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1	Extraction and Characterization of Hydrophobin from <em>Trichoderma reesei</em> Johansson, Helene January 2010 (has links) <p>Hydrophobins are a class of small proteins (7-15kDa) found in filamentous fungi and are among the most surface active proteins known today. Because of this they have received attention for different applications, e.g. for the food industry as an alternative in emulsions. The goal of this project was to culture and extract hydrophobins from <em>Trichoderma reesei</em> and characterize it. This was done from a freeze-dried culture of <em>Trichoderma reesei</em>, which was cultured on PDA-plates and in liquid medium with glucose as carbon source. Extraction was made by breaking the cells, mechanically and by sonication, and then by shaking a seperating funnel to create foam from the surface-active proteins. The foam was washed and freeze-dried and the total protein concentration of the freeze-dried substance was determined with Bradford assay and the hydrophpbin was characterized with SDS-PAGE. The culturing of the fungi was successful. The amount of foam created was, however, less than expected. The Bradford assay gave a total protein concentration of 7.5% in the freeze-dried substance, but the SDS-PAGE didn't give any results. The reason for this probably depends on the culturing and the extraction of the hydrophobin. <em>T. reesei</em> hydrophobin HFBI, expressed in glucose containing media, is bound to the mycelium of the fungi and the breaking of the mycelium might not have been enough to release all the protein, which also would explain the small amounts of foam. One way to improve this could be to grow the fungi on lactose instead. This will result in that T. reesei produces HFBII instead, which is mainly released to the surrounding. The conclusion of the project is that the method for culturing and extraction needs to be improved to obtain hydrophobin from <em>T. reesei</em>.</p> hydrophobins fungi Chemistry Kemi
2	Viscoelastic properties of hydrophobin layers Aumaitre, Elodie January 2013 (has links) No description available. 530 Hydrophobins ; Viscoelasticity
3	On the interactions and interfacial behaviour of biopolymers : an AFM study / Paananen, Arja. January 1900 (has links) (PDF) Thesis (doctoral)--Åbo Akademi University, 2007. / Includes bibliographical references. Also available on the World Wide Web. Biopolymers. Biopolymers Hydrophobins.
4	Self-assembly of hydrophobin proteins from the fungus Trichoderma reesei / Szilvay, Géza R. January 1900 (has links) (PDF) Thesis (doctoral)--University of Helsinki, 2007. / Includes bibliographical references. Also available on the World Wide Web.
5	Characterization of the Trichoderma reesei hydrophobins HFBI and HFBII / Askolin, Sanna. January 2006 (has links) (PDF) Diss.Teknillinen korkeakoulu, 2006.
6	Extraction and Characterization of Hydrophobin from Trichoderma reesei Johansson, Helene January 2010 (has links) Hydrophobins are a class of small proteins (7-15kDa) found in filamentous fungi and are among the most surface active proteins known today. Because of this they have received attention for different applications, e.g. for the food industry as an alternative in emulsions. The goal of this project was to culture and extract hydrophobins from Trichoderma reesei and characterize it. This was done from a freeze-dried culture of Trichoderma reesei, which was cultured on PDA-plates and in liquid medium with glucose as carbon source. Extraction was made by breaking the cells, mechanically and by sonication, and then by shaking a seperating funnel to create foam from the surface-active proteins. The foam was washed and freeze-dried and the total protein concentration of the freeze-dried substance was determined with Bradford assay and the hydrophpbin was characterized with SDS-PAGE. The culturing of the fungi was successful. The amount of foam created was, however, less than expected. The Bradford assay gave a total protein concentration of 7.5% in the freeze-dried substance, but the SDS-PAGE didn't give any results. The reason for this probably depends on the culturing and the extraction of the hydrophobin. T. reesei hydrophobin HFBI, expressed in glucose containing media, is bound to the mycelium of the fungi and the breaking of the mycelium might not have been enough to release all the protein, which also would explain the small amounts of foam. One way to improve this could be to grow the fungi on lactose instead. This will result in that T. reesei produces HFBII instead, which is mainly released to the surrounding. The conclusion of the project is that the method for culturing and extraction needs to be improved to obtain hydrophobin from T. reesei. hydrophobins fungi Other Basic Medicine Annan medicinsk grundvetenskap
7	Amyloïdes fonctionnelles du pathogène opportuniste Aspergillus fumigatus / Functional amyloids from the opportunistic pathogen Aspergillus fumigatus Pillé, Ariane 25 September 2014 (has links) Les hydrophobines sont des protéines fongiques caractérisées par leurs propriétés amphipathiques et un motif de quatre ponts disulfures. Leur forme soluble s’auto-assemble aux interfaces hydrophobe/hydrophile pour former une couche amphipatique. Ces protéines sont utilisées par les champignons pour franchir la barrière air/eau, former des hyphes aériennes ou recouvrir les spores les rendant hydrophobes, ce qui facilite leur dispersion dans l’air. L’hydrophobine RodA du pathogène opportuniste Aspergillus fumigatus forme une couche de fibres amyloïdes avec une morphologie en bâtonnets qui recouvre la surface des spores ce qui les rend inertes vis-à-vis du système immunitaire. Nous aspirons à décrire l’auto-association de RodA en bâtonnets, caractériser la structure des fibres et établir les potentiels liens entre structure et inertie immunologique. La protéine recombinante RodA exprimée chez E. coli peut être correctement repliée in vitro et s’auto-associe sous forme de fibres amyloïdes. Comme première étape, la structure et la dynamique de RodA ont été étudiées par RMN en solution. Par rapport aux autres hydrophobines, RodA présente de nouveaux éléments structuraux ainsi que d’autres conservés. Grâce à une étude de mutagénèse, des régions importantes dans la formation des fibres ont été identifiées, certaines impliquées dans le cœur des fibres et d’autres dans les interactions latérales des bâtonnets. Les relations entre la structure et les propriétés immunologiques ont également été établies. L’étude d’autres hydrophobines d’A. fumigatus, probablement impliquées dans la formation du biofilm ou importantes pour la conidiation et la survie des spores, a été initiée.dC), a été initiée. / Hydrophobins are fungal proteins characterised by their amphipatic properties and a pattern of four disulfide bridges. Their soluble form self-assembles at hydrophobic/hydrophilic interfaces to form an amphipatic layer. These proteins are used by fungi to breach the air/water barrier, to form aerial hyphae, or to cover spores rendering them hydrophobic, thus facilitating spore dispersal. The RodA hydrophobin of the opportunistic pathogen Aspergillus fumigatus forms an amyloid monolayer with a rodlet morphology that covers the surface of spores rendering them inert relative to the immune system. We aim at describing the self-association of RodA into rodlets, characterising the structure of the amyloid rodlets and shedding light on the possible relationships between structure and immunological inertness. Recombinant RodA expressed in Escherichia coli can be successfully refolded in vitro and it can auto-associate into amyloid rodlets. As a first step, we have studied the structure and dynamics of RodA by solution NMR and shown that the protein displays new as well as conserved structural features relative to other hydrophobins. A mutational analysis has highlighted important residues for rodlet formation that may be involved on the one hand in the spine of the amyloid fibres and on the other hand on the lateral association of the rodlets to form a monolayer. We have also established the relationship between structure and immunological inertness. We have initiated the study of other hydrophobins from A. fumigatus, that are most likely involved in biofilm formation or in conidiation and spore survival. RodA Hydrophobines Aspergillus fumigatus Amyloïdes fonctionnelles RMN Biophysique RodA Hydrophobins 571.4
8	Extracellular matrix proteins in growth and fruiting body development of straw and wood degrading basidiomycetes / Extrazelluläre Matrix Proteine bei Wachstum und Fruchtkörperbildung in stroh- und holzabbauenden Basidiomyzeten Velagapudi, Rajesh 24 February 2006 (has links) No description available. 580 Pflanzen (Botanik) Forest Sciences and Forest Ecology <i>Coprinopsis cinerea</i> Basidiomyzeten Galektine Hydrophobine Fruchtkörperentwicklung <i>Coprinopsis cinerea</i> basidiomycetes galectins hydrophobins fruiting body development 42.13 Molekularbiologie WF 000 Molekularbiologie Gentechnologie
9	Hydrophobins in wood biology and biotechnology / Hydrophobinen in Holz Biologie und Biotechnologie Peddireddi, Sudhakar 28 March 2008 (has links) No description available. 580 Pflanzen (Botanik) Forest Sciences and Forest Ecology Hydrophobine Schizophyllum commune amphipatische Proteine SC3 SC15 pilzliche Proteine Holzbiologie Biotechnologie FTIR Mikroskopie Spektroskopie Holzabbau Holzzerfall interactionen ATR FTIR Fungi Mutante Hydrophobin-Mutante Hydrophobins Schizophyllum commune Amphiphatic proteins SC3 SC15 Fungal proteins Wood biology Biotechnology FTIR microscopy Spectroscopy Wood decay Fungal interaction ATR FTIR Fungal mutants Hydrophobin mutants Fourier transform infrared spectroscopy Pleurotus ostreatus Coprinopsis cinerea Mycelium Deadlock Biotechnology Forestry

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