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Your Name: Bioinformatics Take Home Test #1 –Due 9/19/16 Pleasesubmitahardcopyofyouranswers(withorwithoutthequestions),ifpossible.Ifyou haveanemergencyandcannotsubmitaquizinperson,emailitinbythestartofclassonthe duedate.Ifyoudoso,onlyemailyouranswers. Latequizzeswillnotbeacceptedaftertheanswershavebeenreleased. Allquestionsworth1ptifnototherwiseindicated 1. 1.GiveaonesentencedescriptionofthefieldknownasBioinformatics. Bioinformatics is the science at the intersection of Computer Sciences (informatics) and Genomics and the analysis of other biological data sets related to the acquisition of large amounts of data. 2.BioinformaticsdoesNOTincludewhichofthefollowingactivities? A.Analyzinggenomedatausingcomputers B.FiguringoutaproteinstructurefromX-raycrystallography C.Detectinghomologsusingprimarysequencesimilarity D.Detectinghomologsusingsecondarysequencesimilarity 3.ATP,GTP,NAD,NADP,FMN,andFADareexampleofwhattypeofcofactor? A.Nucleotideormodifiednucleotide B.LipidormodifiedLipid C.Aminoacidormodifiedaminoacid D.oligosacharides 4.Thecofactorslistedinquestion3providesupportforwhichhypothesisregardingthe earlyevolutionoflife? A.DNAWorld B.CompartmentalizedCellsFirst C.RNAWorld D.ProteinWorld E.MetabolismFirst 5.Proteinsthatevolvedfromthesameancestralprotein A.ALWAYShavesignificantsimilarityintheirprimarysequence. B.Cannothavedifferentfunctions C.Candivergesothattheyhaveonlylimitedhomology. D.Donotnecessarilyretaindetectablesimilarityisprimarysequence. E.WillALWAYShavedetectablelevelsofprimarysequencesimilarity 6.Whatmightbethereasonforproteinsthatshowsignificantsimilarityintheirprimary sequence(whennosimplerepeatsorlowcomplexityregionsarepresent)tobehomologous. A.Sequencespaceissobigthatstumblingontoasignificantlysimilarsequencebychanceis veryunlikely B.Thisisatrickquestion,becauseNOTallcurrentlyknownproteinsthatsharesignificant similarityarehomologous C.Thereisadirectlinkbetweensequencesimilarityandpercenthomology D.Homologoussequencesshareafunctionandthereisonlyasmallregionofproteinspace thatcanaccomplishanyonefunction E.Alloftheabove 7.WhichofthefollowingisNOTconsideredstrongevidenceforhomology? A.Thearrangementofsecondarystructureelementsinspaceisthesameorverysimilar. B.Significantprimarysequencesimilarity C.Significantprimarysequenceidentity D.Identicalfunction E.Noneoftheabove 8.WhichofthefollowingistheBESTworkingdefinitionoflife? A.Acontainedmetabolicsystemcapableofevolutionwithheredity. B.Cells.Lifecouldonlyexistinaformcompartmentalizedbyalipidbilayer. C.Self-sustainedmetabolicsystemthatdoesnotrequireinputfromanyotherlivingsystem. D.Aninteractingwebwithintricatefeedbackloopstoensurehomeostasis. E.Anythingthatcanreproduceitselfperfectlywithnoerrors. F.Alloftheaboveareequallygoodanswers. 9.Whatishomology? A.Thecreationofartificiallifebyanymeans. B.Adifferencefoundbecauseofdivergingevolutionarypathssincethelastcommon ancestor. C.Similarityduetosharedancestry,i.e.bothgotitfromacommonancestor. D.Whentwoproteinsshareafunction,suchasnucleotidebinding,theyalsosharesequence similarities,becauseofthelimitedsizeofproteinspace. E.Sharedsequencesimilaritybasedonconvergentevolution,i.e.theancestordidnothaveit. 10.Canaproteinbe84%homologoustoanotherprotein? A.Yes. B.Mostlyno,withtheexceptionofcasesofdomainshuffling. C.Yes,iftheyshare84%sequenceidentity. D.No,withoutexception.Countedascorrectforthisexam,becausewedidn'tdoprotein domainsyet. 11.TheSwissProteindatabankfileviewer,akaDeepViewcanNOTbeusedtodowhichof thefollowingthings? A.Visualizewhereanucleotidecofactorbinds. B.Comparethestructuresoftwosequences. C.Colorastructurebyhowcloselyitmatchesanother. D.Detecthomologywith100%certainty. E.VisualizetheconformationalchangethattheATPsynthaseundergoesduringitscatalytic cycle. 12.Whichelementsmakeupthesecondarystructureofproteins? A.Hydrophobicdomains,nucleotidebindingmotifs,andproteinchannels. B.Betabarrels,alphacorkscrews,anddeltaturns. C.Betasheets,alphahelices,andloops. D.VanderWaalsinteractions,hydrogenbonds,anddisulfidebridges. E.Multipleproteinchainsinteractingtoformonemacromolecule. 13.Howmanytypesofsubunits(note:thisasksforthedifferenttypesofsubunits,encoded byseparategenes,notthenumberofsubunits)formthehexamer(thehead)ofnucleotide bindingsubunitsintheF1ATPase? 2 14.True/FalseInthecatalyticcycleoftheATPase,allofthecatalyticsubunitsworkin differentphasesofthecatalyticcycleatanyonepointintime. 15.True/FalseThedifferentATPbindingsubunittypesthatformthehexameroftheF1- ATPsynthasearehomologoustoeachother. 16.True/FalseTheancestralATPasecouldhavelookedlikeahomohexamerwithsix identicalsubunits. 17. True/FalseItisNOTpossibletocreateacomputerprogramtomimicevolutionbymeans ofartificialselection,becausecomputersprogramsareNOTcapableoffindingnewsolutions thatahumanhasneverthoughtofbefore. 18.WhatistheGaiahypothesis? A.Earth’splantscontroltheplanet’stemperaturebyselectionforflowercolor B.AlllifeonEarthdescendedfromONEcommonancestor C.TheunitoflifeistheentireEarthandtheentirebiosphereisalive,becausenosingle speciescanexistincompleteisolation.TheecosystemsontheEarthareprotectedby negativefeedbackloopsthathelpmaintainhomeostasis. D.MarscooledfasterthantheEarthandthereforewasamorehabitableplaceforlifeearlier. LifearosefirstonMarsandtraveledtoEarthonmeteorites E.Largeglaciersandiceagesresultfromarunawaycold-house,wheretheEarthgetscolder becauseglaciersreflectmorelightfromthesurface F.Zirconcrystalsin3.8billionyearoldrockswereproducedbyancientlifeover4billion yearsago.Thezirconcrystalsareformedbyrunningwaterandthebiasincarbonisotope ratiosindicatesthepresentsoflife. 19.Evolutionbynaturalselectionrequireswhichthreethingstooccur? A.Variationamongoffspring,aniche,andcompetitionforresources. B.Heredity,excessoffspring,andaniche. C.Excessoffspring,competitionforresources,andvariationamongoffspring.(youmightbe abletoarguewithme,ifyoucheckedsomethingelse,thisseemstomissthatthevariationis heritable) D.Aniche,ahumantonaturallyselectthebestoffspring,andoxygen. E.Noneoftheabove. 20.WhichofthefollowingisNOTpartoftheexplanationforhowcomplexfunctional moleculeswereassembled,despitethevastnessofproteinspace? A.Gaiadirectsproteinevolution,throughnegativefeedbackloops,tothecorrectregionof proteinspace. B.Therearemultipleunrelatedsolutionsforthesamefunctionality,exemplifiedbythefact thattherearenon-homologousenzymesinhabitingcompletelydifferentregionsofprotein spacewiththesamefunction. C.Anexactfunctiondoesnotneedtobehitupon,becausenaturalselectioncantakea proteinwithlimitedfunctionandmakeitbetter. D.Similarstructureshavesimilarfunction,sothereareentireregionsofproteinspace occupiedbyhomologsthatallfunctionequallywell,ornearlyso. E.Proteinspaceismadeslightlysmallerbyremovingallofthepossibilitiesthatcannotbe synthesizedortheywillcloguptheribosome. 21.Howmanypeptides(shortproteins)of70aminoacidsinlengtharepossible,giventhat thereare20possibleaminoacids?1.18*1091 Foryouransweronlyconsidertheprinciplesofcombinatoricsandignorepossible incompatibilitiesbetweenaminoacids.Howdoesthisnumbercomparetotheestimated numberofprotonsintheuniverse?Itislargerbyabouttenordersofmagnitude. 22.Wehaveworkedwith3enzymesintheFridaycomputerlabs,whichareshownbelow. Pleaseidentifythem: a. b. c. LysozymewithNAGtrimerInteinwithHEboundtoDNAF1ATPase(partoftheF-ATPase) 23. Arevirusesalive?Pleaseinclude2-4pointsofevidencetobackupyouranswer(simplyayes ornowillnotsuffice). Extracredit: 1.Theplotathttp://web.uconn.edu/gogarten/mcb221_2007/chapter1/0101.jpgcontainsacurvegivingtheincreaseofDNAsequenceavailableinthe databanks.Accordingtothedepicteddata,howlongwillittakeonaveragefor thenumberofnucleotidesequencesdepositedingenbanktodouble?(Rough estimationisok) 1.5years Accordingtothisdiagram,howmanynucleotidesequenceswouldyouexpectin GenbankintheSpringof2015andFallof2016? About4*109sequencesinSpringof2015and1010inFallof2016. Abouthowmanysequencesandhowmanynucleotideswereinthetraditional GenbankintheFallof2016? Nucleotides217,971,437,647 Sequences196,120,831 HowmanynucleotideswerepartofWholeGenomeSequencesaccessible throughtheNCBI Nucleotides1,637,224,970,324 Sequences 359,796,497 2. WhowasAlanTuring,andwhyshouldyoucare?Atleastthreeunique pointsofrelevancearerequired. • ProposedtheTuringtesttodetermineifacomputershouldbe considereda"person". • Providedamathematicaldescriptionforsymmetrybreakingcell divisionsbasedonreactiondiffusionsystems. • DevelopedtheconceptoftheTuringmachine(universalcomputing machine) • Solvedthe"halting"problem (https://en.wikipedia.org/wiki/Halting_problem). • BuildthefirstcomputerandusedittodecryptmessagesoftheGerman armyandnavyinthesecondworldwar. • DevelopedadecisiontheorybasedonBayesfactors(thatare independentofpriors)
