44 SHORT LECTURESMonday, March 19, 08:30–10:30OTV01409:45*B. PETERS, M. MIENTUS, D. KOSTNER,W. LIEBL, A. EHRENREICHThe quest for new oxidative catalysts:Expression of metagenomic membranebounddehydrogenases from acetic acidbacteria <strong>in</strong> Gluconobacter oxydansOTV01510:00*C. WITHARANA, L. HOU, C. LASSEK,V. ROPPELT, G. KLUG, E. EVGUENIEVA-HACKENBERGGrowth phase dependent changes of theRNA degrad<strong>in</strong>g exosome <strong>in</strong> SulfolobussolfataricusOTV01610:15*S.L. GARCIA, A. SRIVASTAVA,H.-P. GROSSART, T. MCMAHON,R. STEPANAUSKAS, A. SCZYRBA, T. WOYKE,S. BARCHMANN, F. WARNECKEFreshwater Act<strong>in</strong>obacteria acI asrevealed by s<strong>in</strong>gle-cell genomicsSecondary Metabolites I:From the genome to theproductLecture hall N9Chair: Elke DittmannCo-Chair: Tilmann WeberMEV00108:30*M. KAI, O. GENILLOUD, S. SINGH,A. SVATOŠMass spectrometric analysis ofantibiotics from bacteriaMEV00208:45*J. DISCHINGER, M. JOSTEN , A.-M. HERZNER, A. YAKÉLÉBA,M. OEDENKOVEN, H.-G. SAHL, J. PIEL ,G. BIERBAUMM<strong>in</strong><strong>in</strong>g for new lantibiotic producer <strong>in</strong>microbial genome sequencesMEV00309:00*B. KRAWCZYK, W.M. MÜLLER, P. ENSLE,R.D. SÜSSMUTHBiosynthesis of class III lantibiotics –<strong>in</strong> vitro studiesMEV00409:15*B. BOLL, T. TAUBIZ, L. HEIDEThe Effect of MbtH-like Prote<strong>in</strong>s on theAdenylation of Tyros<strong>in</strong>e <strong>in</strong> the Biosynthesisof Am<strong>in</strong>ocoumar<strong>in</strong> Antibiotics andVancomyc<strong>in</strong>MEV00509:30*E.M. MUSIOL, T. HÄRTNER, A. KULIK,W. WOHLLEBEN, T. WEBERKirCI and KirCII, the discrete acyltransferases<strong>in</strong>volved <strong>in</strong> kirromyc<strong>in</strong> biosynthesisMEV00609:45*Q. ZHOU, H.B. BODEInvestigation of the type II polyketidesynthase from Gram-negative bacteriaPhotorhabdus lum<strong>in</strong>escence TT01MEV00710:00*A. ADAM, K.-H. VAN PÉEPurification and Characterisation of theFlav<strong>in</strong>-Dependent Mono dechloro am<strong>in</strong>o -pyrrolnitr<strong>in</strong> 3-Halogenase from Pyrrol -nitr<strong>in</strong> BiosynthesisMEV00810:15*M. MATUSCHEK, C. WALLWEY, X. XIE,S.-M. LIEasG and FgaFS are key enzymes <strong>in</strong> thedifferentiation of ergot alkaloidbiosynthesis <strong>in</strong> Claviceps purpurea andAspergillus fumigatusMicrobial Survival Strategies I:Adaptation of microorganismsto chemical and physicalstressorsLecture hall N1Chair: Jörg StülkeCo-Chair: Ralph BertramSSV00108:30*A. BARTSCH, A. KLINGNER, J. BECKER,C. WITTMANNMetabolic pathway fluxes of the mar<strong>in</strong>emodel bacterium D<strong>in</strong>oroseobactershibae under chang<strong>in</strong>g environmentalconditionsSSV00208:45*V. BEHRENDS, K.J. WILLIAMS,V.A. JENKINS, B.D. ROBERTSON,J.G. BUNDYGlucosyl-glycerate is a nitrogen stressdependentcarbon-capacitator <strong>in</strong>Mycobacterium smegmatisSSV00309:00*L. PLATZEN, A. MICHEL, B. WEIL,M. BROCKER, M. BOTTFlavohemoprote<strong>in</strong> Hmp ofCorynebacterium glutamicum is<strong>in</strong>volved <strong>in</strong> nitrosative stress resistanceSSV00409:15A. YANDrug efflux as a surviv<strong>in</strong>g strategy <strong>in</strong>response to the anaerobic stress <strong>in</strong> E.coliSSV00509:30*S. MIRIAM, B. AVERHOFFMetabolic adaptation of Ac<strong>in</strong>etobacterto chang<strong>in</strong>g environmental conditionsSSV00609:45*K. SELL, E.A. GALINSKIThe <strong>in</strong>compatible solute creat<strong>in</strong>e<strong>in</strong>hibits bacterial Na + /H + antiportersSSV00710:00*A. KIRSTEN, M. HERZBERG, D.H. NIESHow Cupriavidus metallidurans dealswith toxic transition metalsSSV00810:15*J.-P. OUEDRAOGO, S. HAGEN, V. MEYERAccept your fate? Defence strategies ofyeast and filamentous fungi aga<strong>in</strong>st thechit<strong>in</strong> synthase <strong>in</strong>hibitor AFPBIOspektrum | Tagungsband <strong>2012</strong>
45Tuesday, March 20, 08:30–10:30Open Topics III:Enzymology/BiotechnologyLecture hall N7Chair: Garabed AntranikianCo-Chair: Bernhard HauerOTV01708:30*O. RASIGRAF, C. VOGT, H.-H. RICHNOW,M.S.M. JETTEN, K.F. ETTWIGCarbon and hydrogen isotopefractionation dur<strong>in</strong>g nitrite-dependentanaerobic methane oxidation byMethylomirabilis oxyferaOTV01808:45*S. ELLEUCHE, B. KLIPPEL,G. ANTRANIKIANCharacterization of Novel BacterialAlcohol Dehydrogenases Capable ofOxydiz<strong>in</strong>g 1,3-propanediolOTV01909:00*S. HONDA, D. SCHEPS, L. KÜHNEL,B. NESTL, B. HAUERBacterial CYP153 monooxygenases asbiocatalysts for the synthesis ofω-hydroxy fatty acidsOTV02009:15*S. SANÉ, S. RUBENWOLF, C. JOLIVALT,S. KERZENMACHERUs<strong>in</strong>g yeast and fungi to produceelectricity – Towards a self-regenerat<strong>in</strong>genzymatic biofuel cell cathodeOTV02109:30*K. BÜHLER, R. KARANDE, B. HALAN,A. SCHMIDBiofilms – A new Chapter <strong>in</strong> BiocatalysisOTV02209:45*S. SÖLLNER, M. RAHNERT, M. SIEMANN-HERZBERG, R. TAKORS, J. ALTENBUCHNERGrowth-decoupled, anaerobic succ<strong>in</strong>ateproduction from glycerol with pyruvatek<strong>in</strong>asedeficient E. coli mutantsOTV02310:00*J. VAN OOYEN, S. NOACK, M. BOTT,L. EGGELINGGradual <strong>in</strong>sight <strong>in</strong>to Corynebacteriumglutamicum’s central metabolism for the<strong>in</strong>crease of L-lys<strong>in</strong>e productionOTV02410:15H. WEINGARTInduction of systemic resistance <strong>in</strong>soybean by the antagonistic epiphytePseudomonas syr<strong>in</strong>gae 22d/93MP II: Bacteria host cell<strong>in</strong>teraction and host responseLecture hall N5Chair: Sven HammerschmidtCo-Chair: Christopher WeidenmaierMPV00908:30*S. HANNEMANN, J.E. GALÁNSalmonella Typhimurium StimulatedTranscriptional Response AidsIntracellular ReplicationMPV01008:45*M. FAULSTICH, J.-P. BÖTTCHER, T. MEYER,M. FRAUNHOLZ, T. RUDELRecruitment of PI3 k<strong>in</strong>ase to caveol<strong>in</strong> 1determ<strong>in</strong>es the switch from theextracellular to the dissem<strong>in</strong>at<strong>in</strong>g stageof gonococcal <strong>in</strong>fectionMPV01109:00*R. BÜCKER, J. BECKER, A.K. HEROVEN,P. DERSCH, C. WITTMANNSystems biology of the pathogenicbacterium Yers<strong>in</strong>ia pseudotuberculosisMPV01209:15*A.D. ROEHRICH, E. GUILLOSSOU,R.B. SESSIONS, A.J. BLOCKER,I. MARTINEZ-ARGUDOShigella IpaD has a dual role <strong>in</strong> type IIIsecretion system activationMPV01309:30*B. FRANZ, L. YUN-YUEH , M. TRUTTMANN,T. RIESS, M. FAUSTMANN, V. KEMPF,C. DEHIOBartonella henselae adhes<strong>in</strong> BadAnegatively regulates effector secretionthrough the VirB/D4 type IV secretionsystemMPV01409:45*C. LASSEK, M. BURGHARTZ, D. CHAVESMORENO, B. HESSLING, A. OTTO, M. JAHN,D. BECHER, D. PIEPER, K. RIEDELA metaproteomic analysis of a human<strong>in</strong>dwell<strong>in</strong>g ur<strong>in</strong>ary catheter biofilmdom<strong>in</strong>ated by Pseudomonas aerug<strong>in</strong>osaMPV01510:00*V. BEHRENDS, B. RYALL, J.E. ZLOSNIK,D.A. SPEERT, J.G. BUNDY, H.D. WILLIAMSMetabolic adaptations of Pseudomonasaerug<strong>in</strong>osa dur<strong>in</strong>g cystic fibrosis lung<strong>in</strong>fectionsMPV01610:15*S. VOSS, T. HALLSTRÖM, L. PETRUSCHKA,K. KLINGBEIL, K. RIESBECK, P. ZIPFEL,S. HAMMERSCHMIDTPneumococcal surface prote<strong>in</strong> C: amultifunctional pneumococcal virulencefactor and vitronect<strong>in</strong>-b<strong>in</strong>d<strong>in</strong>g prote<strong>in</strong>Physiology I: Structural andregulatory aspectsLecture hall N3Chair: Gary SawersCo-Chair: Agnieszka BeraPSV00108:30*L. KREUTER, S. DAXER, U. KÜPER,F. MAYER, V. MÜLLER, R. RACHEL,H. HUBERThe unusual cell architecture of I. hospitalisand consequences for its energymetabolismPSV00208:45*S. BUBENDORFER, S. HELD, N. WINDEL,A. PAULICK, A. KLINGL, K. THORMANNFunction and specificity of the dualflagellar sytem <strong>in</strong> Shewanellaputrefaciens CN-32PSV00309:00*C. DOBERENZ, L. BEYER, D. FALKE,M. ZORN, B. THIEMER, G. SAWERSPyruvate formate-lyase ControlsFormate Translocation by the FocAChannelPSV00409:15*A. SCHNORPFEIL, M. MÜLLER,R. BRÜCKNERThe small non-cod<strong>in</strong>g csRNAs controlledby the response regulator CiaR affectβ-lactam sensitivity and competence <strong>in</strong>Streptococcus pneumoniaeBIOspektrum | Tagungsband <strong>2012</strong>
- Page 5 and 6: Instruments that are music to your
- Page 7 and 8: General Information2012 Annual Conf
- Page 9 and 10: SPONSORS & EXHIBITORS9Sponsoren und
- Page 11 and 12: 11BIOspektrum | Tagungsband 2012
- Page 13 and 14: 13BIOspektrum | Tagungsband 2012
- Page 16: 16 AUS DEN FACHGRUPPEN DER VAAMFach
- Page 20 and 21: 20 AUS DEN FACHGRUPPEN DER VAAMFach
- Page 22 and 23: 22 AUS DEN FACHGRUPPEN DER VAAMMitg
- Page 24 and 25: 24 INSTITUTSPORTRAITin the differen
- Page 26 and 27: 26 INSTITUTSPORTRAITProf. Dr. Lutz
- Page 28 and 29: 28 CONFERENCE PROGRAMME | OVERVIEWS
- Page 30 and 31: 30 CONFERENCE PROGRAMME | OVERVIEWT
- Page 32 and 33: 32 CONFERENCE PROGRAMMECONFERENCE P
- Page 34 and 35: 34 CONFERENCE PROGRAMMECONFERENCE P
- Page 36 and 37: 36 SPECIAL GROUPSACTIVITIES OF THE
- Page 38 and 39: 38 SPECIAL GROUPSACTIVITIES OF THE
- Page 40 and 41: 40 SPECIAL GROUPSACTIVITIES OF THE
- Page 42 and 43: 42 SHORT LECTURESMonday, March 19,
- Page 46 and 47: 46 SHORT LECTURESTuesday, March 20,
- Page 48 and 49: 48 SHORT LECTURESWednesday, March 2
- Page 50 and 51: 50 SHORT LECTURESWednesday, March 2
- Page 52 and 53: 52ISV01Die verborgene Welt der Bakt
- Page 54 and 55: 54protein is reversibly uridylylate
- Page 56 and 57: 56that this trapping depends on the
- Page 58 and 59: 58Here, multiple parameters were an
- Page 60 and 61: 60BDP016The paryphoplasm of Plancto
- Page 62 and 63: 62of A-PG was found responsible for
- Page 64 and 65: 64CEV012Synthetic analysis of the a
- Page 66 and 67: 66CEP004Investigation on the subcel
- Page 68 and 69: 68CEP013Role of RodA in Staphylococ
- Page 70 and 71: 70MurNAc-L-Ala-D-Glu-LL-Dap-D-Ala-D
- Page 72 and 73: 72CEP032Yeast mitochondria as a mod
- Page 74 and 75: 74as health problem due to the alle
- Page 76 and 77: 76[3]. In summary, hypoxia has a st
- Page 78 and 79: 78This different behavior challenge
- Page 80 and 81: 80FUP008Asc1p’s role in MAP-kinas
- Page 82 and 83: 82FUP018FbFP as an Oxygen-Independe
- Page 84 and 85: 84defence enzymes, were found to be
- Page 86 and 87: 86DNA was extracted and shotgun seq
- Page 88 and 89: 88laboratory conditions the non-car
- Page 90 and 91: 90MEV003Biosynthesis of class III l
- Page 92 and 93: 92provide an insight into the regul
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94MEP007Identification and toxigeni
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96various carotenoids instead of de
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98MEP025Regulation of pristinamycin
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100that the genes for AOH polyketid
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102Knoll, C., du Toit, M., Schnell,
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104pathogenicity of NDM- and non-ND
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106MPV013Bartonella henselae adhesi
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108Yfi regulatory system. YfiBNR is
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110identification of Staphylococcus
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112that a unit increase in water te
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114MPP020Induction of the NF-kb sig
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116[3] Liu, C. et al., 2010. Adhesi
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118virulence provides novel targets
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120proteins are excreted. On the co
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122MPP054BopC is a type III secreti
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124MPP062Invasiveness of Salmonella
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126Finally, selected strains were c
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128interactions. Taken together, ou
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130forS. Typhimurium. Uncovering th
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132understand the exact role of Fla
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134heterotrimeric, Rrp4- and Csl4-c
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136OTV024Induction of systemic resi
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13816S rRNA genes was applied to ac
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140membrane permeability of 390Lh -
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142bacteria in situ, we used 16S rR
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144bacteria were resistant to acid,
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1461. Ye, L.D., Schilhabel, A., Bar
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148using real-time PCR. Activity me
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150When Ms. mazei pWM321-p1687-uidA
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152OTP065The role of GvpM in gas ve
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154OTP074Comparison of Faecal Cultu
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156OTP084The Use of GFP-GvpE fusion
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158compared to 20 ºC. An increase
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160characterised this plasmid in de
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162Streptomyces sp. strain FLA show
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164The study results indicated that
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166have shown direct evidences, for
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168biosurfactant. The putative lipo
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170the absence of legally mandated
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172where lowest concentrations were
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174PSV008Physiological effects of d
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176of pH i in vivo using the pH sen
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178PSP010Crystal structure of the e
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180PSP018Screening for genes of Sta
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182In order to overproduce all enzy
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184substrate specific expression of
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186potential active site region. We
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188PSP054Elucidation of the tetrach
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190family, but only one of these, t
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192network stabilizes the reactive
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194conditions tested. Its 2D struct
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196down of RSs2430 influences the e
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198demonstrating its suitability as
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200RSP025The pH-responsive transcri
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202attracted the attention of molec
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204A (CoA)-thioester intermediates.
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206Ser46~P complex. Additionally, B
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208threat to the health of reefs wo
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210their ectosymbionts to varying s
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212SMV008Methanol Consumption by Me
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214determined as a function of the
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216Funding by BMWi (AiF project no.
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218broad distribution in nature, oc
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220SMP027Contrasting assimilators o
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222growing all over the North, Cent
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224SMP044RNase J and RNase E in Sin
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226labelled hydrocarbons or potenti
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228SSV009Mathematical modelling of
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230SSP006Initial proteome analysis
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232nine putative PHB depolymerases
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234[1991]. We were able to demonstr
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236of these proteins are putative m
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238YEV2-FGMechanistic insight into
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240 AUTORENAbdel-Mageed, W.Achstett
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242 AUTORENFarajkhah, H.HMP002Faral
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244 AUTORENJung, Kr.Jung, P.Junge,
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246 AUTORENNajafi, F.MEP007Naji, S.
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249van Dijk, G.van Engelen, E.van H
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251Eckhard Boles von der Universit
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253Anna-Katharina Wagner: Regulatio
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255Vera Bockemühl: Produktioneiner
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257Meike Ammon: Analyse der subzell
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springer-spektrum.deDas große neue