Self-assembly and Structure Investigation of Recombinant S-layer Proteins Expressed in Yeast for Nanobiotechnological Applications

Korkmaz, Nuriye

24 January 2011

In numerous Gram-negative and Gram-positive bacteria as well as in Archaea SL proteins form the outermost layer of the cell envelope. SL (glyco)monomers self-assemble with oblique (p2), tetragonal (p4), or hexagonal (p3, p6) symmetries [12]. SL subunits interact with each other and with the underlying cell surface by relatively weak non-covalent forces such as hydrogen-bonds, ionic bonds, salt-bridges or hydrophobic interactions. This makes them easy to isolate by applying chaotropic agents like urea and guanidine hydrochloride (GuHCl), chelating chemicals, or by changing the pH of the environment [10]. Upon dialysis in an ambient buffer monomers recrystallize into regular arrays that possess the forms of flat sheets, open ended cylinders, or spheres on solid substrates, at air-water intefaces and on lipid films, making them appealing for nanobiotechnological applications [3, 18]. The aim of this study was to investigate the structure, thermal stability, in vivo self-assembly process, recrystallization and metallization of three different recombinant SL proteins (SslA-eGFP, mSbsC-eGFP and S13240-eGFP) expressed in yeast S. cerevisiae BY4741 which could be further used in nanobiotechnological applications. In order to fulfill this aim, I investigated the in vivo expression of SL proteins (SslA, SbsC, S13240) tagged with eGFP (SL-eGFP) in the yeast S. cerevisiae BY4141. First, I characterized the heterologous expression of SL fusion constructs with growth and fluorescence measurements combined with Western blot analyses. Fluorescence microscopy investigations of overnight grown cultures showed that SslA-eGFP fusion protein was expressed as fluorescent patches, mSbsC-eGFP as tubular networks, and S13240-eGFP as hollow-like fibrillar network structures, while eGFP did not show any distinct structure Thermal stability of in vivo expressed SL-eGFP fusion proteins were investigated by fluorescence microscopy and immunodetection. In vivo self-assembly kinetics during mitosis and meiosis was the second main issue. In parallel, association of in vivo mSbsC-eGFP structures with the cellular components was of interest. A network of tubular structures in the cytosol of the transformed yeast cells that did not colocalize with microtubules or the actin cytoskeleton was observed. Time-resolved analysis of the formation of these structures during vegetative growth and sporulation was investigated by live fluorescence microscopy. While in meiosis ascospores seemed to receive assembled structures from the diploid cells, during mitosis surface layer structures were formed de novo in the buds. Surface layer assembly always started with the appearance of a dot-like structure in the cytoplasm, suggesting a single nucleation point. In order to get these in vivo SL assemblies stably outside the cells (in situ), cell distruption experiments were conducted. The tubular structures formed by the protein in vivo were retained upon bursting the cells by osmotic shock; however their average length was decreased. During dialysis, monomers obtained by treatment with chaotropic agents recrystallized again to form tube-like structures. This process was strictly dependent on calcium ions, with an optimal concentration of 10 mM. Further increase of the Ca2+ concentration resulted in multiple non-productive nucleation points. It was further shown that the lengths of the S-layer assemblies increased with time and could be controlled by pH. After 48 hours the average length at pH 9.0 was 4.13 µm compared to 2.69 µm at pH 5.5. Successful chemical deposition of platinum indicates the potential of recrystallized mSbsC-eGFP structures for nanobiotechnological applications. For example, such metalized protein nanotubes could be used in conductive nanocircuit technologies as nanowires.

S-Schicht

eGFP

Hefe

Fluoreszenzmikroskopie

Rekristallisation

Metallisierung

Nanobiotechnologie

S-layer

eGFP

Yeast

Fluorescence microscopy

Recrystallization

Metallization

Nanobiotechnology

ddc:570

rvk:WG 2100

Self-assembly and Structure Investigation of Recombinant S-layer Proteins Expressed in Yeast for Nanobiotechnological Applications: Self-assembly and Structure Investigation of Recombinant S-layer Proteins Expressed in Yeast for Nanobiotechnological Applications

Korkmaz, Nuriye

22 December 2010

In numerous Gram-negative and Gram-positive bacteria as well as in Archaea SL proteins form the outermost layer of the cell envelope. SL (glyco)monomers self-assemble with oblique (p2), tetragonal (p4), or hexagonal (p3, p6) symmetries [12]. SL subunits interact with each other and with the underlying cell surface by relatively weak non-covalent forces such as hydrogen-bonds, ionic bonds, salt-bridges or hydrophobic interactions. This makes them easy to isolate by applying chaotropic agents like urea and guanidine hydrochloride (GuHCl), chelating chemicals, or by changing the pH of the environment [10]. Upon dialysis in an ambient buffer monomers recrystallize into regular arrays that possess the forms of flat sheets, open ended cylinders, or spheres on solid substrates, at air-water intefaces and on lipid films, making them appealing for nanobiotechnological applications [3, 18]. The aim of this study was to investigate the structure, thermal stability, in vivo self-assembly process, recrystallization and metallization of three different recombinant SL proteins (SslA-eGFP, mSbsC-eGFP and S13240-eGFP) expressed in yeast S. cerevisiae BY4741 which could be further used in nanobiotechnological applications. In order to fulfill this aim, I investigated the in vivo expression of SL proteins (SslA, SbsC, S13240) tagged with eGFP (SL-eGFP) in the yeast S. cerevisiae BY4141. First, I characterized the heterologous expression of SL fusion constructs with growth and fluorescence measurements combined with Western blot analyses. Fluorescence microscopy investigations of overnight grown cultures showed that SslA-eGFP fusion protein was expressed as fluorescent patches, mSbsC-eGFP as tubular networks, and S13240-eGFP as hollow-like fibrillar network structures, while eGFP did not show any distinct structure Thermal stability of in vivo expressed SL-eGFP fusion proteins were investigated by fluorescence microscopy and immunodetection. In vivo self-assembly kinetics during mitosis and meiosis was the second main issue. In parallel, association of in vivo mSbsC-eGFP structures with the cellular components was of interest. A network of tubular structures in the cytosol of the transformed yeast cells that did not colocalize with microtubules or the actin cytoskeleton was observed. Time-resolved analysis of the formation of these structures during vegetative growth and sporulation was investigated by live fluorescence microscopy. While in meiosis ascospores seemed to receive assembled structures from the diploid cells, during mitosis surface layer structures were formed de novo in the buds. Surface layer assembly always started with the appearance of a dot-like structure in the cytoplasm, suggesting a single nucleation point. In order to get these in vivo SL assemblies stably outside the cells (in situ), cell distruption experiments were conducted. The tubular structures formed by the protein in vivo were retained upon bursting the cells by osmotic shock; however their average length was decreased. During dialysis, monomers obtained by treatment with chaotropic agents recrystallized again to form tube-like structures. This process was strictly dependent on calcium ions, with an optimal concentration of 10 mM. Further increase of the Ca2+ concentration resulted in multiple non-productive nucleation points. It was further shown that the lengths of the S-layer assemblies increased with time and could be controlled by pH. After 48 hours the average length at pH 9.0 was 4.13 µm compared to 2.69 µm at pH 5.5. Successful chemical deposition of platinum indicates the potential of recrystallized mSbsC-eGFP structures for nanobiotechnological applications. For example, such metalized protein nanotubes could be used in conductive nanocircuit technologies as nanowires.

info:eu-repo/classification/ddc/570

ddc:570

Self-assembly of the S-layer protein of Sporosarcina ureae ATCC 13881

Varga, Melinda

24 January 2011

Increasing the integration density of electron device components will necessitate the use of new nanofabrication paradigms that complement and extend existing technologies. One potential approach to overcome the current limitations of electron-beam lithography may involve the use of hybrid systems, in which existing lithographic techniques are coupled with “bottom up” approaches such as supramolecular self-assembly. In this respect, biological systems offer some unique possibilities as they combine both self-organization and spatial patterning at the nanometer length scale. In particular, Surface Layer Proteins (S-layers) can facilitate high order organization and specific orientation of inorganic structures as they are two-dimensional porous crystalline membranes with regular structure at the nanometer scale. In this framework, the aim of the present work was the characterization of the S-layer of Sporosarcina ureae ATCC 13881 (SslA) with respect to its self-assembling properties and modification that would allow it to be employed as a patterning element and a new building block for nanobiotechnology. In vitro recrystallization experiments have shown that wild type SslA self-assembles into monolayers, multilayers or tubes. Factors such as initial monomer concentration, Ca2+ ions, pH of the recrystallization buffer and the presence of a silicon substrate have a strong influence on the recrystallization process. SslA monolayers proved to be an excellent biotemplate for ordered assembly of gold nanoparticle arrays. The recombinant SslA after expression and purification formed micrometer sized, crystalline monolayers exhibiting the same lattice structure as the wild type protein (p4 symmetry). This remarkable property of self-assembling has been preserved even when SslA was truncated. The deletion of both, N- and C-terminal SslA domains does not hinder self-assembly; the resulting protein is able to form extended monolayers that exhibit the p4 lattice symmetry. The central SslA-domain is self sufficient for the self-assembly. The possibility to change the natural properties of S-layers by genetic engineering techniques opens a new horizon for the tuning of their structural and functional features. The SslA-streptavidin fusion protein combines the remarkable property of self-assembling with the ligand i.e. biotin binding function. On silicon wafers, this chimeric protein recrystallized into coherent protein layers and exposes streptavidin, fact demonstrated by binding studies using biotinylated quantum dots. In this way, it can serve as a functional surface for controlled immobilization of biologically active molecules but also as a platform for the synthesis of planar arrays of quantum dots. Furthermore, the results open up exciting possibilities for construction of hybrid S-layers, structures that may ultimately promote the fabrication of miniaturized, nanosized electronic devices.

info:eu-repo/classification/ddc/570

ddc:570

Initiatives médiatiques pour baliser le développement des nanotechnologies : une enquête qualitative auprès des journalistes et des chercheurs en nanobiotechnologies

Côté, Philippe-Aubert

10 1900

Grâce aux nanotechnologies, l’être humain peut maîtriser la matière à l’échelle du nanomètre — soit au niveau des atomes et des molécules. Les matériaux obtenus suite à ces manipulations présentent des propriétés nouvelles qui les rendent très intéressants pour nombre d’applications techniques, et ce dans tous les domaines technoscientifiques. Ainsi, les nanotechnologies sont souvent considérées comme les prémisses d’une profonde révolution technologique et sociale. Toutefois, si les nanotechnologies intéressent investisseurs, gouvernement, entreprises et universités, elles soulèvent aussi des questions éthiques, notamment au sujet de leur toxicité, de leurs retombées et de la modification de l’être humain. À ces questions s’ajoutent plusieurs interrogations sur la gouvernance des nanotechnologies : comment, en effet, encadrer en amont le développement de celles-ci pour éviter d’éventuelles conséquences néfastes en aval? Parmi ces interrogations, le rôle des médias dans les relations entre les développeurs de nanotechnologies et le public est souvent mentionné. Certains voient dans les médias un acteur auquel les chercheurs pourraient recourir pour établir un dialogue avec le public afin d’assurer un développement harmonieux des nanotechnologies. Si cette recommandation semble très pertinente, il n’existe, à notre connaissance, aucune étude empirique pour en vérifier la faisabilité auprès des acteurs concernés (chercheurs, médias, etc.). Dans le cadre de cette thèse, nous avons donc voulu examiner et analyser les perceptions des chercheurs et des journalistes québécois envers des initiatives médiatiques pour baliser le développement des nanotechnologies. Pour ce faire, nous avons procédé à une étude qualitative auprès de vingt (20) chercheurs en nanobiotechnologies/nanomédecine et dix (10) journalistes spécialisés en vulgarisation scientifique. L’analyse des entretiens avec les répondants a révélé que si les acteurs rencontrés sont favorables envers de telles initiatives, il existe plusieurs contraintes pouvant gêner une telle entreprise. Suite à l’examen de ces contraintes, nous avons suggéré des initiatives concrètes que les chercheurs québécois pourraient mettre en place pour mieux baliser le développement des nanotechnologies à l’aide d’un dialogue avec le public. Ces suggestions consistent notamment à créer des médias privés pour les chercheurs, à recourir aux médias indépendants et à investir le web. De telles initiatives, cependant, ne peuvent s’obtenir qu’au prix d’un remaniement des priorités des chercheurs. / Thanks to nanotechnologies, mankind can control matter at the nanometer scale, on the level of individual atoms and molecules. Materials obtained following these nanoscale manipulations demonstrate novel properties with the potential for application to all scientific and technological disciplines. Nanotechnologies are therefore often considered a foundation for a deep technological and social revolution. However, while nanotechnologies interest investors, government, private enterprises and universities, they also raise ethical questions, particularly regarding their toxicity, their outcome and the modification of human beings. On top of these ethical questions several other interrogations arise with respect to the governance of nanotechnologies: how, indeed, should their development be initially monitored in order to avoid eventual negative consequences in the future? Among these many questions, the role of the media in the relations between the developers of nanotechnologies and the public is often mentioned. Some see in the media an actor that researchers might refer to in order to establish a dialogue with the public to insure a harmonious development of nanotechnologies. While this recommendation seems very relevant, no empirical study exists to our knowledge to assess its feasibility among the concerned stakeholders (researchers, media). Within the scope of this thesis, we thus wanted to examine and analyze the perception of researchers and journalists from Quebec towards media initiatives to monitor the development of nanotechnologies. To do so, we proceeded to perform a qualitative study with twenty (20) researchers in the fields of nanobiotechnology/nanomedicine and ten (10) journalists specialized in scientific popularization. The analysis of interviews with responders revealed that while the concerned parties are in favour of these initiatives, there are several constraints that may impede such an enterprise. Following the study of these constraints, we have suggested concrete initiatives that Quebec researchers may implement in order to better monitor the development of nanotechnologies through a dialogue with the public. These suggestions mainly consist in creating private media for researchers, resorting to independent media and engaging the World Wide Web. Such initiatives, however, can only be obtained at the price of a realignment of researchers’ priorities.

Bioéthique

Bioethics

Chercheurs

Researcher

Éthique des médias

Media Ethics

Journaliste

Journalist

Médias

Media

Nanoéthique

Nanoethics

Nanotechnologie

Nanotechnology

Nanobiotechnologie

Nanobiotechnology

Nanomédecine

Nanomedicine

Nanoscience

Transport électronique dans l'ADN

Heim, Thomas

09 December 2002

Transport électronique dans l'ADN Ce travail se situe dans le cadre des recherches en électronique moléculaire. La problématique de la conduction électrique dans l'ADN a été posée en 1962 par Eley et Spivey peu de temps après la découverte de la structure en double hélice de l'ADN par Watson et Crick en 1953. A l'heure actuelle, il n'y a pas de consensus sur les propriétés de conduction à travers l'ADN. Le transfert de charges sur des distances de quelques nanomètres a été étudié en solution et est assez bien compris. En revanche, les mesures directes sur des électrodes donnent des comportements allant de la supraconductivité induite à l'isolant, en passant par semi-conducteur. Notre travail a été motivé par cette controverse. Nous avons étudié les propriétés électroniques de l'ADN déposé sur différentes couches moléculaires auto-assemblées sur des substrats de silicium. La préparation des surfaces et le dépôt d'ADN constituent la première partie de notre étude. La conductivité de l'ADN a ensuite été mesurée entre des électrodes fabriquées sur un support isolant ou par le biais d'un AFM conducteur. Dans ce dernier cas, la pointe de l'AFM permet tout à la fois d'imager la surface et de servir de seconde électrode pendant la mesure électrique. Deux types de résultats ont été obtenus : les comportements vont de l'isolant au conducteur, les résistances s'étalent sur au moins 6 ordres de grandeur, de 109 W à 1015 W, avec toutefois une plus faible fréquence de mesure des conductivités élevées. Deux points permettent d'expliquer cette grande disparité : d'une part, l'obtention d'un contact électrique entre l'électrode et l'ADN et, d'autre part, la méthode de dépôt de l'ADN sur la surface. La formation d'un contact électrique entre l'électrode et l'ADN nécessite des traitements en général destructifs pour la molécule. Ce contact peut être amélioré en utilisant un paquet de molécules d'ADN comme intermédiaire entre l'électrode évaporée et la corde d'ADN que l'on étudie. Cependant, cette méthode ajoute une résistance série importante. Des mesures systématiques ont été réalisées en fonction de la distance de la pointe AFM au paquet d'ADN et du nombre estimé de brins d'ADN dans la corde. Le dépôt de l'ADN étant un facteur primordial, nous concentrons nos efforts sur ce point pour comprendre plus avant le lien entre la structure de l'ADN et ses propriétés de conduction. Mots-clés : Electronique moléculaire, nanobiotechnologie, ADN, dépôt d'ADN, Microscopie à Force Atomique, AFM conducteur, monocouche auto-assemblée

Mots-clés : Electronique moléculaire

nanobiotechnologie

ADN

dépôt d'ADN

Microscopie à Force Atomique

AFM conducteur

nanobiotechnology

DNA

deposition of DNA

Atomic Force Microscope

conducting AFM

self-assembled monolayer

Initiatives médiatiques pour baliser le développement des nanotechnologies : une enquête qualitative auprès des journalistes et des chercheurs en nanobiotechnologies

Côté, Philippe-Aubert

10 1900

Grâce aux nanotechnologies, l’être humain peut maîtriser la matière à l’échelle du nanomètre — soit au niveau des atomes et des molécules. Les matériaux obtenus suite à ces manipulations présentent des propriétés nouvelles qui les rendent très intéressants pour nombre d’applications techniques, et ce dans tous les domaines technoscientifiques. Ainsi, les nanotechnologies sont souvent considérées comme les prémisses d’une profonde révolution technologique et sociale. Toutefois, si les nanotechnologies intéressent investisseurs, gouvernement, entreprises et universités, elles soulèvent aussi des questions éthiques, notamment au sujet de leur toxicité, de leurs retombées et de la modification de l’être humain. À ces questions s’ajoutent plusieurs interrogations sur la gouvernance des nanotechnologies : comment, en effet, encadrer en amont le développement de celles-ci pour éviter d’éventuelles conséquences néfastes en aval? Parmi ces interrogations, le rôle des médias dans les relations entre les développeurs de nanotechnologies et le public est souvent mentionné. Certains voient dans les médias un acteur auquel les chercheurs pourraient recourir pour établir un dialogue avec le public afin d’assurer un développement harmonieux des nanotechnologies. Si cette recommandation semble très pertinente, il n’existe, à notre connaissance, aucune étude empirique pour en vérifier la faisabilité auprès des acteurs concernés (chercheurs, médias, etc.). Dans le cadre de cette thèse, nous avons donc voulu examiner et analyser les perceptions des chercheurs et des journalistes québécois envers des initiatives médiatiques pour baliser le développement des nanotechnologies. Pour ce faire, nous avons procédé à une étude qualitative auprès de vingt (20) chercheurs en nanobiotechnologies/nanomédecine et dix (10) journalistes spécialisés en vulgarisation scientifique. L’analyse des entretiens avec les répondants a révélé que si les acteurs rencontrés sont favorables envers de telles initiatives, il existe plusieurs contraintes pouvant gêner une telle entreprise. Suite à l’examen de ces contraintes, nous avons suggéré des initiatives concrètes que les chercheurs québécois pourraient mettre en place pour mieux baliser le développement des nanotechnologies à l’aide d’un dialogue avec le public. Ces suggestions consistent notamment à créer des médias privés pour les chercheurs, à recourir aux médias indépendants et à investir le web. De telles initiatives, cependant, ne peuvent s’obtenir qu’au prix d’un remaniement des priorités des chercheurs. / Thanks to nanotechnologies, mankind can control matter at the nanometer scale, on the level of individual atoms and molecules. Materials obtained following these nanoscale manipulations demonstrate novel properties with the potential for application to all scientific and technological disciplines. Nanotechnologies are therefore often considered a foundation for a deep technological and social revolution. However, while nanotechnologies interest investors, government, private enterprises and universities, they also raise ethical questions, particularly regarding their toxicity, their outcome and the modification of human beings. On top of these ethical questions several other interrogations arise with respect to the governance of nanotechnologies: how, indeed, should their development be initially monitored in order to avoid eventual negative consequences in the future? Among these many questions, the role of the media in the relations between the developers of nanotechnologies and the public is often mentioned. Some see in the media an actor that researchers might refer to in order to establish a dialogue with the public to insure a harmonious development of nanotechnologies. While this recommendation seems very relevant, no empirical study exists to our knowledge to assess its feasibility among the concerned stakeholders (researchers, media). Within the scope of this thesis, we thus wanted to examine and analyze the perception of researchers and journalists from Quebec towards media initiatives to monitor the development of nanotechnologies. To do so, we proceeded to perform a qualitative study with twenty (20) researchers in the fields of nanobiotechnology/nanomedicine and ten (10) journalists specialized in scientific popularization. The analysis of interviews with responders revealed that while the concerned parties are in favour of these initiatives, there are several constraints that may impede such an enterprise. Following the study of these constraints, we have suggested concrete initiatives that Quebec researchers may implement in order to better monitor the development of nanotechnologies through a dialogue with the public. These suggestions mainly consist in creating private media for researchers, resorting to independent media and engaging the World Wide Web. Such initiatives, however, can only be obtained at the price of a realignment of researchers’ priorities.

Bioéthique

Bioethics

Chercheurs

Researcher

Éthique des médias

Media Ethics

Journaliste

Journalist

Médias

Media

Nanoéthique

Nanoethics

Nanotechnologie

Nanotechnology

Nanobiotechnologie

Nanobiotechnology

Nanomédecine

Nanomedicine

Nanoscience