P
Pierre Rouzé
Researcher at Ghent University
Publications - 113
Citations - 26297
Pierre Rouzé is an academic researcher from Ghent University. The author has contributed to research in topics: Genome & Gene. The author has an hindex of 57, co-authored 113 publications receiving 23242 citations. Previous affiliations of Pierre Rouzé include Flanders Institute for Biotechnology & Institut national de la recherche agronomique.
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Journal ArticleDOI
PlantCARE, a database of plant cis-acting regulatory elements and a portal to tools for in silico analysis of promoter sequences
Magali Lescot,Patrice Dehais,Gert Thijs,Kathleen Marchal,Yves Moreau,Yves Van de Peer,Pierre Rouzé,Stephane Rombauts +7 more
TL;DR: New features have been implemented to search for plant cis-acting regulatory elements in a query sequence and links are now provided to a new clustering and motif search method to investigate clusters of co-expressed genes.
Journal ArticleDOI
The genome of black cottonwood, Populus trichocarpa (Torr. & Gray)
Gerald A. Tuskan,Gerald A. Tuskan,Stephen P. DiFazio,Stephen P. DiFazio,Stefan Jansson,Joerg Bohlmann,Igor V. Grigoriev,Uffe Hellsten,Nicholas H. Putnam,Steven G. Ralph,Stephane Rombauts,Asaf Salamov,Jacquie Schein,Lieven Sterck,Andrea Aerts,Rishikeshi Bhalerao,Rishikesh P. Bhalerao,Damien Blaudez,Wout Boerjan,Annick Brun,Amy M. Brunner,Victor Busov,Malcolm M. Campbell,John E. Carlson,Michel Chalot,Jarrod Chapman,G.-L. Chen,Dawn Cooper,Pedro M. Coutinho,Jérémy Couturier,Sarah F. Covert,Quentin C. B. Cronk,R. Cunningham,John M. Davis,Sven Degroeve,Annabelle Déjardin,Claude W. dePamphilis,John C. Detter,Bill Dirks,Inna Dubchak,Inna Dubchak,Sébastien Duplessis,Jürgen Ehlting,Brian E. Ellis,Karla C Gendler,David Goodstein,Michael Gribskov,Jane Grimwood,Andrew Groover,Lee E. Gunter,Björn Hamberger,Berthold Heinze,Yrjö Helariutta,Yrjö Helariutta,Yrjö Helariutta,Bernard Henrissat,D. Holligan,Robert A. Holt,Wenyu Huang,N. Islam-Faridi,Steven J.M. Jones,M. Jones-Rhoades,Richard A. Jorgensen,Chandrashekhar P. Joshi,Jaakko Kangasjärvi,Jan Karlsson,Colin T. Kelleher,Robert Kirkpatrick,Matias Kirst,Annegret Kohler,Udaya C. Kalluri,Frank W. Larimer,Jim Leebens-Mack,Jean-Charles Leplé,Philip F. LoCascio,Y. Lou,Susan Lucas,Francis Martin,Barbara Montanini,Carolyn A. Napoli,David R. Nelson,C D Nelson,Kaisa Nieminen,Ove Nilsson,V. Pereda,Gary F. Peter,Ryan N. Philippe,Gilles Pilate,Alexander Poliakov,J. Razumovskaya,Paul G. Richardson,Cécile Rinaldi,Kermit Ritland,Pierre Rouzé,D. Ryaboy,Jeremy Schmutz,J. Schrader,Bo Segerman,H. Shin,Asim Siddiqui,Fredrik Sterky,Astrid Terry,Chung-Jui Tsai,Edward C. Uberbacher,Per Unneberg,Jorma Vahala,Kerr Wall,Susan R. Wessler,Guojun Yang,T. Yin,Carl J. Douglas,Marco A. Marra,Göran Sandberg,Y. Van de Peer,Daniel S. Rokhsar,Daniel S. Rokhsar +115 more
TL;DR: The draft genome of the black cottonwood tree, Populus trichocarpa, has been reported in this paper, with more than 45,000 putative protein-coding genes identified.
Journal ArticleDOI
The genome of the domesticated apple ( Malus × domestica Borkh.)
Riccardo Velasco,Andrey Zharkikh,Jason P. Affourtit,Amit Dhingra,Alessandro Cestaro,Ananth Kalyanaraman,Paolo Fontana,Satish Bhatnagar,Michela Troggio,Dmitry Pruss,Silvio Salvi,Massimo Pindo,Paolo Baldi,Sara Castelletti,Marina Cavaiuolo,G. Coppola,Fabrizio Costa,V. Cova,Antonio Dal Ri,Vadim V. Goremykin,M. Komjanc,Sara Longhi,P. Magnago,Giulia Malacarne,Mickael Malnoy,Diego Micheletti,Marco Moretto,Michele Perazzolli,Azeddine Si-Ammour,Silvia Vezzulli,E. Zini,Glenn Eldredge,Lisa M. Fitzgerald,N. Gutin,Jerry S. Lanchbury,Teresita Macalma,J.T. Mitchell,Julia Reid,Bryan Wardell,Chinnappa D. Kodira,Zhoutao Chen,Brian Desany,Faheem Niazi,Melinda Palmer,Tyson Koepke,Derick Jiwan,Scott Schaeffer,Vandhana Krishnan,Changjun Wu,Vu T. Chu,Stephen T. King,Jessica Vick,Quanzhou Tao,Amy Mraz,Aimee Stormo,Keith E. Stormo,Robert Bogden,Davide Ederle,Alessandra Stella,Alberto Vecchietti,Martin M. Kater,Simona Masiero,Pauline Lasserre,Yves Lespinasse,Andrew C. Allan,Vincent G. M. Bus,David Chagné,Ross N. Crowhurst,Andrew P. Gleave,Enrico Lavezzo,Jeffrey A. Fawcett,Jeffrey A. Fawcett,Sebastian Proost,Sebastian Proost,Pierre Rouzé,Pierre Rouzé,Lieven Sterck,Lieven Sterck,Stefano Toppo,Barbara Lazzari,Roger P. Hellens,Charles-Eric Durel,Alexander Gutin,Roger E. Bumgarner,Susan E. Gardiner,Mark H. Skolnick,Michael Egholm,Yves Van de Peer,Yves Van de Peer,Francesco Salamini,Roberto Viola +90 more
TL;DR: It is shown that a relatively recent (>50 million years ago) genome-wide duplication has resulted in the transition from nine ancestral chromosomes to 17 chromosomes in the Pyreae, which partly support the monophyly of the ancestral paleohexaploidy of eudicots.
Journal ArticleDOI
The genome of Laccaria bicolor provides insights into mycorrhizal symbiosis
Francis Martin,Andrea Aerts,Dag Ahrén,Annick Brun,Etienne Danchin,Frédéric Duchaussoy,Julien Gibon,Annegret Kohler,Erika Lindquist,V. Pereda,Asaf Salamov,Harris Shapiro,Jan Wuyts,Damien Blaudez,Marc Buée,Peter Brokstein,Björn Canbäck,David E. Cohen,Pierre-Emmanuel Courty,Pedro M. Coutinho,Christine Delaruelle,John C. Detter,Aurélie Deveau,Stephen P. DiFazio,Sébastien Duplessis,Laurence Fraissinet-Tachet,E. Lucic,Pascale Frey-Klett,C. Fourrey,Ivo Feussner,Jane Grimwood,Patrik J. Hoegger,Preti Jain,Sreedhar Kilaru,Jessy Labbé,Yao-Cheng Lin,Valérie Legué,F. Le Tacon,Roland Marmeisse,Delphine Melayah,Barbara Montanini,Michael Muratet,Uwe Nehls,Hélène Niculita-Hirzel,M. P. Oudot-Le Secq,Martina Peter,Hadi Quesneville,Balaji Rajashekar,Marlis Reich,Nicolas Rouhier,Jeremy Schmutz,T. Yin,Michel Chalot,Bernard Henrissat,Ursula Kües,Susan Lucas,Y. Van de Peer,Gopi K. Podila,Andrea Polle,Patricia J. Pukkila,Paul G. Richardson,Pierre Rouzé,Ian R. Sanders,Jason E. Stajich,Anders Tunlid,Gerald A. Tuskan,Igor V. Grigoriev +66 more
TL;DR: The predicted gene inventory of the L. bicolor genome points to previously unknown mechanisms of symbiosis operating in biotrophic mycorrhizal fungi, providing an unparalleled opportunity to develop a deeper understanding of the processes by which symbionts interact with plants within their ecosystem to perform vital functions in the carbon and nitrogen cycles that are fundamental to sustainable plant productivity.
Journal ArticleDOI
The genome of Tetranychus urticae reveals herbivorous pest adaptations
Miodrag Grbic,Miodrag Grbic,Thomas Van Leeuwen,Richard M. Clark,Stephane Rombauts,Pierre Rouzé,Vojislava Grbic,Vojislava Grbic,Edward J. Osborne,Wannes Dermauw,Phuong Cao Thi Ngoc,Félix Ortego,Pedro Hernández-Crespo,Isabel Diaz,Manuel Martinez,Maria Navajas,Élio Sucena,Élio Sucena,Sara Magalhães,Lisa M. Nagy,Ryan M. Pace,Sergej Djuranovic,Guy Smagghe,Masatoshi Iga,Olivier Christiaens,Jan A. Veenstra,John Ewer,Rodrigo Mancilla Villalobos,Jeffrey L. Hutter,Stephen D. Hudson,Marisela Vélez,Marisela Vélez,Soojin V. Yi,Jia Zeng,Andre Pires-daSilva,Fernando Roch,Marc Cazaux,Marie Navarro,Vladimir Zhurov,Gustavo Acevedo,Anica Bjelica,Jeffrey A. Fawcett,Jeffrey A. Fawcett,Eric Bonnet,Eric Bonnet,Cindy Martens,Guy Baele,Lothar Wissler,Aminael Sánchez-Rodríguez,Luc Tirry,Catherine Blais,Kristof Demeestere,Stefan R. Henz,T. Ryan Gregory,Johannes Mathieu,Lou Verdon,Laurent Farinelli,Jeremy Schmutz,Erika Lindquist,René Feyereisen,Yves Van de Peer +60 more
TL;DR: The Tetranychus urticae genome is the smallest known arthropod genome as discussed by the authors, which represents the first complete chelicerate genome for a pest and has been annotated with genes associated with feeding on different hosts.