical characteristics analysis

Question 103

genotypic analysis

Answer 103

genome analysis

Question 104

phylogenetic analysis

Answer 104

evolutionary analysis

Question 105

Fermentation

Answer 105

-ATP generated primarily by substrate-level
phosphorylation
-Does not require an external electron acceptor
-Electron balance obtained by reducing metabolic
intermediates excreted as fermentation products

Question 106

Respiration

Answer 106

-Requires an external electron acceptor
-ATP generated by oxidative phosphorylation
-ATP synthase harnesses pmf to make ATP
-Chemolithotrophs use inorganic electron donors for
respiration

Question 107

Assimilative

Answer 107

processes incorporate inorganic nutrients
into cells

Question 108

dissimilative

Answer 108

processes conserve energy

Question 109

Mixotrophs

Answer 109

heterotroph and autotroph

Question 110

pathways of c02 fixation

Answer 110

4

Question 111

Primary fermentation

Answer 111

ferment carbohydrate, protein, fat polymers and monomers
to reduced products, CO2, H2

Question 112

secondary fermentation

Answer 112

ferment fatty acids to produce co2 h2

Question 113

Syntrophy

Answer 113

Two different microbes cooperate to perform
a reaction neither can do alone

Question 114

Gene loss

Answer 114

A trait is present in a common ancestor is
lost during divergence over time

Question 115

Convergent evolution

Answer 115

A trait has evolved
independently in two or more lineages and is not
encoded by homologous genes

Question 116

Horizontal gene transfer

Answer 116

-Genes that code for a trait
are homologous and have been exchanged between
distantly related lineages

Question 117

PS1

Answer 117

fe in center
can do photosynthesis alone

Question 118

PS2

Answer 118

quinone in center
cant do photosynthesis alone
reduced h from h20 to create pmf

Question 119

Lysogenic infection

Answer 119

host cell genetically altered because viral genome
becomes part of host genome

Question 120

Virulent (lytic) infection

Answer 120

replicates and destroys host

Question 121

Capsid

Answer 121

protein shell that surrounds
the genome of a virus

Question 122

Nucleocapsid

Answer 122

nucleic acid + capsid

Question 123

Naked viruses

Answer 123

have no other layer

Question 124

Enveloped viruses

Answer 124

-have an outer layer
consisting of a phospholipid bilayer
(from host cell membrane) and
viral proteins

Question 125

Capsomere

Answer 125

-individual protein
molecules arranged in a
precise and highly repetitive
pattern around the nucleic
acid making up the capsid

Question 126

complex virus

Answer 126

head and tail virus

Question 127

helical virus

Answer 127

rod shaped virus

Question 128

Icosahedral virus

Answer 128

spherical/hexagonal

Question 129

Lysozyme

Answer 129

makes hole in cell wall to allow nucleic
acid entry, lyses bacterial cell to release new virions

Question 130

Neuraminidases

Answer 130

destroy glycoproteins and
glycolipids, allow liberation of viruses from cell

Question 131

5 steps of viral replication

Answer 131

-Attachment
-Penetration
-Synthesis of virus
-Assembly of virus
-Release

Question 132

prokaryotic entry of a virus

Answer 132

nucleic acid entry

Question 133

eukaryotic entry of a virus

Answer 133

entire virus enters

Question 134

Vector

Answer 134

agent that carries and transmits an pathogen

Question 135

Infection

Answer 135

Situation in which a microorganism is established and
growing in a host, whether or not the host is harmed

Question 136

Disease

Answer 136

Actual tissue damage or injury that impairs host function

Question 137

Pathogens

Answer 137

Microbial parasites that cause disease or tissue damage in a
host

Question 138

Pathogenicity

Answer 138

The ability of a parasite to inflict damage on the host

Question 139

Partner Choice hypothesis

Answer 139

plants use prenodulation signals from rhizobia
to determine whether to allow
nodulation

Question 140

Sanctions hypothesis

Answer 140

legumes cannot
recognize more parasitic or less N-fixing
rhizobia, have to counter parasitism
through post-infection legume sanctions

Question 141

Primary symbionts

Answer 141

required for the host to
reproduce

Question 142

secondary symbionts

Answer 142

not required for host reproduction