Search Results - "Ness, Frédérique"

Genomic clustering and homology between HET-S and the NWD2 STAND protein in various fungal genomes by Daskalov, Asen, Paoletti, Mathieu, Ness, Frédérique, Saupe, Sven J

“…Prions are infectious proteins propagating as self-perpetuating amyloid polymers. The [Het-s] prion of Podospora anserina is involved in a cell death process…”
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Production of ferulic acid and coniferyl alcohol by conversion of eugenol using a recombinant strain of Saccharomyces cerevisiae by Lambert, Fanny, Zucca, Joseph, Ness, Frédérique, Aigle, Michel

“…ABSTRACT We isolated an industrial strain of Saccharomyces cerevisiae 92411 able to convert coniferyl alcohol (2 g/l) into ferulic acid (1.8 g/l). To use…”
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Two structurally similar fungal prions efficiently cross‐seed in vivo but form distinct polymers when coexpressed by Benkemoun, Laura, Ness, Frédérique, Sabaté, Raimon, Ceschin, Johanna, Breton, Annick, Clavé, Corinne, Saupe, Sven J.

“…Summary HET‐s is a prion protein of the filamentous fungus Podospora anserina. An orthologue of this protein, called FgHET‐s has been identified in Fusarium…”
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Guanidine Hydrochloride Inhibits the Generation of Prion “Seeds” but Not Prion Protein Aggregation in Yeast by Ness, Frédérique, Ferreira, Paulo, Cox, Brian S, Tuite, Mick F

“…Article Usage Stats Services MCB Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley…”
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The elimination of the yeast [PSI+] prion by guanidine hydrochloride is the result of Hsp104 inactivation by Ferreira, Paulo C., Ness, Frédérique, Edwards, Susan R., Cox, Brian S., Tuite, Mick F.

“…In the yeast Saccharomyces cerevisiae, Sup35p (eRF3), a subunit of the translation termination complex, can take up a prion‐like, self‐propagating conformation…”
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The Candida albicans Rgd1 is a RhoGAP protein involved in the control of filamentous growth by Ness, Frédérique, Prouzet-Mauleon, Valérie, Vieillemard, Aurélie, Lefebvre, Fabien, Noël, Thierry, Crouzet, Marc, Doignon, François, Thoraval, Didier

“…Rho proteins are essential regulators of polarized growth in eukaryotic cells. These proteins are down-regulated in vivo by specific Rho GTPase Activating…”
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Sterol uptake in Saccharomyces cerevisiae heme auxotrophic mutants is affected by ergosterol and oleate but not by palmitoleate or by sterol esterification by Ness, F. (Transgene S.A., Strasbourg.), Achstetter, T, Duport, C, Karst, F, Spagnoll, R, Degryse, E

“…The relationship between sterol uptake and heme competence in two yeast strains impaired in heme synthesis, namely, G204 and H12-6A, was analyzed. To evaluate…”
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The [URE3] phenotype: evidence for a soluble prion in yeast by Fernandez-Bellot, Eric, Guillemet, Elisabeth, Ness, Frédérique, Baudin-Baillieu, Agnès, Ripaud, Leslie, Tuite, Mick, Cullin, Christophe

“…The aggregation of the two yeast proteins Sup35p and Ure2p is widely accepted as a model for explaining the prion propagation of the phenotypes [PSI+] and…”
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SUT1 is a putative Zn[II]2Cys6‐transcription factor whose upregulation enhances both sterol uptake and synthesis in aerobically growing Saccharomyces cerevisiae cells by Ness, Frédérique, Bourot, Stéphane, Régnacq, Matthieu, Spagnoli, Roberto, Bergès, Thierry, Karst, Francis

“…Budding yeast Saccharomyces cerevisiae is a facultative anaerobe whose growth upon oxygen starvation depends on its capacity to import exogenously supplied…”
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The [PSI+] Prion of Saccharomyces cerevisiae Can Be Propagated by an Hsp104 Orthologue from Candida albicans by Zenthon, Joanna F, Ness, Frederique, Cox, Brian, Tuite, Mick F

“…Classifications Services EC Citing Articles Google Scholar PubMed Related Content Social Bookmarking CiteULike Delicious Digg Facebook Google+ Mendeley Reddit…”
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Over‐expression of the molecular chaperone Hsp104 in Saccharomyces cerevisiae results in the malpartition of [PSI+] propagons by Ness, Frederique, Cox, Brian S., Wongwigkarn, Jintana, Naeimi, Wesley R., Tuite, Mick F.

“…Summary The ability of a yeast cell to propagate [PSI+], the prion form of the Sup35 protein, is dependent on the molecular chaperone Hsp104. Inhibition of…”
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Over‐expression of the molecular chaperone H sp104 in S accharomyces cerevisiae results in the malpartition of [ PSI + ] propagons by Ness, Frederique, Cox, Brian S., Wongwigkarn, Jintana, Naeimi, Wesley R., Tuite, Mick F.

“…Summary The ability of a yeast cell to propagate [ PSI + ], the prion form of the Sup35 protein, is dependent on the molecular chaperone Hsp104. Inhibition of…”
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Analysis of the Generation and Segregation of Propagons: Entities That Propagate the [PSI+] Prion in Yeast by Cox, Brian, Ness, Frederique, Tuite, Mick

“…The propagation of the prion form of the yeast Sup35p protein, the so-called [PSI(+)] determinant, involves the generation and partition of a small number of…”
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The Mechanism of Prion Inhibition by HET-S by Greenwald, Jason, Buhtz, Carolin, Ritter, Christiane, Kwiatkowski, Witek, Choe, Senyon, Maddelein, Marie-Lise, Ness, Frederique, Cescau, Sandra, Soragni, Alice, Leitz, Dominik, Saupe, Sven J., Riek, Roland

“…HET-S (97% identical to HET-s) has an N-terminal globular domain that exerts a prion-inhibitory effect in cis on its own prion-forming domain (PFD) and in…”
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Cellular factors important for the de novo formation of yeast prions by Tuite, Mick, Stojanovski, Klement, Ness, Frederique, Merritt, Gloria, Koloteva-Levine, Nadejda

“…Prions represent an unusual structural form of a protein that is 'infectious'. In mammals, prions are associated with fatal neurodegenerative diseases such as…”
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RTM1: a member of a new family of telomeric repeated genes in yeast by Ness, F. (Transgene S.A., Strasbourg, France.), Aigle, M

“…We have isolated a new yeast gene called RTM1 whose overexpression confers resistance to the toxicity of molasses. The RTM1 gene encodes a hydrophobic 34kD…”
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The elimination of the yeast [PSI(+) prion by guanidine hydrochloride is the result of Hsp104 inactivation by Ferreira, Paulo C, Ness, Frederique, Edwards, Susan R, Cox, Brian S, Tuite, Mick F

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SUT1 is a putative Zn[II]2Cys6-transcription factor whose upregulation enhances both sterol uptake and synthesis in aerobically growing Saccharomyces cerevisiae cells by Ness, F, Bourot, S, Régnacq, M, Spagnoli, R, Bergès, T, Karst, F

“…Budding yeast Saccharomyces cerevisiae is a facultative anaerobe whose growth upon oxygen starvation depends on its capacity to import exogenously supplied…”
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