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- Abteilung für Mikrobiologie und Molekularbiologie (206) (remove)
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The present work consists of four parts, containing experimental data obtained from analysis of 'Bacillus subtilis' specific and general defense strategies against reactive oxygen species. In the first part, the peroxide and superoxide stress stimulons ob 'B. subtilis' were analyzed by means of transcriptomics and proteomics. Oxidative stress responsive genes were classified into two groups: the gene expression pattern was either similar after both stresses or the genes primarily responded to one stimulus. The high induction observed for members of the PerR-regulon after both stimuli supported the assumption that activation of the peroxide specific PerR-regulon represented the primary stress response after superoxide and peroxide stress. The second part focuses on protein carbonylation in 'B. subtilis' wild-type and 'sigB' mutant cells. The introduction of carbonyl groups into amino acid side chains of proteins represents one possible form of protein modification after attack by reactive oxygen species. Carbonyl groups are readily detectable and the observed amounts can thus serve as an indicator for the severity of protein damage. The resultsdemonstrate clearly that 'B. subtilis' proteins are susceptible to hydrogen peroxide (H2O2) mediated carbonylation damage. The application of low concentrations of H2O2 prior to the exposure to otherwise lethal levels of peroxide reduced markedly the degree of protein carbonylation, which also held true for glucose starved cells. Artificial preloading with general stress proteins resulted in a lower level of protein carbonylation when cells were subjected to oxidative stress, but no differences were detected between wild-type and 'sigB' mutant cells. In the third part, strains with mutations in genes encoding general stress proteins were screenedfor decreased resistance after H2O2 challenge. It was demonstrated that resistance to H2O2 challenge. It was demonstrated that resistance to H2O2 after transient heat treatment, likewise to conditions of glucose starvation, was at least partly mediated by the sB-dependent general stress response. The screening of mutants in sB-controlled genes revealed an important role for the deoxyribonucleic acid (DNA)-binding protein Dps in the context of sB-mediated resistance to oxidative stress underlining previous reports. Therefore, the experimental strategy opens a global view on the importance of DNA integrity in 'B. subtilis' under conditions of oxidative stress. The fourth part includes analysis of a 'B. subtilis' thioredoxin conditional mutant. The thiol-disulfide oxidoreductase TrxA is an essential protein in 'B. subtilis' that is suggested to be involved in maintaining the cytoplasmic thiol-disulfide state even under conditions of oxidative stress. To investigate the physiological role of TrxA, growth experiments and two-dimensional gel electrophoresis were carried out with exponentially growing cells that were depleted of TrxA. The observations indicate that TrxA essentially involved in the re-reduction of phosphoadenosyl phosphosulfate reductase CysH within the sulfate assimilation pathway of 'B. subtilis'.
Die hier vorgestellte Arbeit beschreibt die Nutzung globaler Transkriptom- und Proteomanalysen zur Untersuchung der Anpassung des Bodenbakteriums Bacillus subtilis an einige in seinem natürlichen Habitat vorherrschende Bedingungen. Die Ergebnisse dieser Arbeit verdeutlichen, dass mit Hilfe globaler Transkriptom- und Proteomanalysen auch für bereits intensiv untersuchte Fragestellungen neue und zum Teil unerwartete Aspekte zu entdecken sind. Im Falle der seit ca. 30 Jahren untersuchten Sporulation in B. subtilis konnte eine Reihe von neuen differenziell exprimierten Genen identifiziert werden. Ferner wurden diese Gene den vier an der Sporulation beteiligten Sigmafaktoren zugeordnet. Einige der besonders interessanten Gene wurden einer Detailanalyse unterzogen. Die Analyse der seit Anfang der 90er Jahre auf molekularer Ebene intensiv untersuchten Anpassung von B. subtilis an hohe Osmolaritat führte zur Ausweitung bereits erhaltener Befunde und zur Entdeckung neuer Facetten dieser Adaptationsstrategie. Vergleichbares gilt für die Untersuchung der Anpassung von B. subtilis an schwankende Temperaturen. Die Verwendung globaler Analysen zur Untersuchung der Kälteschockantwort und der Adaptation wachsender Zellen an Kälte und Hitze haben auch hier neue interessante Befunde geliefert. Anhand der hier vorgestellten Ergebnisse wird das Potential globaler Analysen verdeutlicht. Sie ermöglichen Einblicke in das Zusammenspiel der einzelnen Anpassungsmechanismen und liefern entscheidende Hinweise zur Entschlüsselung zellularer Regulationsnetzwerke.
The toluene-degrading and solvent-tolerant strain Pseudomonas putida DOT-T1E was investigated with respect to its suitability and economic efficiency as biocatalyst in aqueous-organic two-phase systems with aliphatic solvents as organic phase (Rojas et al. 2004, chapter 4 and 5) and to its adaptive responses to the solvent decanol. The adaptive changes on the level of cell morphology (chapter 2), membrane fatty acids and permeability (chapter 3), as well as energetics and surface properties (chapter 5) of P. putida DOT-T1E have been investigated in order to ascertain information about the strain's suitability for two-phase biotransformation systems (chapter 4). The morphological adaptation to the presence of solvents was observable in changes of the cell size of P. putida DOT-T1E. Those changes were dependent on the cellular activity and occurred only after addition of non-lethal solvent concentrations. The cells reacted to the presence of organic solvents by decreasing the ratio between surface and volume of the cells and therefore reducing their relative surfaces (chapter 2). The cell surface and especially the cytoplasmic membrane are the major targets for toxic effects of membrane-active compounds like solvents. The mechanism of the cis-trans isomerisation of unsaturated fatty acids counteracts the fluidizing effect of solvents by increase the ordering of the membrane and therefore its rigidity. By comparing the responses of the cells to a series of stress factors (like solvents), a direct correlation between the activation of this mechanism and the well investigated K+-uptake pumps was observed (chapter 3). Huertas et al. (1998) reported that this strain tolerated concentrations of heptane, propylbenzene, octanol, and toluene of at least 10 % (vol/vol). 1-decanol is, in comparison to toluene, less hazardous and volatile, and it possesses good extraction properties for the desired fine chemical products. In further investigations of possible biotechnological processes, it was discovered that decanol is also a more suitable solvent as organic phase (chapter 4). Although the cells of P. putida DOT-T1E needed additional energy for their adaptation to the presence of the solvent decanol, they were able to maintain or activate their electron transport phosphorylation allowing homeostasis of ATP level and energy charge in the presence of the solvent, at the price of a reduced growth yield. On the other hand, significantly enhanced cell hydrophobicities converging with more negative cell surface charges were observed in cells grown in the presence of 1-decanol (chapter 5). It is however important to note that all the cell’s properties observed are closely linked to each other since they are all part of the adaptive response of the cells. It can be concluded that the easy adaptability and good growth properties of Pseudomonas putida DOT-T1E in the presence of the organic solvent 1-decanol make this system an excellent candidate for two-phase fermentation processes. Moreover, the absence of differences in the energetics of the bacteria during exposure to 1-decanol as compared to bacteria that grew in the absence of 1-decanol, support that this organism can be used for the industrial production of fine chemicals in an economically sound manner.
Proteomic signatures select the physiology state of the cell. By using 2-D technique, proteome signature of Bacillus subtilis under different stresses and starvations are analyzed. Consequently, a proteomic map of Bacillus subtilis in non-growing phase was created. The ammonium and tryptophan as well as phenol and catechol stress are analyzed using both of proteomics and transcriptomics. And the proteomic map represents a good application in the prediction of the mode of action of phenol and catechol stress.
The Gram-positive bacterium Bacillus licheniformis is an important industrial host for the production of enzymes. Genomic DNA arrays and proteomics are being used to investigate the physiology of this bacterium. A genome-wide transcriptional profiling analysis of the adaptation of B. licheniformis to phosphate starvation shows more than 100 induced genes. Most of strongly induced genes belong to the putative Pho regulon. The data of the transcriptome analysis have been verified by the analysis of the extracellular and cytoplasmic proteome. The main response of B. licheniformis to glucose starvation was a switch to the usage of alternative carbon sources. In addition, B. licheniformis seems to be using other organic substances like amino acids and lipids as carbon sources when subjected to glucose starvation. This was indicated by the induction of a high number of genes the proteins of which are involved in amino acid and lipid degradation. During nitrogen starvation genes necessary for the recruitment of nitrogen from alternative sources were induced, e.g. genes for nitrate and nitrite assimilation, several proteases and peptidases. Both starvation conditions led to a down-regulation of the transcription of most vegetative genes and subsequently to a reduced synthesis of the corresponding proteins. Only a few genes were induced by both starvation conditions like yvyD, citA and the methylcitrate shunt genes mmgD, mmgE and yqiQ. Data of this study use to better understand the physiology of this bacterium during fermentation processes and thus to identify and circumvent bottlenecks of B. licheniformis based bioprocesses. In addition, the phytase promoter was tested for the construction of an alternative phosphate regulated expression system for B. licheniformis.
Die Maul- und Klauenseuche (MKS) ist eine hochinfektiöse Erkrankung bei Paarhufern, die hohe wirtschaftliche Schäden verursacht. Auslöser der Erkrankung ist das MKS-Virus (MKSV), ein Mitglied der Familie Picornaviridae. In der vorliegenden Arbeit sollten die aus dem MKSV-Genom abgeleiteten offenen Leserahmen (ORFs) P1-2A, P1-2A3C und 3C in das Genom von Bovines Herpesvirus 1 (BHV-1) und BacMam Viren integriert werden, um der Fragestellung nachzugehen, inwieweit diese beiden Viren sich als virale Vektoren zur heterologen Expression von MKSV-Proteinen eignen und damit eine weitere Möglichkeit der Entwicklung von Markervakzinen gegen MKS gegeben ist. Die Integration des ORF für eine aktive MKSV Protease 3C in das Genom von BHV-1 erwies sich dabei als problematisch. Im Gegensatz dazu konnten in BacMam Viren alle MKSV Proteine erfolgreich exprimiert und prozessiert werden. Die Ergebnisse eines durchgeführten Tierversuches zeigten, dass die intramuskuläre Immunisierung von C57BL/6 Mäuse mit den rekombinanten Viren BacMam/P1-2A und BacMam/P1-2A3C zur Induktion einer humoralen Immunantwort führt. So konnten im ELISA 14 Tage nach der ersten Immunisierung MKSV-spezifische Antikörper nachgewiesen werden. Im Proliferationstest wurden isolierte Milzzellen von immunisierten Tieren mit gereinigten MKSV-Strukturproteinen restimuliert. Dabei wurden neben der Proliferation von B-Zellen auch Hinweise auf die Induktion einer spezifischen zellvermittelten Immunantwort durch die Proliferation von CD4- und CD8-positiven Zellen erhalten. Somit konnte erstmalig gezeigt werden, dass eine Immunisierung mit rekombinanten BacMam Viren in Mäusen zur Induktion einer spezifischen Immunantwort gegen MKSV führt und diese Viren somit möglicherweise gute Kandidaten für eine Markervakzine zur Bekämpfung von MKSV-Infektionen darstellen.
Degradation of branched chain aliphatic and aromatic petroleum hydrocarbons by microorganisms
(2008)
The overall aim of the work was to investigate the ability of several Gram-positive bacteria including Mycocbacterium neoaurum SBUG 109, Nocardia cyriacigeorgica SBUG 1472 and Rhodococcus ruber SBUG 82 and the yeast Trichosporon mucoides SBUG-Y 801 to degrade and transform branched chain hydrocarbons which occur in petroleum and its fraction products such as gasoline or gas oil and which are known as important and recalcitrant environmental pollutants. Pristane, iso-pentylbenzene and sec-octylbenzene were used in this work as model compounds. These compounds represent significant groups of petroleum constituents (branched chain alkanes and aromatic hydrocarbons). Three bacteria and the yeast T. mucoides SBUG-Y 801 were selected in a screen of 16 hydrocarbon-utilizing strains in the SBUG collection and from 21 isolated hydrocarbon-utilizing strains from oil-contaminated habitats of Saudi Arabian Desert and of Vietnam. The bacteria were identified in cooperation with DSZM (Deutsche Sammlung von Mikroorganismen und Zellkulturen) as M. neoaurum SBUG 109, N. cyriacigeorgica SBUG 1472, R. ruber SBUG 82. These bacterial and yeast strains were shown to possess high potential for degrading and transforming pristane, iso-pentylbenzene and sec-octylbenzene. The intermediates produced by these bacteria during incubation with pristane were analyzed by GC and GC/MS. The products 4-methyl pentanoic acid; methyl butanedioic acid; 2-methyl pentadioic acid; methyl propanedioic acid; 4-methyl heptanedioic acid and 2,6,10,14–tetramethyl-pentadecan–3–one were detected in M. neoaurum cultures. In R. ruber, methyl butanedioic acid; 2-methyl pentadioic acid; 4,8-dimethylnonanoic acid, 4-methyl heptanedioic acid; 2,6,10–trimethylundecanoic acid; 3,7-dimethyl decanedioic acid and 2,6,10,14–tetramethyl–pentadecan–3-one were identified. In N. cyriacigeorgica, 2-methylpentanedioic acid; 4,8-dimethylnonanedioic acid; 2,6-dimethylheptanedioic acid and pristanic acid were found. The detection of 11 intermediates during pristane degradation by the three Gram-positive bacteria provided sufficient information to elucidate in detail three degradative pathways of pristane involving mono-, di- and sub-terminal oxidations. The sub-terminal oxidation by M. neoaurum and R. ruber was demonstrated for the first time. This occurence of a sub-terminal oxidation in these strains was strengthened by further results of aromatic compounds transformation (see below). During this pathway, ketone mono-oxygenation reactions seem to be involved. Because of this it will be of interest to look more closely at the catalytic processes involved and their possible extension to the bio-degradation of other branched chain hydrocarbons. Since in the present study 59 %, 51 % and 84 % of pristane were degraded in 3 weeks by M. neoaurum, R. ruber and N. cyriacigeorgica, this illustrated that the degradation rates of this isoprenoid alkane were high. The bacteria we studied were not only effective degraders of multiple branched chain alkane but also useful transformers of aromatic hydrocarbons. The intermediates produced were analyzed by comparing the retention times and UV/Vis spectra of the HPLC elution profile as well as the retention times and mass spectra of the GC/MS with those of available standards. Using iso-pentylbenzene as a substrate, 8 metabolites were generated by M. neoaurum transformation including product A (phenylacetic acid), B (acetophenone), D (iso-valerophenone), E (succinic acid), F (benzoic acid), G [(2-hydroxy-phenyl)-acetic acid] and H (2-methyl-4-phenyl-butyric acid). We additionally identified an alkyl hydroxylated iso-pentylbenzene derivative as 2-methyl-4-phenyl-butan-2-ol or 2-methyl-4-phenyl-butan-1-ol. Two metabolites (C and D) were detected by N. cyriacigeorgica transformation and three metabolites (A, D and F) were identified by R. ruber transformation which led to the complete biotransformation of this substance. iso-Pentylbenzene transformation by M. neoaurum was initiated by attack on the alkyl side chain followed by ring cleavage. The appearance of iso-valeorophenone confirmed the occurrence of a sub-terminal oxidation mechanism in M. neoaurum and R. ruber. In addition to products A, C, D and G, the identification X-(3–methyl–butyl)-phenol (X means that position of the hydroxy group on the aromatic ring system, such as 2, 3 or 4 remained unclear) in T. mucoides cultivation demonstrated for the first time the capacity of alkyl side chain attack by this organism which was hitherto known only for its ability of ring cleavage. The detection of 15 degradation products of sec-octylbenzene (including 2-phenylpropionic acid, 3-phenylbutyric acid, ß-methylcinnamic acid, 5-phenylhexanoic acid, acetophenone, 2-hydroxy-acetophenone, 2,3-dihydroxy-benzoic acid, succinic acid, 7-phenyloctan-2-one, benzoic acid, phenylacetic acid, 7-phenyl-octan-2-ol, hydroxy-phenylacetic acid and 2-hydroxybenzoic acid), in the studied bacteria pointed to an effective sec-octylbenzene degradation pathway in which dehydrogenation of 3-phenylbutyric acid to form ß-methylcinnamic acid is a newly described option. The identification of 2-phenylpropionic acid and 3-phenylbutyric acid in sec-octylbenzene transformation experiments by T. mucoides confirmed the possibility of alkyl side chain attack by this yeast. Summarizing the results, we describe for the first time in detail the biotransformation of sec-octylbenzene by M. neoaurum, N. cyriacigeorgica, R. ruber and T. mucoides. Our results suggest that these microorganisms may be useful as potential strains for hydrocarbon degradation and it may be of interest to investigate their suitability to solve specific environmental pollutant problems associated with branched chain aliphatic and alkyl-branched compounds which contribute to the persistence of hydrocarbon fractions in the environment.
Funktionelle Charakterisierung des essentiellen Tegumentproteins pUL36 des Pseudorabies Virus
(2008)
Das Pseudorabies Virus ist der Erreger der Aujeszkyschen Erkrankung, einer fieberhaften Allgemeinerkrankung mit neurologischen Symptomen beim Schwein. Aufgrund seiner biologischen Eigenschaften und unkomplizierten Kultivierung in Zellkultur sowie der Verfügbarkeit eines Mausmodells hat sich PrV als geeignetes Modellsystem zur Untersuchung der alphaherpesviralen Replikation etabliert. Das Tegument stellt den komplexesten und noch am wenigsten verstandenen Teil des Herpesviruspartikels dar. Für PrV konnten mehr als 15 dem Tegument zugeordnete Proteine identifiziert werden, die neben ihrer strukturellen Bedeutung auch regulatorische Funktionen erfüllen. Ziel der vorliegenden Arbeit war die Identifizierung und Charakterisierung funktioneller Domänen des essentiellen Tegumentproteins pUL36 des Pseudorabies Virus. Mit Hilfe eines Transkomplementationsassays konnten verschiedene rekombinante UL36-Proteine auf ihre Fähigkeit, den letalen Replikationsdefekt einer UL36-Deletionsmutante zu komplementieren, überprüft werden. Bei positiver Komplementation wurden stabile Virusrekombinanten isoliert und diese auf ein möglicherweise verändertes Replikationsverhalten in der Zellkultur (in vitro) oder im Mausmodell (in vivo) untersucht. Negative Komplementationsergebnisse weisen auf eine essentielle Funktion dieser Region innerhalb des UL36-Proteins hin. Die durchgeführten Primärsequenzvergleiche homologer UL36-Proteine zeigten einen geringen Grad an Sequenzhomologie. Jedoch konnten mehrere konservierte Domänen und putative Motive identifiziert werden. Dem im N-Terminus gelegenen Modul konnte die für HSV-1 sowie Vertretern aller drei Unterfamilien beschriebene Deubiquitinylierungsaktivität zugeordnet werden. Weiterhin zeigte sich, dass die 62 C-terminalen Aminosäuren innerhalb der Alphaherpesviren stark konserviert sind, was auf eine wichtige Bedeutung dieser Region für die Funktion des UL36-Proteins hindeutet. Eine große prolinreiche Domäne im C-terminalen Bereich spricht für eine extreme Flexibilität des Proteins und eine mögliche Konformationsänderung während des Replikationszykluses. Leucin-Zipper-Motive könnten eine pUL36-Homodimerisierung oder eine bisher noch nicht beschriebene Interaktion mit viralen oder zellulären Proteinen vermitteln. Nach Charakterisierung verschiedener rekombinanter UL36 Proteine lässt sich Folgendes zum essentiellen Tegumentprotein pUL36 des Pseudorabies Virus sagen: 1) Es konnten verschiedene Domänen innerhalb des PrV-UL36-Proteins identifiziert werden, die für die Replikation sowohl in der Zellkultur als auch im Tiermodell von unterschiedlich wichtiger Bedeutung sind. Insgesamt wurden fast 50% des Proteins deletiert, ohne einen letalen Funktionsverlust zu bewirken. 2) Der C-Terminus des UL36-Proteins des Pseudorabies Virus ist für die Funktion des Proteins im Replikationsgeschehen essentiell, was auf eine mögliche Interaktion mit Kapsid- und/oder kapsidassoziierten Proteinen zurückzuführen sein könnte. 3) Die reifen Virionen der Mutanten zeigen keine Veränderungen hinsichtlich ihrer Morphologie. Auch biochemisch wurden keine Veränderungen in der Proteinzusammensetzung der untersuchten Virionen festgestellt. 4) Keine der charakterisierten Mutanten wies einen Defekt bei der Freisetzung neugebildeter Kapside aus dem Zellkern auf, d. h., die deletierten Bereiche haben keine Bedeutung während der nukleären Phasen der Virusmorphogenese. 5) PrV-pUL36 könnte weiterhin für den Ablauf der Infektion des Nervensystems von Bedeutung sein, da eine deutliche Einschränkung der Neuroinvasion einiger Mutanten im Mausmodell beobachtet wurde.
Understanding of the regulatory mechanisms controlling stress gene expression of S.aureus in response to environmental stress is very essential in studying its fitness and virulence. In this work, the changes in protein expression profiles as well as the gene transcription of S.aureus after heat exposure, osmotic stress and in response to the antibiotic puromycin were studied in order to provide detailed insights into the response of S.aureus to various kinds of environmental stress under in vitro conditions, namely: (1) to investigate the global response of S.aureus to heat stress conditions using transcriptomic and proteomic analyses. (2) to study the transcriptome and proteome of S.aureus in response to antibiotic substance puromycin. (3) to define the proteome signatures of S.aureus under NaCl stress condition. (4) to complete the proteome map of cytoplasmic proteins of S.aureus by identifying proteins exclusively synthesized during the exposure to stress. Firstly, the high resolution 2-D protein gel electrophoresis technique combined with MALDI-TOF-MS and a DNA array approach were used to investigate the cellular response of S.aureus to heat stress. A switch from normal growth temperature to high temperature condition revealed complex changes in the protein expression pattern as well as the genes expression profile. The effect of puromycin stress on S.aureus cells was analyzed, using a gel-based proteomic approach and transcriptomic analyses with DNA microarrays. We compared the protein synthesis pattern as well as the transcription data of S.aureus in response to puromycin stress with that in response to heat shock. The results demonstrated that both stress conditions induced specific, overlapping and general responses. Finally, the protein expression profile of S.aureus in response to NaCl stress was analyzed with 2D gel based proteomic approach. Our proteome analyses revealed the repression of the synthesis of many enzymes belong to different metabolism pathways . In summary, the signatures for stress or starvation stimuli can be used as diagnostic tools for the prediction of the mode of action of new antibiotics or for studying the physiological state of cells grown. Expression of the respective genes under in vivo conditions could provide some ideas on the environmental signals that specifically influence the survival of S.aureus within and outside the host.
Kurzfassung: Im Rahmen dieser Arbeit sollten 10 verschiedene organische Schadstoffe und Lösungsmittel, darunter BTEX-Verbindungen (Benzol, Toluol, Ethylbenzol, Xylol), (chlorierte) Phenole und aliphatische Alkanole hinsichtlich ihrer Wirkung auf das Wachstum von Modellorganismen, die unter unterschiedlichen anoxischen Bedingungen wuchsen, geprüft werden. Dabei wurden mit Thauera aromatica, Geobacter sulfurreducens und Desulfococcus multivorans – Arten untersucht, die unterschiedlichen anaeroben Stoffwechselgruppierungen angehören. Trotz geringerer Wachstumsraten der untersuchten anaeroben Mikroorganismen, wurde die Toxizität der Chemikalien mittels eines Wachstumshemmtest abgeschätzt, der bereits für aerobe Bakterien etabliert wurde. Die Toxizitäten der Verbindung wurden dabei als 50% Effektive Konzentrationen (EC50) ausgedrückt, also der Chemikalienkonzentration, die benötigt wird um die Wachstumsrate der Mikroorganismen um 50% zu vermindern. Eine direkte Beziehung zwischen der Toxizität und der Hydrophobizität (log P-Wert) der organischen Verbindungen wurde für alle drei anaeroben Bakterien erfasst. Dabei zeigte sich, dass die drei anaeroben Stämme generell etwas empfindlicher auf die Substanzen reagierten als bisher getestete aerobe Mikroorganismen. Zudem wurden Reaktionen untersucht, die den Bakterien das Überleben in Anwesenheit organischer Lösungsmittel gestattet. Da Membranen die Berührungspunkte zwischen den Mikroorganismen und dem umgebenden Medium darstellen, sind die meisten Anpassungsreaktionen mit der Aufrechterhaltung der Membranfluidität und –stabilität verbunden. Die Änderung der Membranzusammensetzung insbesondere die der Phospholipidfettsäuren (PLFA) spielt dabei eine immense Rolle. T. aromatica und G. sulfurreducens, deren Fettsäuremuster von der Palmitinsäure (C16:0) und der Palmitoleinsäure (C16:1cis) dominiert wurden, reagierten während des Wachstums in Anwesenheit von organischen Lösungsmitteln, mit einem Anstieg des Sättigungsgrades der zellulären Fettsäuren. Das Fettsäurespektrum von D. multivorans wurde durch Palmitinsäure (C16:0) und anteiso-verzweigte Fettsäuren charakterisiert. Insbesondere auf die Anwesenheit von BTEX-Verbindungen reagierten die Zellen des Sulfatreduzierers mit einem Anstieg des Verhältnisses zwischen unverzweigten gesättigten Fettsäuren (C14:0, C16:0, C18:0) und den anteiso-verzweigten Fettsäuren (C15:0anteiso, C17:0anteiso, C17:1anteiso). Die beobachteten Modifikationen auf Ebene der zellulären Fettsäurezusammensetzung sind jedoch nur mittels de novo Synthese der Fettsäuren möglich – einem Prozess, der eng mit Zellwachstum verbunden ist. Die Wachstumsraten der untersuchten, anaeroben Bakterien sind jedoch deutlich geringer als die bisher getesteter aerober Bakterien, somit wird für die Ausprägung der Anpassungsreaktionen mehr Zeit benötigt, was die höhere Empfindlichkeit anaerober Bakterien gegenüber Lösungsmitteln erklären könnte.