QBM EXAM 1 bn bn
DefinebnrecombinantbnDNAbntechnology
Usingbnmolecularbnbiologybntechniquesbnsuchbnasbncloning,bnPCR,bnrestrictionbnenzymesbndigestion,bna
ndbngelbnelectrophoresisbntobntakebnabngenebnfrombnonebnsourcebnjoiningbnitbnwithbnanotherbnpiecebnofbnDNA,bncr
eatingbnabnnewbnrecombinantbnDNAbnmoleculebnthatbncanbnbebninsertedbnintobnbacteriabn(orbnotherbnhost)bnandbn
furtherbnstudied.
NamebnthreebncharacteristicsbnofbnDNAbnDoublebnstranded 5'bn->bn3'bndirectionality
Antiparallel
Basebnpairingbn(AT,bnGC)bnviabnhydrogenbnbonding
Whatbnisbnthebncentralbndogmabnofbnmolecularbnbiology? Informationbnisbnonlybnwrittenbninbnonebndirection
DNAbnencodesbnRNAbn(throughbntranscription)bnwhichbnencodesbnproteinbn(throughbntranslation)
Describebnanbnaminobnacid.bnWhatbnisbnmeantbnwhenbnonebnsaysbnproteinsbnarebntranslatedbn"NbntobnC"?
Anbnaminobnacidbnconsistsbnofbnanbnamino-terminus,bnanbna-
carbonbnwithbnanbnRbngroupbn(variable,bn20bntotal),bnandbnabncarboxyl-terminus.
Proteinsbnarebnsynthesizedbnbybnthebnribosomebn"NbntobnC"bnwhichbnmeansbnthatbnthebnfirstbnofbnaminobnacidbn(m
ethionine)bnwillbnhavebnabnfreebnN-
terminus,bnandbnitsbncarboxylbngroupbnwillbnformbnabnpeptidebnbondbnwithbnthebnaminobngroupsbnofbnthebnnextbna
minobnacid.bnThebnendbnofbnthebnproteinbnwillbnhavebnabnfreebnC-terminus.
Describebnthebnfourbnlevelsbnofbnproteinbnstructure Primarybn(aminobnacidbnsequence)
Secondarybn(a-helicesbnandbnB-pleatedbnsheets)bnTertiarybn(overallbn3-dimensionalbnfoldedbnstructure)
Quaternarybn(multiplebnpolypeptidebnchainsbninteracting)
WhenbnviewingbnabnDNAbnorbnproteinbnstructure,bnwhichbnofbnthebnfollowingbnbestbnrepresentsbnwhatbnitbnwould
bnlookbnlikebnifbnyoubncouldbn"seebnit"? Molecularbnsurfacebn(solve-accessiblebnsurface)
Whichbnbranchbnofbngovernmentbnoverseesbnworkplacebnsafety?
OccupationalbnSafetybnandbnHealthbnAdministrationbn(OSHA)
WhatbnisbnanbnMSDSbnandbnwhatbntypebnofbninformationbnwouldbnitbnhave? MaterialbnSafetybnDatabnSheetbn-
bnitbncontainsbnallbnofbnthebninformationbnaboutbnabnchemicalbn(storage,bnhealthbnwarnings,bnsafetybnmeasures,bn
PPE<bnproperbndisposal,flammability,bnwhatbntobndobnifbncontactedbnorbnswallowed,bnetc...)
ThebnQBMbnandbnMicrobiologybnlabsbnatbnUCFbnarebnBSLbn_____. BSL-2
Rankbnthebnfollowingbninbnorderbnofbnoverallbnfitbnasbnwellbnasbnmostbntobnleastbnprotectionbnfrombnchemicalsbnan
dbnpathogens:bnplasticbngloves,bnnobngloves,bnnitrilebngloves,bnlatexbngloves.
Whybnarebnnitrilebnglovesbnoftenbnpreferredbntobnlatexbngloves?
,Latexbnglovesbnofferbnthebnbestbnfirbnandbnprotection,bnfollowedbnbybnnitrilebngloves,bnfollowedbnbybnplasticbnglov
es,bnandbnnobngloves.
Nitrilebnglovesbnarebnoftenbnpreferredbnbecausebnpeoplebnwithbnlatexbnallergiesbncanbnusebnthem.
Namebnthreebntypesbnofbnhazardsbnyoubnmightbnseebninbnabnlaboratory
Biological,bnchemical,bnmechanical
TruebnorbnFalse:bnNeedlesbnshouldbnbebnrecappedbnandbnplacedbninbnthebnsharpsbncontainer
False,bnneedlesbnshouldbnneverbnbebnrecappedbnasbnthisbncanbnleadbntobnanbnaccidentalbnstick.bnTheybnsh
ouldbnalwaysbnbebndiscardedbndirectlybninbnabnsharpsbncontainer.
Whatbntoolbnwouldbnyoubnusebntobnmeasurebnandbntransferbneachbnofbnthebnfollowingbnvolumes?
15bnul:bn
15bnml:bn
150bnml: 15bnul:bnmicropipette
15bnml:bnmechanicalbnpipettorbn(Easypet)bn150bnml:bnGraduatedbncylinder
TruebnofbnFalse:bnWhenbndispensingbnliquidbnfrombnthebnmicropipettebnyoubnshouldbnpushbndownbntobnthebnfirstbn
stop.
False:bnPipettesbnshouldbnbebndispensedbnbybnpushingbndownbntobnthebnsecondbnstopbntobnfullybnexpelbna
nybnliquidbnremainingbninbnthebntip.
Whatbnisbnthebndifferencebnbetweenbnpreparativebnandbnanalyticalbncentrifugation?
Preparativebncentrifugationbnisbnforbnthebnpreparationbnofbnlargebnamountsbnofbnmaterialbn(proteinsbnfo
rbnpurification,bnbacteriabnforbnlysing).bnAnalyticalbncentrifugationbninvolvesbnsmallerbnsamplebnamountsbnandbn
allowsbnonebntobndeterminebnsamplebnpurity,bnmolecularbnweight,bnequilibriumbnconstant,bnthermodynamics,b
netc...
Forbnabnquickbnspindownbnyoubnshouldbnusebnabn______. Smallbnbenchtopbncentrifuge
Whybnarebncentrifugesbnusuallybnrefrigerated?
Tobnpreventbnproteinbndenaturationbnthatbncanbnoccurbnatbnroombntemperature
Whichbntypebnofbnrotorbnisbnbestbnforbnpelletingbnabnsample? Fixedbnanglebnrotor
Whybnaren'tbnallbncentrifugationbnbottlesbnclear?
Clearbnbottlesbnarebnlessbnresistantbntobnchemicalsbnandbnstress
Whatbnisbnthebndifferencebnbetweenbnspectroscopybnandbnspectrometry?
Spectroscopybnisbnthebnseparationbnofbnlightbnintobnitsbnwavelengths
SpectrometrybnisbnthebnmeasurementbnofbnlightbnasbnitbninteractsbnwithbnmatterbnsuchbnasbnDNAbnandbnproteins
Whybndobnresearchersbnoftenbnchoosebntobnusebncolorimetrybnoverbnspectrometry?
Colorimetrybninvolvesbnconvertingbnabnsamplebn(usuallybnprotein)bnintobnabncoloredbncompound.bnThisb
nallowsbnthebnmeasurementbnofbnthebnsamplebnatbnotherbnwavelengthsbn(suchbnasbn595bnorbn750)bnthatbnwon'tbnb
, ebnaffectedbnbybnDNAbnabsorbancebnifbnthebnsamplebnisbnimpure.bnThesebnwavelengthsbnalsobndobnnotbnrequirebns
pecialbnquartzbnorbnUVbncompatiblebncuvettes.
Whichbnpartbnofbnthebnspectrophotometerbnselectsbnlightbnofbnabnspecificbnwavelength?
Monochromator
Howbndoesbntransmittancebndifferbnfrombnabsorbance?
Transmittancebnisbnthebnamountbnofbnlightbnthatbnpassesbnthroughbnabnsample
Absorbancebnisbnthebnamountbnofbnlightbnabsorbedbnbybnabnsample
TransmittancebnandbnabsorbancebnarebnrelatedbnbybnBeer'sbnLaw
Abnsamplebnhasbnabntransmittancebnofbn70%,bnwhatbnisbnit'sbnabsorbance? -log(0.7)bn=bn0.155bnabsorbance
Howbndobnplatebnreadersbndifferbnfrombnspectrophotometers?
Platebnreadersbnarebnessentiallybnspectrophotometersbnthatbnusebn96bnwellbnplatesbntobnmeasurebnmult
iplebnsamplesbnatbnthebnsamebntime.
DNAbnabsorbsbnatbnvariousbnwavelengths,bnwhybnisbn260nmbnusedbnforbnDNAbnquantification?
DNAbnhasbnabnmaximumbnabsorbancebnpeakbnatbn260nm
Abnsamplebnhasbnanbnabsorbancebnofbn0.75,bnwhatbnisbnit'sbntransmittance? 10-
0.75bn=bn0.177bn=bn17%bntransmittance
Abnsamplebngivesbnanbnabsorbancebnofbn0.35bnandbnhasbnanbnextinctionbncoefficientbnofbn40,000.bnWhatbnisbnthebn
concentrationbninbnmicromolar? Abn=bn∈bc
0.35bn=bn(40,000)(1)(c)
cbn=bn8.75bnxbn10-6bnM,bnorbn8.75bnuM
Youbndeterminebnthatbnthebncuvettebnyoubnusedbntobntestbnthebnmixedbnsolutionbnwasbndefective,bnandbnwasbnact
uallybn11mmbninbnwidth.bnWouldbnthebncorrectedbnabsorbancebn(ifbnrecheckedbninbnabnproperbncuvette)bnbebngre
aterbnthanbnorbnlesserbnthanbnthebnabovebnabsorbance?bnWhy?
Ifbnthebncuvettebnpathbnlengthbnwasbn11mmbn(orbn1.1bncm),it'sbnabsorbancebnwouldbnbebnerroneouslybnh
igh,bnsobnifbnyoubnrecheckedbnthebnsolutionbninbnabnproperbncuvettebnitbnwouldbngivebnabnlowerbnabsorbance.
Thebndefectivebncuvettebnwouldbnhavebnplacebnmorebnsolutionbninbnthebnlightbnpathbnthanbnshouldbnhavebnbeen,bn
whichbnwouldbnabsorbbnmorebnlightbnandbngivebnabnhigherbnreadingbnthanbnexpected
YoubnpurifybnabnsamplebnofbnDNAbnandbnpipettebn10bnmicrolitersbnofbnthebnDNAbnintobn90bnmicrolitersbnofbnwaterbn
andbnmeasurebnthisbnsamplebninbnabnspectrophotometer,bnwhichbngivesbnanbnabsorbancebnofbn0.25.bnWhatbnisbnt
hebnconcentrationbnofbnDNAbninbnthebnoriginalbnsample?
A260bn1.0bn=bn50bnugbnofbnDNAbn50(0.25)bn=bn12.5bnug/ml
Dilutionbnfactorbnofbn10X,bnthusbnconcentrationbnisbnequalbntobn125bnug/ml
AbnsamplebnofbnDNAbnhasbnanbnA260:A280bnrationbnofbn1.0.bnIsbnitbnsufficientlybnpure?
No,bntherebnisbnproteinbncontamination.bnThebnA260:A280bnratiobnmuchbnbebn>1.5bnforbnabnsamplebntobn
bebnsufficientlybnpure.
DefinebnrecombinantbnDNAbntechnology
Usingbnmolecularbnbiologybntechniquesbnsuchbnasbncloning,bnPCR,bnrestrictionbnenzymesbndigestion,bna
ndbngelbnelectrophoresisbntobntakebnabngenebnfrombnonebnsourcebnjoiningbnitbnwithbnanotherbnpiecebnofbnDNA,bncr
eatingbnabnnewbnrecombinantbnDNAbnmoleculebnthatbncanbnbebninsertedbnintobnbacteriabn(orbnotherbnhost)bnandbn
furtherbnstudied.
NamebnthreebncharacteristicsbnofbnDNAbnDoublebnstranded 5'bn->bn3'bndirectionality
Antiparallel
Basebnpairingbn(AT,bnGC)bnviabnhydrogenbnbonding
Whatbnisbnthebncentralbndogmabnofbnmolecularbnbiology? Informationbnisbnonlybnwrittenbninbnonebndirection
DNAbnencodesbnRNAbn(throughbntranscription)bnwhichbnencodesbnproteinbn(throughbntranslation)
Describebnanbnaminobnacid.bnWhatbnisbnmeantbnwhenbnonebnsaysbnproteinsbnarebntranslatedbn"NbntobnC"?
Anbnaminobnacidbnconsistsbnofbnanbnamino-terminus,bnanbna-
carbonbnwithbnanbnRbngroupbn(variable,bn20bntotal),bnandbnabncarboxyl-terminus.
Proteinsbnarebnsynthesizedbnbybnthebnribosomebn"NbntobnC"bnwhichbnmeansbnthatbnthebnfirstbnofbnaminobnacidbn(m
ethionine)bnwillbnhavebnabnfreebnN-
terminus,bnandbnitsbncarboxylbngroupbnwillbnformbnabnpeptidebnbondbnwithbnthebnaminobngroupsbnofbnthebnnextbna
minobnacid.bnThebnendbnofbnthebnproteinbnwillbnhavebnabnfreebnC-terminus.
Describebnthebnfourbnlevelsbnofbnproteinbnstructure Primarybn(aminobnacidbnsequence)
Secondarybn(a-helicesbnandbnB-pleatedbnsheets)bnTertiarybn(overallbn3-dimensionalbnfoldedbnstructure)
Quaternarybn(multiplebnpolypeptidebnchainsbninteracting)
WhenbnviewingbnabnDNAbnorbnproteinbnstructure,bnwhichbnofbnthebnfollowingbnbestbnrepresentsbnwhatbnitbnwould
bnlookbnlikebnifbnyoubncouldbn"seebnit"? Molecularbnsurfacebn(solve-accessiblebnsurface)
Whichbnbranchbnofbngovernmentbnoverseesbnworkplacebnsafety?
OccupationalbnSafetybnandbnHealthbnAdministrationbn(OSHA)
WhatbnisbnanbnMSDSbnandbnwhatbntypebnofbninformationbnwouldbnitbnhave? MaterialbnSafetybnDatabnSheetbn-
bnitbncontainsbnallbnofbnthebninformationbnaboutbnabnchemicalbn(storage,bnhealthbnwarnings,bnsafetybnmeasures,bn
PPE<bnproperbndisposal,flammability,bnwhatbntobndobnifbncontactedbnorbnswallowed,bnetc...)
ThebnQBMbnandbnMicrobiologybnlabsbnatbnUCFbnarebnBSLbn_____. BSL-2
Rankbnthebnfollowingbninbnorderbnofbnoverallbnfitbnasbnwellbnasbnmostbntobnleastbnprotectionbnfrombnchemicalsbnan
dbnpathogens:bnplasticbngloves,bnnobngloves,bnnitrilebngloves,bnlatexbngloves.
Whybnarebnnitrilebnglovesbnoftenbnpreferredbntobnlatexbngloves?
,Latexbnglovesbnofferbnthebnbestbnfirbnandbnprotection,bnfollowedbnbybnnitrilebngloves,bnfollowedbnbybnplasticbnglov
es,bnandbnnobngloves.
Nitrilebnglovesbnarebnoftenbnpreferredbnbecausebnpeoplebnwithbnlatexbnallergiesbncanbnusebnthem.
Namebnthreebntypesbnofbnhazardsbnyoubnmightbnseebninbnabnlaboratory
Biological,bnchemical,bnmechanical
TruebnorbnFalse:bnNeedlesbnshouldbnbebnrecappedbnandbnplacedbninbnthebnsharpsbncontainer
False,bnneedlesbnshouldbnneverbnbebnrecappedbnasbnthisbncanbnleadbntobnanbnaccidentalbnstick.bnTheybnsh
ouldbnalwaysbnbebndiscardedbndirectlybninbnabnsharpsbncontainer.
Whatbntoolbnwouldbnyoubnusebntobnmeasurebnandbntransferbneachbnofbnthebnfollowingbnvolumes?
15bnul:bn
15bnml:bn
150bnml: 15bnul:bnmicropipette
15bnml:bnmechanicalbnpipettorbn(Easypet)bn150bnml:bnGraduatedbncylinder
TruebnofbnFalse:bnWhenbndispensingbnliquidbnfrombnthebnmicropipettebnyoubnshouldbnpushbndownbntobnthebnfirstbn
stop.
False:bnPipettesbnshouldbnbebndispensedbnbybnpushingbndownbntobnthebnsecondbnstopbntobnfullybnexpelbna
nybnliquidbnremainingbninbnthebntip.
Whatbnisbnthebndifferencebnbetweenbnpreparativebnandbnanalyticalbncentrifugation?
Preparativebncentrifugationbnisbnforbnthebnpreparationbnofbnlargebnamountsbnofbnmaterialbn(proteinsbnfo
rbnpurification,bnbacteriabnforbnlysing).bnAnalyticalbncentrifugationbninvolvesbnsmallerbnsamplebnamountsbnandbn
allowsbnonebntobndeterminebnsamplebnpurity,bnmolecularbnweight,bnequilibriumbnconstant,bnthermodynamics,b
netc...
Forbnabnquickbnspindownbnyoubnshouldbnusebnabn______. Smallbnbenchtopbncentrifuge
Whybnarebncentrifugesbnusuallybnrefrigerated?
Tobnpreventbnproteinbndenaturationbnthatbncanbnoccurbnatbnroombntemperature
Whichbntypebnofbnrotorbnisbnbestbnforbnpelletingbnabnsample? Fixedbnanglebnrotor
Whybnaren'tbnallbncentrifugationbnbottlesbnclear?
Clearbnbottlesbnarebnlessbnresistantbntobnchemicalsbnandbnstress
Whatbnisbnthebndifferencebnbetweenbnspectroscopybnandbnspectrometry?
Spectroscopybnisbnthebnseparationbnofbnlightbnintobnitsbnwavelengths
SpectrometrybnisbnthebnmeasurementbnofbnlightbnasbnitbninteractsbnwithbnmatterbnsuchbnasbnDNAbnandbnproteins
Whybndobnresearchersbnoftenbnchoosebntobnusebncolorimetrybnoverbnspectrometry?
Colorimetrybninvolvesbnconvertingbnabnsamplebn(usuallybnprotein)bnintobnabncoloredbncompound.bnThisb
nallowsbnthebnmeasurementbnofbnthebnsamplebnatbnotherbnwavelengthsbn(suchbnasbn595bnorbn750)bnthatbnwon'tbnb
, ebnaffectedbnbybnDNAbnabsorbancebnifbnthebnsamplebnisbnimpure.bnThesebnwavelengthsbnalsobndobnnotbnrequirebns
pecialbnquartzbnorbnUVbncompatiblebncuvettes.
Whichbnpartbnofbnthebnspectrophotometerbnselectsbnlightbnofbnabnspecificbnwavelength?
Monochromator
Howbndoesbntransmittancebndifferbnfrombnabsorbance?
Transmittancebnisbnthebnamountbnofbnlightbnthatbnpassesbnthroughbnabnsample
Absorbancebnisbnthebnamountbnofbnlightbnabsorbedbnbybnabnsample
TransmittancebnandbnabsorbancebnarebnrelatedbnbybnBeer'sbnLaw
Abnsamplebnhasbnabntransmittancebnofbn70%,bnwhatbnisbnit'sbnabsorbance? -log(0.7)bn=bn0.155bnabsorbance
Howbndobnplatebnreadersbndifferbnfrombnspectrophotometers?
Platebnreadersbnarebnessentiallybnspectrophotometersbnthatbnusebn96bnwellbnplatesbntobnmeasurebnmult
iplebnsamplesbnatbnthebnsamebntime.
DNAbnabsorbsbnatbnvariousbnwavelengths,bnwhybnisbn260nmbnusedbnforbnDNAbnquantification?
DNAbnhasbnabnmaximumbnabsorbancebnpeakbnatbn260nm
Abnsamplebnhasbnanbnabsorbancebnofbn0.75,bnwhatbnisbnit'sbntransmittance? 10-
0.75bn=bn0.177bn=bn17%bntransmittance
Abnsamplebngivesbnanbnabsorbancebnofbn0.35bnandbnhasbnanbnextinctionbncoefficientbnofbn40,000.bnWhatbnisbnthebn
concentrationbninbnmicromolar? Abn=bn∈bc
0.35bn=bn(40,000)(1)(c)
cbn=bn8.75bnxbn10-6bnM,bnorbn8.75bnuM
Youbndeterminebnthatbnthebncuvettebnyoubnusedbntobntestbnthebnmixedbnsolutionbnwasbndefective,bnandbnwasbnact
uallybn11mmbninbnwidth.bnWouldbnthebncorrectedbnabsorbancebn(ifbnrecheckedbninbnabnproperbncuvette)bnbebngre
aterbnthanbnorbnlesserbnthanbnthebnabovebnabsorbance?bnWhy?
Ifbnthebncuvettebnpathbnlengthbnwasbn11mmbn(orbn1.1bncm),it'sbnabsorbancebnwouldbnbebnerroneouslybnh
igh,bnsobnifbnyoubnrecheckedbnthebnsolutionbninbnabnproperbncuvettebnitbnwouldbngivebnabnlowerbnabsorbance.
Thebndefectivebncuvettebnwouldbnhavebnplacebnmorebnsolutionbninbnthebnlightbnpathbnthanbnshouldbnhavebnbeen,bn
whichbnwouldbnabsorbbnmorebnlightbnandbngivebnabnhigherbnreadingbnthanbnexpected
YoubnpurifybnabnsamplebnofbnDNAbnandbnpipettebn10bnmicrolitersbnofbnthebnDNAbnintobn90bnmicrolitersbnofbnwaterbn
andbnmeasurebnthisbnsamplebninbnabnspectrophotometer,bnwhichbngivesbnanbnabsorbancebnofbn0.25.bnWhatbnisbnt
hebnconcentrationbnofbnDNAbninbnthebnoriginalbnsample?
A260bn1.0bn=bn50bnugbnofbnDNAbn50(0.25)bn=bn12.5bnug/ml
Dilutionbnfactorbnofbn10X,bnthusbnconcentrationbnisbnequalbntobn125bnug/ml
AbnsamplebnofbnDNAbnhasbnanbnA260:A280bnrationbnofbn1.0.bnIsbnitbnsufficientlybnpure?
No,bntherebnisbnproteinbncontamination.bnThebnA260:A280bnratiobnmuchbnbebn>1.5bnforbnabnsamplebntobn
bebnsufficientlybnpure.
