TY - GEN A1 - Alirezaeizanjani, Zahra A1 - Waljor, V. A1 - Hintsche, Marius A1 - Beta, Carsten T1 - How growth conditions affect bacterial chemotaxis responses T2 - European biophysics journal : with biophysics letters ; an international journal of biophysics Y1 - 2017 SN - 0175-7571 SN - 1432-1017 VL - 46 SP - S281 EP - S281 PB - Springer CY - New York ER - TY - THES A1 - Alirezaeizanjani, Zahra T1 - Movement strategies of a multi-mode bacterial swimmer N2 - Bacteria are one of the most widespread kinds of microorganisms that play essential roles in many biological and ecological processes. Bacteria live either as independent individuals or in organized communities. At the level of single cells, interactions between bacteria, their neighbors, and the surrounding physical and chemical environment are the foundations of microbial processes. Modern microscopy imaging techniques provide attractive and promising means to study the impact of these interactions on the dynamics of bacteria. The aim of this dissertation is to deepen our understanding four fundamental bacterial processes – single-cell motility, chemotaxis, bacterial interactions with environmental constraints, and their communication with neighbors – through a live cell imaging technique. By exploring these processes, we expanded our knowledge on so far unexplained mechanisms of bacterial interactions. Firstly, we studied the motility of the soil bacterium Pseudomonas putida (P. putida), which swims through flagella propulsion, and has a complex, multi-mode swimming tactic. It was recently reported that P. putida exhibits several distinct swimming modes – the flagella can push and pull the cell body or wrap around it. Using a new combined phase-contrast and fluorescence imaging set-up, the swimming mode (push, pull, or wrapped) of each run phase was automatically recorded, which provided the full swimming statistics of the multi-mode swimmer. Furthermore, the investigation of cell interactions with a solid boundary illustrated an asymmetry for the different swimming modes; in contrast to the push and pull modes, the curvature of runs in wrapped mode was not affected by the solid boundary. This finding suggested that having a multi-mode swimming strategy may provide further versatility to react to environmental constraints. Then we determined how P. putida navigates toward chemoattractants, i.e. its chemotaxis strategies. We found that individual run modes show distinct chemotactic responses in nutrition gradients. In particular, P. putida cells exhibited an asymmetry in their chemotactic responsiveness; the wrapped mode (slow swimming mode) was affected by the chemoattractant, whereas the push mode (fast swimming mode) was not. These results can be seen as a starting point to understand more complex chemotaxis strategies of multi-mode swimmers going beyond the well-known paradigm of Escherichia coli, that exhibits only one swimming mode. Finally we considered the cell dynamics in a dense population. Besides physical interactions with their neighbors, cells communicate their activities and orchestrate their population behaviors via quorum-sensing. Molecules that are secreted to the surrounding by the bacterial cells, act as signals and regulate the cell population behaviour. We studied P. putida’s motility in a dense population by exposing the cells to environments with different concentrations of chemical signals. We found that higher amounts of chemical signals in the surrounding influenced the single-cell behaviourr, suggesting that cell-cell communications may also affect the flagellar dynamics. In summary, this dissertation studies the dynamics of a bacterium with a multi-mode swimming tactic and how it is affected by the surrounding environment using microscopy imaging. The detailed description of the bacterial motility in fundamental bacterial processes can provide new insights into the ecology of microorganisms. N2 - Bakterien gehören zu den am weitesten verbreiteten Mikroorganismen mit einer essentiellen Bedeutung in vielen biologischen und okologischen Prozessen. Bakterien können entweder als unabhängige Individuen oder in organisierten Gemeinschaften leben. Auf dem Level einer einzelnen Zelle sind Interaktionen zwischen Bakterien, ihren Nachbarn und des umgebenden physikalischen und chemischen Umwelt die Grundlage von mikrobiellen Prozessen. Mikroskopische Bildgebungs techniken bieten attraktive und vielversprechende Möglichkeiten den Einfluß dieses Interaktionen auf die Dynamik von Bakterien zu untersuchen. Das ziel dieser Dissertation ist es, vier fundamentale bakterielle Prozesse mittels Lebendzell-Mikroskopie besser zu verstehen – die Einzelzellbewegung, die Chemotaxis, die Wechselwirkungen der Bakterien mit der Umgebung und ihre Kommunikation mit Nachbarzellen. Durch die Untersuchung dieser Prozesse konnten wir das Wissen über die bisher ungeklärten Mechanismen der bakteriellen Interaktionen erweitern. Als Erstes untersuchten wir die Fortbewegung des Bodenbakteriums Pseudomonas putida (P. putida), welches mit Hilfe eines Flagellenantriebs schwimmt und eine komplexe multi-mode Schwimmstrategie aufweist. Kürzlich wurde veröffentlich, dass P. putida mehrere unterschiedliche Schwimmmodi besitzt – die Flagellen können den Zellkörper nach vorne drücken (push) oder ziehen (pull) oder sich um ihn wickeln (wrap). Unter Verwendung einer neuen Methode, der kombinierten Phasenkontrast- und Fluoreszenzmikroskopie, konnten die Schwimmmodi (push, pull oder wrap) für jede Schwimmphase automatisch aufgenommen werden, was eine vollständige Schwimmstatistik des multi-mode Schwimmers lieferte. Weiterhin zeigte die Untersuchung von Interaktionen mit einer festen Grenzschicht eine Asymmetrie bezüglich der verschiedenen Schwimmmodi. Im Gegensatz zu push und pull, der wrapped Modus nicht durch die feste Grenzschicht beeinflusst. Diese Ergebnisse lassen vermuten, dass eine multi-mode Schwimmstrategie dem Bakterium weitere möglichkeiten bietet, sich an die Umgebungsbedingungen anzupassen. Als Nächstes haben wir bestimmt, wie P. putida in Richtung eines Lockstoffes navigiert (Chemotaxis). Wir haben herausgefunden, dass einzelne Schwimmmodi eine unterschiedliche chemotaktische Antwort in Nährstoff-gradienten zeigen. P. putida besitzt eine Asymmetrie in seiner chemotaktischen Ansprechbarkeit: der wrapped Modus (langsamer Schwimmmodus) wird vom Lockstoff beeinflusst, der push Modus (schneller Schwimmmodus) hingegen nicht. Diese Ergebnisse können als Ausgangspunkt gesehen werden, um komplexere Chemotaxisstrategien von mulit-mode Schwimmern zu verstehen, die über das bekannte Musterbeispiel Escherichia coli hinaus gehen, des nur einen schwimmmodus aufweist. schließend haben wir die Zelldynamik in dichten Kulturen untersucht. Neben den physikalischen Interaktionen mit den Nachbarzellen, kommunizieren zellen ihre Aktivitäten und organisieren ihr Populationsverhalten über quorum sensing. Moleküle, die von den Bakterienzellen in die Umgebung sekretiert werden, wirken als Signale und regulieren das Verhalten der Zellpopulation. Wir haben die Bewegung von P. putida in hoher Zelldichte untersucht, indem wir die Zellen unterschiedlichen Konzentrationen dieses Moleküle aussetzten. Wir haben festgestellt, dass größere Mengen dieser signalstoffe in der Umgebung die Einzelzelldynamik beeinflusst haben. Dies lässt uns vermuten, dass sich die Zell-Zell-Kommunikation auch auf die Flagellendynamik auswirkt. Zusammenfassend zeigt diese Dissertation mittels Mikroskopie die Dynamik von einem Bakterium mit multi-mode Schwimmstrategie und wie die umgebende Umwelt diese Dynamik beeinflußt. Die detaillierte Beschreibung der Bakterienmotilität in grundlegenden bakteriellen Prozessen kann neue Erkenntnisse für die ökologie der Mikroorganismen bringen. T2 - Bewegungsstrategien von bakteriellenmulti-mode Schwimmern KW - Single-cell motility KW - Einzelzellbewegung KW - Chemotaxis KW - Chemotaxis KW - Flagellen KW - Flagella KW - Bacteria KW - Bakterien Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-475806 ER - TY - JOUR A1 - Ali, Tahir A1 - Runge, Fabian A1 - Dutbayev, Ayan A1 - Schmuker, Angelika A1 - Solovyeva, Irina A1 - Nigrelli, Lisa A1 - Buch, Ann-Katrin A1 - Xia, Xiaojuan A1 - Ploch, Sebastian A1 - Orren, Ouria A1 - Kummer, Volker A1 - Paule, Juraj A1 - Celik, Ali A1 - Vakhrusheva, Ljudmila A1 - Gabrielyan, Ivan A1 - Thines, Marco T1 - Microthlaspi erraticum (Jord.) T. Ali et Thines has a wide distribution, ranging from the Alps to the Tien Shan JF - Flora : morphology, distribution, functional ecology of plants N2 - Microthlaspi is a predominantly Eurasian genus which also occurs in the northernmost parts of Africa (Maghreb). The most widespread species of the genus is M. perfoliatum, which can be found from Sweden to Algeria and from Portugal to China. The other species are thought to have much more confined distribution ranges, often covering only a few hundred kilometres. This is also believed for the diploid M. erraticum, which was recently re-appraised as a taxon independent from the tetra- to hexaploid M. perfoliatum. Previously, M. erraticum was believed to be present only in Central Europe, from the East of France to Slovenia. In order to gain a deeper understanding of the ecology, evolution and migration history of Microthlaspi it was the focus of the current study to investigate, if M. erraticum is present in habitats outside Central Europe, but with microclimates similar to Central Europe. It is demonstrated that M. erraticum is much more widespread than previously thought, while other lineages apart from M. perfoliatum s.str. and M. erraticum seem to have restricted distribution ranges. The latter species was observed from the Alps and their foreland, the Balkans, the mountainous areas around the Black Sea, Southern Siberia, as well as the Altai and Tien Shan mountains. This demonstrates a widespread occurrence of this easily-overlooked species. (C) 2016 Elsevier GmbH. All rights reserved. KW - Biogeography KW - Coluteocarpeae KW - Noccaea KW - Phylogeny KW - Species complex KW - Thlaspi perfoliatum Y1 - 2016 U6 - https://doi.org/10.1016/j.flora.2016.09.008 SN - 0367-2530 SN - 1618-0585 VL - 225 SP - 76 EP - 81 PB - American Chemical Society CY - Jena ER - TY - THES A1 - Alhajturki, Dema T1 - Characterization of altered inflorescence architecture in Arabidopsis thaliana BG-5 x Kro-0 hybrid T1 - Charakterisierung veränderter Blütenstandarchitektur in Arabidopsis thaliana BG-5 x Kro-0-Hybrid N2 - A reciprocal cross between two A. thaliana accessions, Kro-0 (Krotzenburg, Germany) and BG-5 (Seattle, USA), displays purple rosette leaves and dwarf bushy phenotype in F1 hybrids when grown at 17 °C and a parental-like phenotype when grown at 21 °C. This F1 temperature-dependent-dwarf-bushy phenotype is characterized by reduced growth of the primary stem together with an increased number of branches. The reduced stem growth was the strongest at the first internode. In addition, we found that a temperature switch from 21 °C to 17 °C induced the phenotype only before the formation of the first internode of the stem. Similarly, the F1 dwarf-bushy phenotype could not be reversed when plants were shifted from 17 °C to 21 °C after the first internode was formed. Metabolic analysis showed that the F1 phenotype was associated with a significant upregulation of anthocyanin(s), kaempferol(s), salicylic acid, jasmonic acid and abscisic acid. As it has been previously shown that the dwarf-bushy phenotype is linked to two loci, one on chromosome 2 from Kro-0 and one on chromosome 3 from BG-5, an artificial micro-RNA approach was used to investigate the necessary genes on these intervals. From the results obtained, it was found that two genes, AT2G14120 that encodes for a DYNAMIN RELATED PROTEIN3B and AT2G14100 that encodes a member of the Cytochrome P450 family protein CYP705A13, were necessary for the appearance of the F1 phenotype on chromosome 2. It was also discovered that AT3G61035 that encodes for another cytochrome P450 family protein CYP705A13 and AT3G60840 that encodes for a MICROTUBULE-ASSOCIATED PROTEIN65-4 on chromosome 3 were both necessary for the induction of the F1 phenotype. To prove the causality of these genes, genomic constructs of the Kro-0 candidate genes on chromosome 2 were transferred to BG-5 and genomic constructs of the chromosome 3 candidate genes from BG-5 were transferred to Kro-0. The T1 lines showed that these genes are not sufficient alone to induce the phenotype. In addition to the F1 phenotype, more severe phenotypes were observed in the F2 generations that were grouped into five different phenotypic classes. Whilst seed yield was comparable between F1 hybrids and parental lines, three phenotypic classes in the F2 generation exhibited hybrid breakdown in the form of reproductive failure. This F2 hybrid breakdown was less sensitive to temperature and showed a dose-dependent effect of the loci involved in F1 phenotype. The severest class of hybrid breakdown phenotypes was observed only in the population of backcross with the parent Kro-0, which indicates a stronger contribution of the BG-5 allele when compared to the Kro-0 allele on the hybrid breakdown phenotypes. Overall, the findings of my thesis provide a further understanding of the genetic and metabolic factors underlying altered shoot architecture in hybrid dysfunction. N2 - Die reziproke Kreuzung der zwei A. thaliana-Akzessionen Kro-0 aus Krotzenburg (Deutschland) sowie BG-5 aus Seattle (USA) manifestiert sich in einem Zwergbusch-Phänotyp in den F1 Hybriden bei 17 °C. Dagegen zeigen die Nachkommen bei 21 °C einen Phänotyp, der den Eltern ähnelt. Somit handelt es sich bei dieser Kreuzung um einen temperaturabhängigen Phänotyp. Dieser ist gekennzeichnet durch einen gestörten Wuchs des Primärstammes sowie einer vermehrten Anzahl an gebildeten Seitenzweigen. Das gestörte Wachstum des Hauptsprosses ist am gravierendsten rund um das 1. Internodium der Pflanzen. Es konnte gezeigt werden, dass durch einen Temperaturwechsel von 21 °C auf 17 °C der Phänotyp nur induziert werden kann vor der Bildung des 1. Internodiums. Im Gegenzug dazu ist ebenfalls die Rettung des parentalen Phänotyps nur möglich vor der Bildung des 1. Internodiums am Hauptspross. Des Weiteren zeigten metabolische und hormonelle Analysen der F1 Hybriden eine signifikante Erhöhung von Anthozyanen, Kaempferol, Salizylsäure, Jasmonsäure sowie Abscisinsäure. In Vorarbeiten wurde der Phänotyp bereits mit zwei verschiedenen Loci verknüpft, einer befindet sich auf Chromosom 2 der Elternlinie Kro-0, der andere auf Chromosom 3 von BG-5. Mittels eines micro-RNA Versuches konnte ich zeigen, dass die zwei Gene AT2G14120 DYNAMIN RELATED PROTEIN3B und CYP705A13, welches zur Familie des Zytochrom P450 gehört, auf dem Chromosom 2 von Kro-0 involviert sind. Auf Chromosom 3 von BG-5 gehören die Gene CYP76C8P (AT3G61035) sowie MICROTUBULE-ASSOCIATED65-4 (AT3G60840) zu den verantwortlichen Genen. Es wurden genomische Konstrukte der Kro-0-Kandidatengene auf BG-5 übertragen sowie ebenfalls genomische Konstrukte der Chr3-Kandidatengene auf Kro-0 übertragen. Die T1-Linien bewiesen keines dieser Gene als allein ausreichend. Zusätzlich zu dem F1-Phänotyp wurden in den F2-Generationen, die in fünf verschiedene phänotypische Klassen eingeteilt waren, schwerwiegendere Phänotypen beobachtet. Während die Samenausbeute zwischen F1-Hybriden und Elternlinien vergleichbar war, zeigten drei phänotypische Klassen in der F2-Generationen einen Hybridabbau in Form von Fortpflanzungsversagen. Dieser F2-Hybridabbau war weniger temperaturempfindlich und zeigte einen dosisabhängigen Effekt, basierend auf der genetischen Architektur der am F1-Phänotyp beteiligten Loci. Die schwerste Klasse von hybriden Abbauphänotypen wurde nur in der Population von Rückkreuzungen mit dem Elternteil Kro-0 beobachtet, was einen stärkeren Beitrag des BG-5-Allels im Vergleich zu dem Kro-0-Allel auf den hybriden Abbauphänotypen anzeigt. Insgesamt liefern die Ergebnisse meiner Dissertation ein weiteres Verständnis der genetischen und metabolischen Faktoren, die der veränderten Sprossarchitektur bei hybrider Dysfunktion zugrunde liegen. KW - hybrid incompatibility KW - hybride Inkompatibilität KW - hybrid breakdown KW - Hybridzerfall KW - altered shoot branching KW - veränderte Triebverzweigung Y1 - 2018 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-420934 ER - TY - BOOK A1 - Ale-Agha, Nosratollah A1 - Boyle, H. A1 - Braun, Uwe A1 - Butin, H. A1 - Jage, Horst A1 - Kummer, Volker A1 - Shin, H. T1 - Taxonomy, host range and distribution of some powdery mildew fungi (Erysiphales) N2 - Oidium pedaliacearum sp. nov. (; O. sesami, nom. inval.) and Podosphaera macrospora comb. et stat. nov. (; Sphaerotheca alpina f. macrospora) are introduced, and the taxonomy and distribution of Erysiphe celosiae is discussed. New host species and new collections of Erysiphe cruciferarum (on Cleome hassleriana), E. flexuosa (on Aesculus hippocastanum), E. hedwigii (on Viburnum carlesii), E. heraclei (on Tinguarra montana), E. cf. macleayae (on Macleaya cordata), E. prunastri (on Prunus cerasifera), E. sedi (on Sedum aff. spectabilis), E. trifolii (on Trigonella caerulea), Golovinomyces cichoracearum (on Argyranthemum pinnatifidum subsp. succulentum), G. cf. hydrophyllacearum (on Nemophila menziesii), G. orontii (on Nolana spp.), G. cf. orontii (on Tiarella cordifolia), Neoerysiphe cumminsiana (on Bidens cf. ferulifolia), Oidium clitoriae (on Clitoria ternatea), O. cf. hortensiae (on Philadelphus coronarius), O. pedilanthi (on Pedilanthus tithymaloides), Oidium (Pseudoidium) sp. (on Utricularia alpina), Podosphaera sp. (on Bergia capensis), Sawadaea bicornis (on Acer platanoides) and S. tulasnei (on Acer ginnala and A. tatarica) are recorded from France, Germany, Greece and Mexico. Y1 - 2008 ER - TY - JOUR A1 - Ale-Agha, Nosratollah A1 - Bolay, Adrien A1 - Braun, Uwe A1 - Jage, Horst A1 - Kummer, Volker A1 - Lebeda, Ales A1 - Piatek, Marcin A1 - Shin, Hyeon-Dong A1 - Zimmermannova-Pastircakova, Katarina T1 - Erysiphe catalpae and E. elevata in Europe Y1 - 2004 ER - TY - THES A1 - Albus, Christin Anne T1 - Identifizierung und Charakterisierung neuer Proteine mit Funktionen in der Biogenese des Photosyntheseapparates Y1 - 2010 CY - Potsdam ER - TY - JOUR A1 - Albrecht, Tanja A1 - Koch, Anke A1 - Lode, Anja A1 - Greve, Burkhard A1 - Schneider-Mergener, Jens A1 - Steup, Martin T1 - Plastidic (Pho1-type) phosphorylase isoforms in potato (Solanum tuberosum L.) plants : expression analysis and immunochemical characterization Y1 - 2001 ER - TY - JOUR A1 - Albrecht, Tanja A1 - Haebel, Sophie A1 - Koch, Anke A1 - Krause, Ulrike A1 - Eckermann, Nora A1 - Steup, Martin T1 - Yeast glycogenin (Glg2p) produced in Escherichia coli is simultaneously glucosylated at two vicinal tyrosin residues but results in a reduced bacterial glycogen accumulation N2 - Saccharomyces cerevisiae possesses two glycogenin isoforms (designated as Glg1p and Glg2p) that both contain a conserved tyrosine residue, Tyr232. However, Glg2p possesses an additional tyrosine residue, Tyr230 and therefore two potential autoglucosylation sites. Glucosylation of Glg2p was studied using both matrix-assisted laser desorption ionization and electrospray quadrupole time of flight mass spectrometry. Glg2p, carrying a C-terminal (His(6)) tag, was produced in Escherichia coli and purified. By tryptic digestion and reversed phase chromatography a peptide (residues 219-246 of the complete Glg2p sequence) was isolated that contained 4-25 glucosyl residues. Following incubation of Glg2p with UDPglucose, more than 36 glucosyl residues were covalently bound to this peptide. Using a combination of cyanogen bromide cleavage of the protein backbone, enzymatic hydrolysis of glycosidic bonds and reversed phase chromatography, mono- and diglucosylated peptides having the sequence PNYGYQSSPAM were generated. MS/MS spectra revealed that glucosyl residues were attached to both Tyr232 and Tyr230 within the same peptide. The formation of the highly glucosylated eukaryotic Glg2p did not favour the bacterial glycogen accumulation. Under various experimental conditions Glg2p-producing cells accumulated approximately 30% less glycogen than a control transformed with a Glg2p lacking plasmid. The size distribution of the glycogen and extractable activities of several glycogen-related enzymes were essentially unchanged. As revealed by high performance anion exchange chromatography, the intracellular maltooligosaccharide pattern of the bacterial cells expressing the functional eukaryotic transgene was significantly altered. Thus, the eukaryotic glycogenin appears to be incompatible with the bacterial initiation of glycogen biosynthesis Y1 - 2004 ER - TY - JOUR A1 - Albrecht, Tanja A1 - Greve, Burkhard A1 - Pusch, Kerstin A1 - Koßmann, Jens A1 - Buchner, Peter A1 - Wobus, Ulrich A1 - Steup, Martin T1 - Homo- and Heterodimers of Pho1-Type Phosphorylase Isoforms in Solanum tuberosum L. as Revealed by Sequence- Specific Antibodies Y1 - 1998 ER - TY - THES A1 - Albrecht, Tanja T1 - Quartärstruktur, Funktion und Lokation der Pho 1-Phosphorylasen aus Solanum tuberosum L. Y1 - 1998 CY - Potsdam ER - TY - JOUR A1 - Alberti, Federica A1 - Gonzalez, Javier A1 - Paijmans, Johanna L. A. A1 - Basler, Nikolas A1 - Preick, Michaela A1 - Henneberger, Kirstin A1 - Trinks, Alexandra A1 - Rabeder, Gernot A1 - Conard, Nicholas J. A1 - Muenzel, Susanne C. A1 - Joger, Ulrich A1 - Fritsch, Guido A1 - Hildebrandt, Thomas A1 - Hofreiter, Michael A1 - Barlow, Axel T1 - Optimized DNA sampling of ancient bones using Computed Tomography scans JF - Molecular ecology resources N2 - The prevalence of contaminant microbial DNA in ancient bone samples represents the principal limiting factor for palaeogenomic studies, as it may comprise more than 99% of DNA molecules obtained. Efforts to exclude or reduce this contaminant fraction have been numerous but also variable in their success. Here, we present a simple but highly effective method to increase the relative proportion of endogenous molecules obtained from ancient bones. Using computed tomography (CT) scanning, we identify the densest region of a bone as optimal for sampling. This approach accurately identifies the densest internal regions of petrous bones, which are known to be a source of high-purity ancient DNA. For ancient long bones, CT scans reveal a high-density outermost layer, which has been routinely removed and discarded prior to DNA extraction. For almost all long bones investigated, we find that targeted sampling of this outermost layer provides an increase in endogenous DNA content over that obtained from softer, trabecular bone. This targeted sampling can produce as much as 50-fold increase in the proportion of endogenous DNA, providing a directly proportional reduction in sequencing costs for shotgun sequencing experiments. The observed increases in endogenous DNA proportion are not associated with any reduction in absolute endogenous molecule recovery. Although sampling the outermost layer can result in higher levels of human contamination, some bones were found to have more contamination associated with the internal bone structures. Our method is highly consistent, reproducible and applicable across a wide range of bone types, ages and species. We predict that this discovery will greatly extend the potential to study ancient populations and species in the genomics era. KW - ancient DNA KW - computer tomography KW - palaeogenomics KW - paleogenetics KW - petrous bone Y1 - 2018 U6 - https://doi.org/10.1111/1755-0998.12911 SN - 1755-098X SN - 1755-0998 VL - 18 IS - 6 SP - 1196 EP - 1208 PB - Wiley CY - Hoboken ER - TY - JOUR A1 - Albert, Cécile H. A1 - Grassein, Fabrice A1 - Schurr, Frank Martin A1 - Vieilledent, Ghislain A1 - Violle, Cyrille T1 - When and how should intraspecific variability be considered in trait-based plant ecology? JF - Perspectives in plant ecology, evolution and systematics N2 - Trait-based studies have become extremely common in plant ecology. Trait-based approaches often rely on the tacit assumption that intraspecific trait variability (ITV) is negligible compared to interspecific variability, so that species can be characterized by mean trait values. Yet, numerous recent studies have challenged this assumption by showing that ITV significantly affects various ecological processes. Accounting for ITV may thus strengthen trait-based approaches, but measuring trait values on a large number of individuals per species and site is not feasible. Therefore, it is important and timely to synthesize existing knowledge on ITV in order to (1) decide critically when ITV should be considered, and (2) establish methods for incorporating this variability. Here we propose a practical set of rules to identify circumstances under which ITV should be accounted for. We formulate a spatial trait variance partitioning hypothesis to highlight the spatial scales at which ITV cannot be ignored in ecological studies. We then refine a set of four consecutive questions on the research question, the spatial scale, the sampling design, and the type of studied traits, to determine case-by-case if a given study should quantify ITV and test its effects. We review methods for quantifying ITV and develop a step-by-step guideline to design and interpret simulation studies that test for the importance of ITV. Even in the absence of quantitative knowledge on ITV, its effects can be assessed by varying trait values within species within realistic bounds around the known mean values. We finish with a discussion of future requirements to further incorporate ITV within trait-based approaches. This paper thus delineates a general framework to account for ITV and suggests a direction towards a more quantitative trait-based ecology. KW - Comparative ecology KW - Functional ecology KW - Genetic variability KW - Intraspecific functional variability KW - Phenotypic plasticity KW - Plant functional hairs KW - Within-species variability Y1 - 2011 U6 - https://doi.org/10.1016/j.ppees.2011.04.003 SN - 1433-8319 VL - 13 IS - 3 SP - 217 EP - 225 PB - Elsevier CY - Jena ER - TY - JOUR A1 - Albert, Aurelie A1 - Auffret, Alistair G. A1 - Cosyns, Eric A1 - Cousins, Sara A. O. A1 - Eichberg, Carsten A1 - Eycott, Amy E. A1 - Heinken, Thilo A1 - Hoffmann, Maurice A1 - Jaroszewicz, Bogdan A1 - Malo, Juan E. A1 - Marell, Anders A1 - Mouissie, Maarten A1 - Pakeman, Robin J. A1 - Picard, Melanie A1 - Plue, Jan A1 - Poschlod, Peter A1 - Provoost, Sam A1 - Schulze, Kiowa Alraune A1 - Baltzinger, Christophe T1 - Seed dispersal by ungulates as an ecological filter: a trait-based meta-analysis JF - Oikos N2 - Plant communities are often dispersal-limited and zoochory can be an efficient mechanism for plants to colonize new patches of potentially suitable habitat. We predicted that seed dispersal by ungulates acts as an ecological filter - which differentially affects individuals according to their characteristics and shapes species assemblages - and that the filter varies according to the dispersal mechanism (endozoochory, fur-epizoochory and hoof-epizoochory). We conducted two-step individual participant data meta-analyses of 52 studies on plant dispersal by ungulates in fragmented landscapes, comparing eight plant traits and two habitat indicators between dispersed and non-dispersed plants. We found that ungulates dispersed at least 44% of the available plant species. Moreover, some plant traits and habitat indicators increased the likelihood for plant of being dispersed. Persistent or nitrophilous plant species from open habitats or bearing dry or elongated diaspores were more likely to be dispersed by ungulates, whatever the dispersal mechanism. In addition, endozoochory was more likely for diaspores bearing elongated appendages whereas epizoochory was more likely for diaspores released relatively high in vegetation. Hoof-epizoochory was more likely for light diaspores without hooked appendages. Fur-epizoochory was more likely for diaspores with appendages, particularly elongated or hooked ones. We thus observed a gradient of filtering effect among the three dispersal mechanisms. Endozoochory had an effect of rather weak intensity (impacting six plant characteristics with variations between ungulate-dispersed and non-dispersed plant species mostly below 25%), whereas hoof-epizoochory had a stronger effect (eight characteristics included five ones with above 75% variation), and fur-epizoochory an even stronger one (nine characteristics included six ones with above 75% variation). Our results demonstrate that seed dispersal by ungulates is an ecological filter whose intensity varies according to the dispersal mechanism considered. Ungulates can thus play a key role in plant community dynamics and have implications for plant spatial distribution patterns at multiple scales. Y1 - 2015 U6 - https://doi.org/10.1111/oik.02512 SN - 0030-1299 SN - 1600-0706 VL - 124 IS - 9 SP - 1109 EP - 1120 PB - Wiley-Blackwell CY - Hoboken ER - TY - JOUR A1 - Albers, Philip A1 - Üstün, Suayib A1 - Witzel, Katja A1 - Kraner, Max Erdmund A1 - Börnke, Frederik T1 - A Remorin from Nicotiana benthamiana Interacts with the Pseudomonas Type-III Effector Protein HopZ1a and is Phosphorylated by the Immune-Related Kinase PBS1 JF - Molecular Plant-Microbe Interactions N2 - The plasma membrane (PM) is at the interface of plant-pathogen interactions and, thus, many bacterial type-III effector (T3E) proteins target membrane-associated processes to interfere with immunity. The Pseudomonas syringae T3E HopZ1a is a host cell PM-localized effector protein that has several immunity-associated host targets but also activates effector-triggered immunity in resistant backgrounds. Although HopZ1a has been shown to interfere with early defense signaling at the PM, no dedicated PM-associated HopZ1a target protein has been identified until now. Here, we show that HopZ1a interacts with the PM-associated remorin protein NbREM4 from Nicotiana benthamiana in several independent assays. NbREM4 relocalizes to membrane nanodomains after treatment with the bacterial elicitor flg22 and transient overexpression of NbREM4 in N. benthamiana induces the expression of a subset of defense-related genes. We can further show that NbREM4 interacts with the immune-related receptor-like cytoplasmic kinase avrPphB-susceptible 1 (PBS1) and is phosphorylated by PBS1 on several residues in vitro. Thus, we conclude that NbREM4 is associated with early defense signaling at the PM. The possible relevance of the HopZ1a-NbREM4 interaction for HopZ1a virulence and avirulence functions is discussed. KW - bacterial pathogenesis KW - defense signaling pathways KW - effectors KW - elicitors KW - HopZ1a KW - MAMPs KW - PAMPs KW - PBS1 KW - Pseudomonas syringae KW - remorin KW - type-3 secretion Y1 - 2019 U6 - https://doi.org/10.1094/MPMI-04-19-0105-R SN - 0894-0282 SN - 1943-7706 VL - 32 IS - 9 SP - 1229 EP - 1242 PB - Amer phytopathological SOC CY - ST Paul ER - TY - GEN A1 - Albers, Philip A1 - Uestuen, Suayib A1 - Witzel, Katja A1 - Bornke, Frederik T1 - Identification of a novel target of the bacterial effector HopZ1a T2 - Phytopathology N2 - The plant pathogen Pseudomonas syringae is a gram-negative bacterium which infects a wide range of plant species including important crops plants. To suppress plant immunity and cause disease P.syringae injects type-III effector proteins (T3Es) into the plant cell cytosol. In this study, we identified a novel target of the well characterized bacterial T3E HopZ1a. HopZ1a is an acetyltransferase that was shown to disrupt vesicle transport during innate immunity by acetylating tubulin. Using a yeast-two-hybrid screen approach, we identified a REMORIN (REM) protein from tobacco as a novel HopZ1a target. HopZ1a interacts with REM at the plasma membrane (PM) as shown by split-YFP experiments. Interestingly, we found that PBS1, a well-known kinase involved in plant immunity also interacts with REM in pull-down assays, and at the PM as shown by BiFC. Furthermore, we confirmed that REM is phosphorylated by PBS1 in vitro. Overexpression of REM provokes the upregulation of defense genes and leads to disease-like phenotypes pointing to a role of REM in plant immune signaling. Further protein-protein interaction studies reveal novel REM binding partners with a possible role in plant immune signaling. Thus, REM might act as an assembly hub for an immune signaling complex targeted by HopZ1a. Taken together, this is the first report describing that a REM protein is targeted by a bacterial effector. How HopZ1a might mechanistically manipulate the plant immune system through interfering with REM function will be discussed. Y1 - 2018 SN - 0031-949X SN - 1943-7684 VL - 108 IS - 10 PB - American Phytopathological Society CY - Saint Paul ER - TY - THES A1 - Albers, Philip T1 - Funktionelle Charakterisierung des bakteriellen Typ-III Effektorproteins HopZ1a in Nicotiana benthamiana T1 - Functional characterization of the bacterial type-III effector protein HopZ1a in Nicotiana benthamiana N2 - Um das Immunsystem der Pflanze zu manipulieren translozieren gram-negative pathogene Bakterien Typ-III Effektorproteine (T3E) über ein Typ-III Sekretionssystem (T3SS) in die pflanzliche Wirtszelle. Dort lokalisieren T3Es in verschiedenen subzellulären Kompartimenten, wo sie Zielproteine modifizieren und so die Infektion begünstigen. HopZ1a, ein T3E des Pflanzenpathogens Pseudomonas syringae pv. syringae, ist eine Acetyltransferase und lokalisiert über ein Myristolierungsmotiv an der Plasmamembran der Wirtszelle. Obwohl gezeigt wurde, dass HopZ1a die frühe Signalweiterleitung an der Plasmamembran stört, wurde bisher kein mit der Plasmamembran assoziiertes Zielprotein für diesen T3E identifiziert. Um bisher unbekannte HopZ1a-Zieleproteine zu identifizieren wurde im Vorfeld dieser Arbeit eine Hefe-Zwei-Hybrid-Durchmusterung mit einer cDNA-Bibliothek aus Tabak durchgeführt, wobei ein nicht näher charakterisiertes Remorin als Interaktor gefunden wurde. Bei dem Remorin handelt es sich um einen Vertreter der Gruppe 4 der Remorin-Familie, weshalb es in NbREM4 umbenannt wurde. Durch den Einsatz verschiedener Interaktionsstudien konnte demonstriert werden, dass HopZ1a mit NbREM4 in Hefe, in vitro und in planta wechselwirkt. Es wurde ferner deutlich, dass HopZ1a auf spezifische Weise mit dem konservierten C-Terminus von NbREM4 interagiert, das Remorin jedoch in vitro nicht acetyliert. Analysen mittels BiFC haben zudem ergeben, dass NbREM4 in Homodimeren an der Plasmamembran lokalisiert, wo auch die Interaktion mit HopZ1a stattfindet. Eine funktionelle Charakterisierung von NbREM4 ergab, dass das Remorin eine spezifische Rolle im Immunsystem der Pflanze einnimmt. Die transiente Expression in N. benthamiana induziert die Expression von Abwehrgenen sowie einen veränderten Blattphänotyp. In A. thaliana wird HopZ1a über das Decoy ZED1 und das R-Protein ZAR1 erkannt, was zur Auslösung einer starken Hypersensitiven Antwort (HR von hypersensitive response) führt. Es konnte im Rahmen dieser Arbeit gezeigt werden, dass ZAR1 in N. benthamiana konserviert ist, NbREM4 jedoch nicht in der ETI als Decoy fungiert. Mit Hilfe einer Hefe-Zwei-Hybrid-Durchmusterung mit NbZAR1 als Köder konnten zwei Proteine, die Catalase CAT1 und der Protonenpumpeninteraktor PPI1, als Interaktoren von NbZAR1 identifiziert werden, welche möglicherweise in der Regulation der HR eine Rolle spielen. Aus Voruntersuchungen war bekannt, dass NbREM4 mit weiteren, nicht näher charakterisierten Proteinen aus Tabak interagieren könnte. Eine phylogenetische Einordnung hat gezeigt, dass es sich um die bekannte Immun-Kinase PBS1 sowie zwei E3-Ubiquitin-Ligasen, NbSINA1 und NbSINAL3, handelt. PBS1 interagiert mit NbREM4 an der Plasmamembran und phosphoryliert das Remorin innerhalb des intrinsisch ungeordneten N-Terminus. Mittels Massenspektrometrie konnten die Serine an Position 64 und 65 innerhalb der Aminosäuresequenz von NbREM4 als PBS1-abhängige Phosphorylierungsstellen identifiziert wurden. NbSINA1 und NbSINAL3 besitzen in vitro Ubiquitinierungsaktivität, bilden Homo- und Heterodimere und interagieren ebenfalls mit dem N-terminalen Teil von NbREM4, wobei sie das Remorin in vitro nicht ubiquitinieren. Aus den in dieser Arbeit gewonnenen Ergebnissen lässt sich ableiten, dass der bakterielle T3E HopZ1a gezielt mit dem Tabak-Remorin NbREM4 an der Plasmamembran interagiert und über einen noch unbekannten Mechanismus mit dem Immunsystem der Pflanze interferiert, wobei NbREM4 möglicherweise eine Rolle als Adapter- oder Ankerprotein zukommt, über welches HopZ1a mit weiteren Immunkomponenten interagiert. NbREM4 ist Teil eines größeren Immunnetzwerkes, zu welchem die bekannte Immun-Kinase PBS1 und zwei E3-Ubiquitin-Ligasen gehören. Mit NbREM4 konnte damit erstmalig ein membranständiges Protein mit einer Funktion im Immunsystem der Pflanze als Zielprotein von HopZ1a identifiziert werden. N2 - In order to manipulate the plant's immune system, gram-negative pathogenic bacteria inject type-III effector proteins (T3E) via a type III secretion system (T3SS) into the plant host cell. Inside the cell, T3Es localize to different subcellular compartments, where they modify target proteins and thereby promote the infection. HopZ1a, a T3E of the plant pathogen Pseudomonas syringae pv. syringae is an acetyltransferase and localizes to the plasma membrane. Although it has been shown that HopZ1a interferes with early signal transduction at the plasma membrane, no dedicated plasma membrane-associated target protein has been identified so far. To identify unknown HopZ1a target proteins, a yeast two-hybrid screening using a cDNA library from tobacco was performed in advance of this work. The screen identified a previously uncharacterized remorin-family protein as a putative interactor of HopZ1a. Using phylogenetic analyses, the remorin could be classified as a group 4 remorin family member and therefore was renamed NbREM4. By using different interaction studies, it has could be demonstrated that HopZ1a interacts with NbREM4 in yeast, in vitro, and in planta. It also became evident that HopZ1a specifically interacts with the conserved C-terminus of NbREM4 but does not acetylate it. BiFC analyses showed that NbREM4 localizes in homodimers at the plasma membrane, and NbREM4 interacts with HopZ1a in this subcellular compartment. From preliminary studies it was known that NbREM4 may interact with other uncharacterized proteins from tobacco. A phylogenetic analysis revealed the immune kinase NbPBS1 and two E3 ubiquitin ligases, NbSINA1 and NbSINAL3, as putative NbREM4 interacting proteins. Analysis showed that NbPBS1 interacts with NbREM4 at the plasma membrane and phosphorylates the Remorin within the intrinsically disordered N-terminus. By means of mass spectrometry, serines at position 64 and 65 within the amino acid sequence of NbREM4 were identified as PBS1-dependent phosphorylation sites. NbSINA1 and NbSINAL3 have in vitro ubiquitination activity and also interact with the N-terminal part of NbREM4, but do not ubiquitinate it. It has already been shown that, in Arabidopsis thaliana, HopZ1a is recognized by the R protein ZAR1. In the presence of the effector, ZAR1 induces a strong hypersensitive response (HR) of the cell. In this study it could be confirmed that ZAR1 is conserved in Nicotiana benthamiana and is also responsible for the recognition of HopZ1a. In addition, a yeast two-hybrid screen revealed the catalase CAT1 and the proton pump interactor PPI1 as putative NbZAR1-interacting proteins, possibly contributing to the downstream activation of HR. From the results obtained in this work, it can be deduced that the bacterial T3E HopZ1a specifically interacts with the Remorin NbREM4 at the plasma membrane and interferes with the immune system via a yet unknown mechanism. NbREM4 is part of a larger immune network that includes NbPBS1 and two E3 ligases. With NbREM4, the first membrane-associated target protein of HopZ1a could have been identified. KW - Pseudomonas syringae KW - Remorin KW - HopZ1a KW - PBS1 KW - pflanzliches Immunsystem KW - Pseudomonas syringae KW - Remorin KW - HopZ1a KW - PBS1 KW - plant immune system Y1 - 2018 ER - TY - THES A1 - AL-Rawi, Shadha T1 - Biochemical studies to determine the role of Early Starvation 1 (ESV1) protein and its homologue Like-Early Starvation 1 (LESV) during starch degradation N2 - Depending on the biochemical and biotechnical approach, the aim of this work was to understand the mechanism of protein-glucan interactions in regulation and control of starch degradation. Although starch degradation starts with the phosphorylation process, the mechanisms by which this process is controlling and adjusting starch degradation are not yet fully understood. Phosphorylation is a major process performed by the two dikinases enzymes α-glucan, water dikinase (GWD) and phosphoglucan water dikinase (PWD). GWD and PWD enzymes phosphorylate the starch granule surface; thereby stimulate starch degradation by hydrolytic enzymes. Despite these important roles for GWD and PWD, so far the biochemical processes by which these enzymes are able to regulate and adjust the rate of phosphate incorporation into starch during the degradation process haven‘t been understood. Recently, some proteins were found associated with the starch granule. Two of these proteins are named Early Starvation Protein 1 (ESV1) and its homologue Like-Early Starvation Protein 1 (LESV). It was supposed that both are involved in the control of starch degradation, but their function has not been clearly known until now. To understand how ESV1 and LESV-glucan interactions are regulated and affect the starch breakdown, it was analyzed the influence of ESV1 and LESV proteins on the phosphorylating enzyme GWD and PWD and hydrolysing enzymes ISA, BAM, and AMY. However, the analysis determined the location of LESV and ESV1 in the chloroplast stroma of Arabidopsis. Mass spectrometry data predicted ESV1and LESV proteins as a product of the At1g42430 and At3g55760 genes with a predicted mass of ~50 kDa and ~66 kDa, respectively. The ChloroP program predicted that ESV1 lacks the chloroplast transit peptide, but it predicted the first 56 amino acids N-terminal region as a chloroplast transit peptide for LESV. Usually, the transit peptide is processed during transport of the proteins into plastids. Given that this processing is critical, two forms of each ESV1 and LESV were generated and purified, a full-length form and a truncated form that lacks the transit peptide, namely, (ESV1and tESV1) and (LESV and tLESV), respectively. Both protein forms were included in the analysis assays, but only slight differences in glucan binding and protein action between ESV1 and tESV1 were observed, while no differences in the glucan binding and effect on the GWD and PWD action were observed between LESV and tLESV. The results revealed that the presence of the N-terminal is not massively altering the action of ESV1 or LESV. Therefore, it was only used the ESV1 and tLESV forms data to explain the function of both proteins. However, the analysis of the results revealed that LESV and ESV1 proteins bind strongly at the starch granule surface. Furthermore, not all of both proteins were released after their incubation with starches after washing the granules with 2% [w/v] SDS indicates to their binding to the deeper layers of the granule surface. Supporting of this finding comes after the binding of both proteins to starches after removing the free glucans chains from the surface by the action of ISA and BAM. Although both proteins are capable of binding to the starch structure, only LESV showed binding to amylose, while in ESV1, binding was not observed. The alteration of glucan structures at the starch granule surface is essential for the incorporation of phosphate into starch granule while the phosphorylation of starch by GWD and PWD increased after removing the free glucan chains by ISA. Furthermore, PWD showed the possibility of starch phosphorylation without prephosphorylation by GWD. Biochemical studies on protein-glucan interactions between LESV or ESV1 with different types of starch showed a potentially important mechanism of regulating and adjusting the phosphorylation process while the binding of LESV and ESV1 leads to altering the glucan structures of starches, hence, render the effect of the action of dikinases enzymes (GWD and PWD) more able to control the rate of starch degradation. Despite the presence of ESV1 which revealed an antagonistic effect on the PWD action as the PWD action was decreased without prephosphorylation by GWD and increased after prephosphorylation by GWD (Chapter 4), PWD showed a significant reduction in its action with or without prephosphorylation by GWD in the presence of ESV1 whether separately or together with LESV (Chapter 5). However, the presence of LESV and ESV1 together revealed the same effect compared to the effect of each one alone on the phosphorylation process, therefore it is difficult to distinguish the specific function between them. However, non-interactions were detected between LESV and ESV1 or between each of them with GWD and PWD or between GWD and PWD indicating the independent work for these proteins. It was also observed that the alteration of the starch structure by LESV and ESV1 plays a role in adjusting starch degradation rates not only by affecting the dikinases but also by affecting some of the hydrolysing enzymes since it was found that the presence of LESV and ESV1leads to the reduction of the action of BAM, but does not abolish it. N2 - Ziel dieser Arbeit war es, den Mechanismus der Protein-Glucan-Wechselwirkungen bei der Regulation und Kontrolle des Stärkeabbaus zu verstehen. Der Stärkeabbau beginnt mit dem Phosphorylierungsprozess, der von den beiden Dikinasen, der a-Glucan, Wasserdikinase (GWD) und der Phosphoglucanwasserdikinase (PWD) durchgeführt wird. Kürzlich wurden einige Proteine gefunden, die mit dem Stärkegranulum assoziiert sind. Zwei dieser Proteine heißen Early Starvation 1 (ESV1) und das Homolog Like-Early Starvation (LESV), Es wurde vorgeschlagen, dass beide an der Kontrolle des Stärkeabbaus beteiligt sind, aber ihre Funktion ist bisher nicht bekannt. Um zu verstehen, wie ESV1- und LESV-Glucan-Wechselwirkungen reguliert werden und den Stärkeabbau beeinflussen, wurde der Einfluss der beiden Proteine auf die Phosphorylierungsenzyme GWD und PWD, sowie die Hydrolasen isoamylase, betaamylase, und alpha-amylase ntersucht. Dabei ergab die Analyse, dass LESV und ESV1 nicht nur stark an der Oberfläche, sondern auch in den tieferen Schichten der Stärkegranula binden. Obwohl beide Proteine in der Lage sind, an die Stärkestruktur zu binden, zeigte nur LESV eine Bindung an Amylose, während für ESV1 keine Bindung beobachtet werden konnte. Die Veränderung der Glucanstrukturen an der Oberfläche der Stärkekörner ist für den Einbau von Phosphat wesentlich, so nahm beispielsweise die Phosphorylierung der Stärke durch GWD und PWD nach Entfernung der freien Glucanketten mittels ISA zu. Darüber hinaus konnte ebenso gezeigt werden, dass PWD auch ohne eine Präphosphorylierung durch GWD die Glucosyleinheiten innerhalb der Stärke phosphorylieren kann. Die Bindung von LESV und ESV1 führt zu einer Veränderung der Glucanstrukturen von Stärken, wodurch die Aktivität der Dikinasen (GWD und PWD) und somit die Geschwindigkeit des Stärkeabbaus wahrscheinlich besser gesteuert werden kann. Es wurden keine Wechselwirkungen zwischen LESV und ESV1 oder zwischen jedem von ihnen mit GWD und PWD oder zwischen GWD und PWD festgestellt, was auf die unabhängige Arbeit von diesen Proteinen hinweist. Es wurde auch beobachtet, dass die Modifikation der Stärkestruktur durch LESV und ESV1 eine Rolle bei der Anpassung der Stärkeabbauraten spielt, nicht nur durch Beeinflussung der Dikinasen, sondern auch durch die Beeinflussung einiger hydrolysierender Enzyme wie BAM. Den so zeigte die Amylase eine eindeutige Reduktion ihrer katalytischen Wirkung in Präsenz von LESV und ESV1. Daraus resumierend kann davon ausgegangen werden, dass die beiden Proteine ESV1 und LESV für die Feinregulation des Stärkeabbaus von höchster Relevanz sind. T2 - Biochemische Studien zur Bestimmung der Rolle des ESV1-Proteins (Early Starvation 1) und seines Homologen Like-Early Starvation 1 (LESV) während des Stärkeabbaus KW - Early starvation protein KW - Like-Early starvation protein KW - Glucan water dikinase KW - Phosphoglucan water dikinase KW - Phosphorylation process KW - Starch metabolism KW - Early Starvation 1 KW - Glucan-Wasser-Dikinase KW - Like-Early Starvation 1 KW - Phosphoglucan-Wasser-Dikinase KW - Phosphorylierungsprozess KW - Stärkestoffwechsel Y1 - 2020 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-483956 ER - TY - THES A1 - Al Fadel, Frdoos T1 - Influence of sphingosine 1-phosphate and its receptor modulators on the development of liver fibrosis Y1 - 2018 ER - TY - JOUR A1 - Aksu, Yilmaz A1 - Frasca, Stefano A1 - Wollenberger, Ursula A1 - Driess, Matthias A1 - Thomas, Arne T1 - A molecular precursor approach to tunable porous tin-rich indium tin oxide with durable high electrical conductivity for bioelectronic devices JF - Chemistry of materials : a publication of the American Chemical Society N2 - The preparation of porous, i.e., high surface area electrodes from transparent conducting oxides, is a valuable goal in materials chemistry as such electrodes can enable further development of optoelectronic, electrocatalytic, or bioelectronic devices. In this work the first tin-rich mesoporous indium tin oxide is prepared using the molecular heterobimetallic single-source precursor, indium tin tris-tert-butoxide, together with an appropriate structure-directing template, yielding materials with high surface areas and tailorable pore size. The resulting mesoporous tin-rich ITO films show a high and durable electrical conductivity and transparency, making them interesting materials for hosting electroactive biomolecules such as proteins. In fact, its unique performance in bioelectronic applications has been demonstrated by immobilization of high amounts of cytochrome c into the mesoporous film which undergo redox processes directly with the conductive electrode material. KW - indium tin oxide ITO KW - electrode KW - bioelectrochemistry KW - device KW - cytochrome c Y1 - 2011 U6 - https://doi.org/10.1021/cm103087p SN - 0897-4756 VL - 23 IS - 7 SP - 1798 EP - 1804 PB - American Chemical Society CY - Washington ER -