Author Archives: eric

Gay-Lussac Humbolt 2014 : N. Rouhier

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La Fondation Alexander von Humboldt a décerné le Prix Gay-Lussac Humboldt à trois scientifiques en activité en France : Albert Fert, directeur scientifique au sein de l’Unité mixte de physique CNRS/Thales/Université Paris Sud, membre de l’Académie des sciences et Prix Nobel de Physique en 2007, Thomas Keller, professeur à l’Université de Provence, Université Aix-Marseille I, Centre des Lettres et Sciences Humaines, Département d’Etudes Germaniques et Nicolas Rouhier, professeur à l’Université de Lorraine, Unité mixte de recherche INRA/Université de Lorraine Interactions Arbres/Micro-organismes.

La candidature de N. Rouhier était présentée par le professeur Roland Lill, Institut für klinische Zytobiologie und Zytopathologie, Université de Marbourg.

http://factuel.univ-lorraine.fr/

Partner University Fund

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  • PARTNER UNIVERSITY FUND 

    Appel à propositions 2015 

    Etabli en 2007 par l’Ambassade de France aux Etats-Unis, des donateurs privés américains et la Fondation FACE, le Partner University Fund soutient la création de partenariats d’excellence, innovants et durables entre institutions françaises et américaines d’enseignement supérieur et de recherche. Les partenariats, développés au niveau Master et au-delà, sont éligibles dans toutes les disciplines.

    Depuis sa création, le PUF a sélectionné 71 projets impliquant plus de 80 établissements français et américains. Par un appui à la mobilité et aux échanges universitaires (mobilité d’enseignants, de chercheurs et d’étudiants), le programme encourage les actions conjointes de formation (cours, programmes conjoints, doubles diplômes…) et de recherche (recherche collaborative, co-tutelle de thèse…).

    Les partenariats sélectionnés sont soutenus pour une année et sont reconductibles sur une durée totale de 3 ans.

    Le PUF co-finance jusqu’à 30% des coûts du projet, dans une limite de 50 000 dollars par an. Dans le cadre du partenariat du PUF avec la Fondation Andrew W. Mellon, les projets sélectionnés en Humanités sont éligibles à un niveau de soutien accru : le programme pourra ainsi financer jusqu’à 60% des coûts du projet, dans une limite de 100 000 dollars par an.

    • Les dossiers de candidature doivent être soumis avant le 15 février 2015.
    • La décision du jury de sélection sera annoncée en juin 2015.

    Les établissements souhaitant déposer une candidature sont invités à consulter le “Guide du candidat” à télécharger sur le site de PUF: http://face-foundation.org/partner-university-fund/index.html

    Pour plus d’informations, merci de contacter l’équipe PUF: puf.scac@ambafrance-us.org 

Article: Annals of Forest Science

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Structural and functional characterization of tree proteins involved in redox regulation: a new frontier in forest science

JP Jacquot, J Couturier, C Didierjean, E Gelhaye, M Morel-Rouhier, …
Annals of Forest Science, 1-16

Abstract

Key message

This paper describes how the combination of genomics, genetic engineering, and 3D structural characterization has helped clarify the redox regulatory networks in poplar with consequences not only in system biology in plants but also in bacteria and mammalian systems.

Context

Tree genomes are increasingly available with a large number of orphan genes coding for proteins, the function of which is still unknown.

Aims and methods

Modern techniques of genome analysis coupled with recombinant protein technology and massive 3D structural determination of tree proteins should help elucidate the function of many of the proteins encoded by orphan genes. X-ray crystallography and NMR will be the methods of choice for protein structure determination.

Results

In this review, we provide examples illustrating how the above-mentioned techniques improved our understanding of redox regulatory circuits in poplar, the first forest tree species sequenced. We showed that poplar peroxiredoxins use either thioredoxin or glutaredoxin as electron donors to reduce hydrogen peroxide. That glutaredoxin could be a reductant was unknown at the time of this discovery even in other biological organisms and was later confirmed notably by the observation that the two genes are fused in some bacteria and by the resolution of the structure of the bacterial hybrid protein. Similarly, genome analysis coupled to in vitro analysis of enzymatic properties led to the discovery that some plant methionine sulfoxide reductases can also use both thioredoxins and glutaredoxins as electron donors. Besides their disulfide reductase activity, it has been demonstrated that some poplar glutaredoxins are also involved in iron-sulfur center biogenesis and assembly. The original 3D structure determination has been made with poplar glutaredoxin C1 and then confirmed in a variety of other biological organisms including human. Our work also showed that in plants, so-called glutathione peroxidases use thioredoxins and not glutathione as electron donors. This is true for all non-selenocysteine-containing glutathione peroxidases. Finally, connections between the thioredoxin and glutaredoxin systems have been elucidated through the study of atypical poplar thioredoxins.

Conclusion

Altogether, these data illustrate how the combination of genetic engineering and structural biology improves our understanding of biological processes and helps fuel systems biology for trees and other biological species.

Article: FEBS letters

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Glutathionyl-hydroquinone reductases from poplar are plastidial proteins that deglutathionylate both reduced and oxidized quinones

PA Lallement, E Meux, JM Gualberto, S Dumarcay, F Favier, C Didierjean, … FEBS Letters

Abstract

Glutathionyl-hydroquinone reductases (GHRs) catalyze the deglutathionylation of quinones via a catalytic cysteine. The two GHR genes in the Populus trichocarpa genome, Pt-GHR1 and Pt-GHR2, are primarily expressed in reproductive organs. Both proteins are localized in plastids. More specifically, Pt-GHR2 localizes in nucleoids. At the structural level, Pt-GHR1 adopts a typical GHR fold, with a dimerization interface comparable to that of the bacterial and fungal GHR counterparts. Pt-GHR1 catalyzes the deglutathionylation of both reduced and oxidized glutathionylated quinones, but the enzyme is more catalytically efficient with the reduced forms.

Article: Frontiers in plant science

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The poplar phi class glutathione transferase: expression, activity and structure of GSTF1

H Pégeot, C Koh, B Petre, S Mathiot, S Duplessis, A Hecker, C Didierjean, …
Name: Frontiers in Plant Science 5, 712
Abstract

Glutathione transferases (GSTs) constitute a superfamily of enzymes with essential roles in cellular detoxification and secondary metabolism in plants as in other organisms. Several plant GSTs, including those of the Phi class (GSTFs), require a conserved catalytic serine residue to perform glutathione (GSH)-conjugation reactions. Genomic analyses revealed that errestrial plants have around 10 GSTFs, 8 in the Populus trichocarpa genome, but their physiological functions and substrates are mostly unknown. Transcript expression analyses showed a predominant expression of all genes both in reproductive (female flowers, fruits, floral buds) and vegetative organs (leaves, petioles). Here, we show that the recombinant poplar GSTF1 (PttGSTF1) possesses peroxidase activity towards cumene hydroperoxide and GSH-conjugation activity towards model substrates such as 2,4-dinitrochlorobenzene, benzyl and phenetyl isothiocyanate, 4-nitrophenyl butyrate and 4-hydroxy-2-nonenal but interestingly not on previously identified GSTF-class substrates. In accordance to analytical gel filtration data, crystal structure of PttGSTF1 showed a canonical dimeric organization with bound GSH or MES molecules. The structure of these protein-substrate complexes allowed delineating the residues contributing to both the G and H sites that form the active site cavity. In sum, the presence of GSTF1 transcripts and proteins in most poplar organs especially those rich in secondary metabolites such as flowers and fruits, together with its GSH-conjugation activity and its documented stress-responsive expression suggest that its function is associated with the catalytic transformation of metabolites and/or peroxide removal rather than with ligandin properties as previously reported for other GSTFs.

PhD defense: T. Roret

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The PhD defense of T. Roret will be held the 28th November 2014 at 2pm in Amphitheater 7, Faculté des Sciences, Boulevard des Aiguillettes, Vandoeuvre

Title: “Caractérisation structurale d’états oligomériques de protéines impliquées dans l’homéostasie du fer : les protéines BolA et les glutarédoxines. »

Seminar: B. Marçais

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The  seminar of Benoît Marçais (IAM) entitled « « Long term impact of Phytophtora alni on a riparian alder population » » will be held Friday 28th November .The seminar will start at 13h30  in the LGEF meeting room.

Seminars: S. Andrade/O. Einsle

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  • The  seminar of Susana Andrade (Universität Freiburg, Germany) entitled  « The Amt/Rh Family of Ammonium Transport Proteins » will be held Friday 14th November. The seminar will start at 11.00 am in the meeting room Bat B, 7th floor FST.
  •  The  seminar of Oliver Einsle (Institute for Biochemistry, Albert-Ludwigs-Universität Freiburg) entitled « Biological Nitrogen Fixation: Structure and Reactivity of Nitrogenase » will be held Friday 14th November .The seminar will start at 14.00 pm in the meeting room Bat B, 7th floor FST.