TEST 2 Flashcards

Question 1

Q

decontamination

Answer

A

treatment of object to make safe to handle

Question 2

Q

disinfection

Answer

A

targets death of pathogens not all microbes or endospores

Question 3

Q

sterilization

Answer

A

kills all microbes and viruses

Question 4

Q

heat sterilization

Answer

A

wet heat better than dry heat

Question 5

Q

pastuerization

Answer

A

-uses heat to reduce microbial load but not all microbes
-kills pathogens

Question 6

Q

UV sterilization

Answer

A

used to sterilize food surgical tools lab equipment

Question 7

Q

D10 value

Answer

A

ionizing radiation needed to reduce bacteria 10 fold

Question 8

Q

filter sterilization

Answer

A

-used on heat sensitve liquids and gases
-pores are to small for microbes to go through

Question 9

Q

membrane filters

Answer

A

common for liquids

Question 10

Q

nucleopore filters

Answer

A

thin irradiated film used to visualize microbes for electron microscopy

Question 11

Q

-cidal

Answer

A

kills microbes

Question 12

Q

-static

Answer

A

stops growth of microbes

Question 13

Q

sanitizers

Answer

A

reduce microbial number but doesnt sterilize

Question 14

Q

antiseptic

Answer

A

kills/inhibits growth of microbes nontoxic to living tissue

Question 15

Q

purines

Answer

A

G A 2 ringed

Question 16

Q

pyrimidines

Answer

A

T C 1 ring

Question 17

Q

GC bond

Answer

A

3 h bonds

Question 18

Q

TA bond

Answer

A

2 h bonds

Question 19

Q

-lytic

Answer

A

lyses all cells destroying even dead cells

Question 20

Q

negative supercoiling

Answer

A

coils increase becoming tightly wound

Question 21

Q

positive supercoiling

Answer

A

coils decrease becoming loosely wound

Question 22

Q

topoisomerase

Answer

A

inserts and removes supercoiles

Question 23

Q

DNA gyrase

Answer

A

introduces supercoils via double strand breaks

Question 24

Q

3 rnas and functions

Answer

A

mRNA- carries info of DNA gene to ribosome

tRNA-brings amino acid to mRNA converting it into amino acid sequence

rRNA-ribosomal rna, ribosome component

Question 25

Q

3 stages of biologic information flow

Answer

A

replication
transcription
translation

Question 26

Q

eukaryotic transcription

Answer

A

1 gene to 1 mRNA
mRNA exported to cytosol

Question 27

Q

prokaryotic transcription

Answer

A

several genes to 1 mRNA
transcription and translation in cytosol

Question 28

Q

plasmids

Answer

A

circular and double stranded

Question 29

Q

transposable elements

Answer

A

-segments of DNA inserted into other DNA molecules
-moves site to site

Question 30

Q

R plasmids

Answer

A

grants antibiotic resistance to bacteria

Question 31

Q

bacteriocins

Answer

A

proteins killing closely related species of same species
can be encoded by plasmids

Question 32

Q

rhizobia

Answer

A

plasmid encoded function is to fix nitrogen

Question 33

Q

semiconservative dna replication

Answer

A

2 of the 4 DNA strands in the new cells are the DNA strands from the original cell

Question 34

Q

DNA pol Family A

Answer

A

-DNA repair and Okazaki fragment maturation
-exonuclease activity

Question 35

Q

DNA pol Family B

Answer

A

-Main polymerase in eukaryotes
-exonuclease activity

Question 36

Q

DNA pol Family C

Answer

A

-Main polymerase in bacteria
-exonuclease activity

Question 37

Q

DNA pol Family X

Answer

A

-monomeric
-fills gaps for DNA repair

Question 38

Q

DNA pol Family Y

Answer

A

-low fidelity, translesion synthesis
-no exonuclease activity

Question 39

Q

DNA pol Family RT

Answer

A

-reverse transcriptase
-uses RNA to make DNA to produce more RNAs

Question 40

Q

Archaeal DNA polymerases

Answer

A

Family B&D
PolB3 present in all archaea
PolB1/2 in some archaea

Question 41

Q

virus DNA polmerases

Answer

A

-DNA viruses utilize host DNA polymerase for proliferation

Question 42

Q

DNA helicase

Answer

A

unwinds DNA for replication

Question 43

Q

Prokaryote vs Eukaryote origin of replication

Answer

A

-prokaryotes-have one origin of replication on circular chromosome
-eukaryotes- have multiple origins of replications on 1 linear chromosome out of all of the linear chromosomes

Question 44

Q

DNA ligase

Answer

A

seals the nicks in the DNA backbone after primers have been removed and filled with DNA

Question 45

Q

leading strand

Answer

A

continuous
5>3 strand synthesis
1 primer

Question 46

Q

lagging strand

Answer

A

discontinuous
5>3 strand synthesis
multiple primers

Question 47

Q

replisome

Answer

A

large replication complex of proteins

Question 48

Q

DNA vs RNA

Answer

A

-DNA-
deoxyribose-2’ H bond
thymine
-RNA-
ribose-2’ OH bond
uracil

Question 49

Q

primosome

Answer

A

helicase and primase subcomplex within the replisome

Question 50

Q

holoenzyme

Answer

A

RNA polymerase complex of 5 proteins

Question 51

Q

sigma factor

Answer

A

recognizes promoter sequences on DNA

Question 52

Q

pribnow box

Answer

A

TATA
promoter sequence

Question 53

Q

number of Eukaryotic RNA polymerases

Question 54

Q

number of archaeal RNA polymerases

Question 55

Q

B recognition element

Answer

A

-BRE for short
-upstream of TATA box
-the binding of the transcription factor to the BRE allows for initation of RNA transcription

Question 56

Q

termination method

Answer

A

inverted repeats of TA, creates loops of RNA that fall off of DNA strand

Question 57

Q

exons

Answer

A

gene coding element of RNA

Question 58

Q

introns

Answer

A

nongene coding element of RNA

Question 59

Q

splicing

Answer

A

removal of introns
in eukaryotes this happens in nucleus

Question 60

Q

capping

Answer

A

-addition of methylated guanosine to end of mRNA, other end will start translation
-needed for translation

Question 61

Q

3 protein functions

Answer

A

-catalysts-enzymes
-structure-integral membrane proteins
-regulatory-DNA binding

Question 62

Q

peptide bond

Answer

A

carboxylic acid bonded to nitrogen

Question 63

Q

degenerate code

Answer

A

64 codons to 20 amino acids

Question 64

Q

shine-delgaro sequence

Answer

A

ensures proper reading frame in bacteria and archaea

Answer 63

A

start codon- AUG
followed by a number of codons then the stop codon

Answer 64

A

-has 30s and 50s subunits to from 70s subunits
-needs GTP

Answer 65

A

catalyze molecular folding of proteins
found in all domains

Answer 66

A

attempts to refold partially denatured proteins for reuse before proteases destroy them

Answer 67

A

prevent secondary structure formation in RNA or refold cold-sensitive proteins

Answer 68

A

transport proteins into or through bacterial & archaeal membranes

Answer 69

A

sec and tat system

Answer 70

A

unfolded proteins to be exported are recognized by
-SecA (periplasmic)
-signal recognition particle (SRP;
for membrane-inserted proteins

Answer 71

A

TatBC recognizes signal sequence, carries folded protein to TatA
membrane transporter

Answer 72

A

binds to major groove
homodimeric

Answer 73

A

helix turn helix

Answer 74

A

DNA-protein binding technique utilizing a zinc ion

Answer 75

A

DNA-protein binding technique
-Contains regularly spaced leucine residues
-Hold two recognition helices in the correct orientation to bind DNA

Answer 76

A

Proteins that control the rate of transcription by binding to specific DNA

Answer 77

A

turns on transcription

Answer 78

A

turns off transcription

Answer 79

A

Conformation altered when effector
molecule binds

Answer 80

A

Small molecules that control binding of activators and repressors

Answer 81

A

turn on transcription

Answer 82

A

turns of transcription

Answer 83

A

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

Answer 84

A

used as positive and negative control

Answer 85

A

Sensor kinase
Response regulator

Answer 86

A

A phosphatase removes phosphate from the response regulator

Answer 87

A

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

Answer 88

A

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

Answer 89

A

-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

Answer 90

A

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

Answer 91

A

clusters of thousands of MCPs

Answer 92

A

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

Answer 93

A

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

Answer 94

A

-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

Answer 95

A

autoinducer
gram negative only

Answer 96

A

short peptides

Answer 97

A

regulates transcription of many
different genes in more than one regulon

Answer 98

A

when in absense of glucose, this operon activates its genes to be able to use lactose as main energy source

Answer 99

A

-two separate growth phases of bacteria
-once better energy source is expended a different energy source is utilized

Answer 100

A

-lactose must be present to stop lac repressor from being present (negative control)
-cAMP must be present to bind to lac operon to activate (positive control)

Answer 101

A

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

Answer 102

A

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

Answer 103

A

RNA that does not code for a gene
rRNAs, sRNA, tRNA

Answer 104

A

regulates gene expression

Answer 105

A

1) decrease expression of mRNA
2)decrease mRNA degradation
4)increase mRNA stability through not letting it express
4)open up a ribosome binding site

Answer 106

A

RNA that acts as a catalyst

Answer 107

A

RNA that regulates gene expression

Answer 108

A

-binds to RNA
-controls at transcription or translation
-changes secondary structure of RNA which can control if its translated or not
- remove stem-loop that terminates
transcription, increasing mRNA and protein levels

Answer 109

A

-riboswitch control region
-recognition domain that
binds small molecules

Answer 110

A

mechanism for temporarily turning off the reactions in a biosynthetic pathway
End product of the pathway binds to an early enzyme in the pathway, thus shutting down the pathway because no intermediates are generated

Answer 111

A

once levels of end product are limiting, pathway functions

Answer 112

A

active sites, allosteric protein site for feedback inhibition

Answer 113

A

different proteins that catalyze
feedback inhibition but are subject to different
regulators

Answer 114

A

phosphoylation, methylation, covalent modification (AMP,ADP)

Answer 115

A

-found in Bacteria & Archaea
-epigenetic attachments affect activity
-regulates nitrogen metabolism TFs, enzymes, and transport proteins

Answer 116

A

factors can inactivate sigma factors

Answer 117

A

-Super-resolution microscopy
-Observes dynamic behaviors in real-time

Answer 118

A

-Reporter genes encode proteins that are easy to detect or
assay and fused to genes of interest
-Green fluorescent protein used

Answer 119

A

maps the movement of individual molecules

Answer 120

A

-only parental strand of DNA is methylated
-methylation allows for a protein to bind to the origin of replication to block DNA synthesis through binding of DNA initiating proteins

Answer 121

A

partitions the correct amount of DNA strands into two separate daughter cells

Answer 122

A

centromere like sequence near oriC

Answer 123

A

binds the Par complex to the DNA

Answer 124

A

localized to old pole of DNA
anchors the DNA to one spot

Answer 125

A

separation of
replicated sister chromosomes

Answer 126

A

begins with preexsisting peptidoglycan
-rod shaped-
synthesis begins at several points along cell wall
-coccus-
cell walls grow in opposite directions outward
from the FtsZ ring

Answer 127

A

has a major role in precursor
insertion of peptidoglycan synthesis

Answer 128

A

Attachment, colonization, development,
and dispersal

Answer 129

A

-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

Answer 130

A

Signals guide bacteria in transitioning from planktonic growth to life in a semisolid matrix
-Switch to biofilm growth triggered by accumulation c-di-GMP

Answer 131

A

-Widely distributed only in Bacteria
-c-di-GMP removes cell surface proteins like flagella and pili
-initiates synthesis of peptidoglycan

Answer 132

A

-Inhibition of protein synthesis
-Many antibiotics target DNA replication, RNA synthesis, and translation
-peptidoglycan synthesis

(targets DNA gyrase and topoisomerase to prevent DNA unwinding)
(targets RNA synthesis by blocking RNA polymerase active site or RNA elongation)
(can bind to ribosomal binding site to prevent translation)
(can bind to ribosomal subunit leading to error filled proteins)

Answer 133

A

-triggered by damaging external events
-monitors external environment through 5 sensory kinases (resembles 2 component regulatory system)
-initates when Spo0A gets phosphorylated a lot

Answer 134

A

-toxic protein that lyses other cells for nutrients
-protein that delays sporulation in other cells
-antitoxin protein to protect themselves from other sporulating cells

Answer 135

A

activation, germination,
outgrowth

Answer 136

A

-within the inner membrane surrounding the endospore core exsists these receptors
-senses and binds nutrients

Answer 137

A

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

Answer 138

A

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

Answer 139

A

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

Answer 140

A

-dedicated cells to nitrogen fixation
-anoxic

Answer 141

A

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

Answer 142

A

-quorum sensing through acyl homoserine lactones in large amounts needed to begin colony growth

Answer 143

A

-quorum sensing opposite of pseudomonas aeruginosa
-must be in low population density area to establish colony

Answer 144

A

-horizontal gene transfer through plasmids
-chromosomal mutations

Answer 145

A

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

Answer 146

A

gives advantage
(ex antibiotic resistance)
requires screening to find the genes

Answer 147

A

has an additional nutritional
requirement for growth compared to prototroph

Answer 148

A

wild type bacteria, no additional requirement for life

Answer 149

A

isolation of several strains
followed by comparative genetic analyses

Answer 150

A

-screens for nutritionally defective mutants

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

Answer 151

A

-Occur without external intervention
-most result from occasional errors by DNA
polymerase during replication

Answer 152

A

-Caused environmentally or deliberately
-Can result from exposure to natural radiation or chemicals that chemically modify DNA

Answer 153

A

-Change only one base pair
-Occurs via single base-pair substitution
-Phenotypic change depends on the exact location of the mutation

Answer 154

A

do not affect the sequence of encoded polypeptide or phenotype

Answer 155

A

changes the sequence of amino acids in
polypeptide

Answer 156

A

mutates a stop codon into the amino acid chain

Answer 157

A

-base pair substitution switches it with another base pair of its own kind
-purine to purine
-pyrimidine to pyrimidine

Answer 158

A

-base pair substiution switches it with a base pair of a different kind
-purine to pyrimidine & vice versa

Answer 159

A

single base pair deletions
or insertions that result in a shift in the reading
frame

Answer 160

A

-changes entire polypeptide sequence downstream
-can gain/lose thousands of codons
-can be lethal

Answer 161

A

chemical, physical, or biological agents that
increase mutation rates, induce mutations

Answer 162

A

-resemble nucleotide bases
but have faulty base pairing

Answer 163

A

intercacalating agents
alkylating agents

Answer 164

A

-base pairs absorb UV
-forms pyrimidine dimers
-UV kills cells due to its effects on DNA

Answer 165

A

-more powerful than nonionizing (UV)
-creates free radicals which are damaging
-creates double/single stranded breaks in DNA backbone

Answer 166

A

-Initiates many DNA repair processes
-Also allows DNA repair to occur without a template (translesion synthesis; high error rate)
-E Coli’s SOS system controls ~40 genes

Answer 167

A

Transformation, transduction,
conjugation

Answer 168

A

-A process that results in genetic exchange between homologous DNA from two different sources

Answer 169

A

-uptake of the genetic info as separate from host genome
-degredation of genetic info
-integrated into host genome

Answer 170

A

-nicks one strand of the donor molecule for crossing over of genetic info

Answer 171

A

-single-stranded DNA molecule pairs with and displaces a similar or complementary strand in a double-stranded DNA molecule
-occurs in genetic recombination

Answer 172

A

-double-stranded DNA molecule formed by the base pairing of two complementary single-stranded DNAs from different chromosomal sources

-can differ slightly in sequence, leading to mismatches within the heteroduplex

-observed during genetic recombination

Answer 173

A

-strain carries two copies of a chromosomal segment

-(usually one copy on the chromosome, other on plasmid or phage)

Answer 174

A

-occurs if a functional wild-type copy is
supplied on a plasmid or bacteriophage, restoring wild-type phenotype

Answer 175

A

-Genetic transfer process where
DNA is incorporated into a recipient cell and brings about genetic change

Answer 176

A

-a cell that can take up DNA and be
transformed; genetically determined
-this is regulated

Answer 177

A

-proteins within pilus recognize
and bind extracellular DNA, pilus retraction pulls DNA in

Answer 178

A

-pili or secretion system binds DNA and bring it in

Answer 179

A

genetic element that can multiply
only in a living (host) cell

Answer 180

A

Needs host cell for energy, metabolic
intermediates, protein synthesis

Answer 181

A

singluar virus outside of a cell

Answer 182

A

head & tail pilus

Answer 183

A

-requires complementary receptor
(proteins, carbs, other cell structures)

Answer 184

A

-relative ability of a pathogen to cause
disease

Answer 185

A

-toxic/destructive substances produced by the pathogen
-enhances invasiveness

Answer 186

A

transfer of DNA from one cell to another by a
bacteriophage

Answer 187

A

-DNA from any portion of the
host genome is packaged inside the virion
-Donor genes cannot replicate independently
-Will be lost without recombination

Answer 188

A

-DNA from host genome is integrated directly into the virus genome
-typically replacing some viral genes

Answer 189

A

all of them

Answer 190

A

-host DNA packaged into a phage produces this
-makes the DNA defective, wont be able to lead to viral lytic infection
-can be transduced into host cells genoome

Answer 191

A

-Defective bacteriophages that transfer DNA between prokaryotic cells

Answer 192

A

-Horizontal gene transfer that
requires cell-to-cell contact

Answer 193

A

contains conjugative plasmid

Answer 194

A

does not contain plasmid

Answer 195

A

-Contains genes that regulate DNA replication
-contains transposable elements that allows plasmid to integrate into the host chromosome
-contains tra gene that encode transfering functions

Answer 196

A

-starts w/cell to cell contact
-tra gene nicks plasmid
-plasmid is transferred and replicated in both cells
-takes place in favorable conditions

Answer 197

A

-segments of DNA that move from one location to another in other DNA molecules
(TRANSPOSABLE ELEMENTS)
-utilizes inverse repeats for easy movement

Answer 198

A

enzyme required for transposition

Answer 199

A

-simplest transposable element
-1000bp
-10-50 inverted repeats
-only gene codes for transposase

Answer 200

A

-genes vary widely on transposons
-transposase recognizes inverted repeats and moves the transposon
-can create mutant

Answer 201

A

-recognizes cuts and ligates DNA

Answer 202

A

-Transposon is excised from one
location and reinserted at a second location
-no duplicates of transposon made

Answer 203

A

-A new copy of the transposon is
produced and inserted at a second location
-2 transposons are present, one at old and new spot

Answer 204

A

determining the precise order of
nucleotides in a DNA / RNA molecule

Answer 205

A

converts sequencing data into a list of genes & functional sequences present in the genome

Answer 206

A

storing and analyzing sequences
and structures of nucleic acids and proteins

Answer 207

A

sanger sequencing
able to sequence ~800 bp

Answer 208

A

pyrosequencing- ~700 bp
Ilumina method- ~100bp
SOLiD method- ~100bp
Ion torrent- 300bp

Answer 209

A

Pacific Biosciences SMRT- 2500-3000bp
Oxford nanopore- ~9000bp

Answer 210

A

-encodes a protein, can be
identified by computer

Answer 211

A

Some codons are used more than others

Answer 212

A

uncharacterized open reading frames
-protein likely exsists, function unknown

Answer 213

A

-higher # of genes devoted to energy and coenzyme production compare to bacteria
-fewer genes for carbohydrate metabolism and membrane functions

Answer 214

A

-analyzes DNA or RNA
from environmental sample containing organisms which have not been isolated/identified

Answer 215

A

total gene content of microbial
community

Answer 216

A

Expressing a gene in
a different host

Answer 217

A

-using in vitro techniques to alter genes in the laboratory

Answer 218

A

automated PCR machine

Answer 219

A

-variation of pcr technique that quantifies initial amount of DNA

Answer 220

A

1) Denature
2)DNA polymerase extends primers using the original DNA template
3)Heat again with the target in twice the original amount, cool, and repeat 20–40 times, yielding a 106-108- fold increase

Answer 221

A

-uses agarose gel to separate nucleic acids by size and charge
-smaller nucleic acid chains move further up the gel

Answer 222

A

-Movement of a gene from the original source to a small and manipulable genetic element

Answer 223

A

inverted repeats

Answer 224

A

-Plasmids designed specifically for cloning DNA
products made by Taq in PCR

Answer 225

A

yeast artificial chromosome
cloning vector
for cloning into yeast

Answer 226

A

-cloned genes are place under this promoter to be able to control transcription/translation highly
-T7 under same controls as lac operon

Answer 227

A

-modify the gene expressed in mRNA
(easy to find due to polyA tail)
-use RT-PCR to create desired gene

Answer 228

A

-joining target and carrier proteins can
simplify purification

Answer 229

A

-Coding sequence from reporter is fused with regulatory region from another source to form hybrid gene

Answer 230

A

-Encodes protein easy to detect and
assay

Answer 231

A

DNA segments from 2 different genes are fused
-promoter can be changed

Answer 232

A

-Detects RNA in a sample

Answer 233

A

-Detects DNA in a sample

Answer 234

A

-virulence factor removed
-retains immune responce

Answer 235

A

-single vaccine that immunizes
against two different diseases

Answer 236

A

-contain only a specific protein from a pathogenic organism

Answer 237

A

-used to prepare vaccines
-takes genes as a vector to insert DNA from pathogen that its immunizing against
-tdk (thymidine kinase) gene is used

Answer 238

A

bacteria innate to the host organism
non pathogenic

Answer 239

A

-antibody complex binds to receptor
and is taken up by cancer cell which triggers immune responce to destroy cell
-uses antibodies to target cancer cells to trigger apoptosis
-antigen has been engineered to carry anticancer antibody

Answer 240

A

-process of identifying and isolating
potentially useful genes from the environment without culturing the organisms that contain them

Answer 241

A

-bacterial artificial chromosomes
-used for large DNA inserts

Answer 242

A

innate immunity to pathogen

Answer 243

A

adaptive immunity

Answer 244

A

-variant of restriction enzyme systems
that recognize and modify incoming foreign DNA, preventing replication

Answer 245

A

-triggers host suicide, leads to
programmed cell death by toxin–antitoxin systems
(prevents viruses from infecting wider community)

Answer 246

A

-domain of DNA where foreign infectious DNA is kept with spacers inbetween each infectious DNA portion

Answer 247

A

memory bank of DNA to prevent re-infection
adaptive immunity

Answer 248

A

-endonuclease activity
-Mediate defense and incorporate new spacers into CRISPR region

Answer 249

A

-protospacers adjacent motif
-the DNA inbetween the spacers in the CRISPR domain but on the invading pathogen

Answer 250

A

-cleaves the PAMs on the invading pathogen breaking up its DNA

Answer 251

A

-binds to cas protein
-acts as a complementary DNA strand to the pathogenic DNA, when it binds the protein destroys the DNA

Brainscape's Knowledge GenomeTM

TEST 2 Flashcards

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