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Robert Otillar
Researcher at United States Department of Energy
Publications - 20
Citations - 11747
Robert Otillar is an academic researcher from United States Department of Energy. The author has contributed to research in topics: Genome & Genome evolution. The author has an hindex of 17, co-authored 20 publications receiving 10310 citations. Previous affiliations of Robert Otillar include Joint Genome Institute & Lawrence Berkeley National Laboratory.
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Journal ArticleDOI
The Sorghum bicolor genome and the diversification of grasses
Andrew H. Paterson,John E. Bowers,Rémy Bruggmann,Inna Dubchak,Jane Grimwood,Heidrun Gundlach,Georg Haberer,Uffe Hellsten,Therese Mitros,Alexander Poliakov,Jeremy Schmutz,Manuel Spannagl,Haibao Tang,Xiyin Wang,Xiyin Wang,Thomas Wicker,Arvind K. Bharti,Jarrod Chapman,F. Alex Feltus,F. Alex Feltus,Udo Gowik,Igor V. Grigoriev,Eric Lyons,Christopher G. Maher,Mihaela Martis,Apurva Narechania,Robert Otillar,Bryan W. Penning,Asaf Salamov,Yu Wang,Lifang Zhang,Nicholas C. Carpita,Michael Freeling,Alan R. Gingle,C. Thomas Hash,Beat Keller,Patricia E. Klein,Stephen Kresovich,Maureen C. McCann,Ray Ming,Daniel G. Peterson,Daniel G. Peterson,Mehboob-ur-Rahman,Mehboob-ur-Rahman,Doreen Ware,Doreen Ware,Peter Westhoff,Klaus F. X. Mayer,Joachim Messing,Daniel S. Rokhsar,Daniel S. Rokhsar +50 more
TL;DR: An initial analysis of the ∼730-megabase Sorghum bicolor (L.) Moench genome is presented, placing ∼98% of genes in their chromosomal context using whole-genome shotgun sequence validated by genetic, physical and syntenic information.
Journal ArticleDOI
The Phaeodactylum genome reveals the evolutionary history of diatom genomes
Chris Bowler,Andrew E. Allen,Andrew E. Allen,Jonathan H. Badger,Jane Grimwood,Kamel Jabbari,Alan Kuo,Uma Maheswari,Cindy Martens,Florian Maumus,Robert Otillar,Edda Rayko,Asaf Salamov,Klaas Vandepoele,Bank Beszteri,Ansgar Gruber,Marc Heijde,Michael Katinka,Thomas Mock,Klaus Valentin,Frédéric Verret,John A. Berges,Colin Brownlee,Jean-Paul Cadoret,Anthony Chiovitti,Chang Jae Choi,Sacha Coesel,Alessandra De Martino,J. Chris Detter,Colleen A. Durkin,Angela Falciatore,Jérome Fournet,Miyoshi Haruta,Marie J. J. Huysman,Bethany D. Jenkins,Katerina Jiroutova,Richard E. Jorgensen,Yolaine Joubert,Aaron Kaplan,Nils Kröger,Peter G. Kroth,Erica Lindquist,Markus Lommer,Véronique Martin-Jézéquel,Pascal J. Lopez,Susan Lucas,Manuela Mangogna,Karen M. McGinnis,Linda K. Medlin,Anton Montsant,Anton Montsant,Marie-Pierre Oudot-Le Secq,Carolyn A. Napoli,Miroslav Oborník,Micaela S. Parker,Jean-Louis Petit,Betina M. Porcel,Nicole Poulsen,Matthew Robison,Leszek Rychlewski,Tatiana A. Rynearson,Jeremy Schmutz,Jeremy Schmutz,Harris Shapiro,Magali Siaut,Michele S. Stanley,Michael R. Sussman,Alison Taylor,Assaf Vardi,Peter von Dassow,Wim Vyverman,Anusuya Willis,Lucyan S. Wyrwicz,Daniel S. Rokhsar,Jean Weissenbach,E. Virginia Armbrust,Beverley R. Green,Yves Van de Peer,Igor V. Grigoriev +78 more
TL;DR: Analysis of molecular divergence compared with yeasts and metazoans reveals rapid rates of gene diversification in diatoms, and documents the presence of hundreds of genes from bacteria, likely to provide novel possibilities for metabolite management and for perception of environmental signals.
Journal ArticleDOI
The paleozoic origin of enzymatic lignin decomposition reconstructed from 31 fungal genomes
Dimitrios Floudas,Manfred Binder,Robert Riley,Kerrie Barry,Robert A. Blanchette,Bernard Henrissat,Ángel T. Martínez,Robert Otillar,Joseph W. Spatafora,Jagjit S. Yadav,Andrea Aerts,Isabelle Benoit,Alexander Boyd,Alexis Carlson,Alex Copeland,Pedro M. Coutinho,Ronald P. de Vries,Patricia Ferreira,Keisha Findley,Brian Foster,Jill Gaskell,Dylan Glotzer,Paweł Górecki,Joseph Heitman,Cedar N. Hesse,Chiaki Hori,Kiyohiko Igarashi,Joel A. Jurgens,Nathan M Kallen,Phil Kersten,Annegret Kohler,Ursula Kües,T. K. Arun Kumar,Alan Kuo,Kurt LaButti,Luis F. Larrondo,Erika Lindquist,Albee Y. Ling,Vincent Lombard,Susan Lucas,Taina Lundell,Rachael Martin,David J. McLaughlin,Ingo Morgenstern,Emanuelle Morin,Claude Murat,László Nagy,Matthew J Nolan,Robin A. Ohm,Aleksandrina Patyshakuliyeva,Antonis Rokas,Francisco J. Ruiz-Dueñas,Grzegorz Sabat,Asaf Salamov,Masahiro Samejima,Jeremy Schmutz,Jason C. Slot,Franz J. St John,Jan Stenlid,Hui Sun,Sheng Sun,Khajamohiddin Syed,Adrian Tsang,Ad Wiebenga,Darcy Young,Antonio G. Pisabarro,Daniel C. Eastwood,Francis Martin,Dan Cullen,Igor V. Grigoriev,David S. Hibbett +70 more
TL;DR: Comparative analyses of 31 fungal genomes suggest that lignin-degrading peroxidases expanded in the lineage leading to the ancestor of the Agaricomycetes, which is reconstructed as a white rot species, and then contracted in parallel lineages leading to brown rot and mycorrhizal species.
Journal ArticleDOI
MycoCosm portal: gearing up for 1000 fungal genomes
Igor V. Grigoriev,Roman Nikitin,Sajeet Haridas,Alan Kuo,Robin A. Ohm,Robert Otillar,Robert Riley,Asaf Salamov,Xueling Zhao,Frank Korzeniewski,Tatyana Smirnova,Henrik P. Nordberg,Inna Dubchak,Igor Shabalov +13 more
TL;DR: MycoCosm is a fungal genomics portal developed by the US Department of Energy Joint Genome Institute to support integration, analysis and dissemination of fungal genome sequences and other 'omics' data by providing interactive web-based tools.
Journal ArticleDOI
The Selaginella genome identifies genetic changes associated with the evolution of vascular plants.
Jo Ann Banks,Tomoaki Nishiyama,Mitsuyasu Hasebe,Mitsuyasu Hasebe,John L. Bowman,John L. Bowman,Michael Gribskov,Claude W. dePamphilis,Victor A. Albert,Naoki Aono,Tsuyoshi Aoyama,Tsuyoshi Aoyama,Barbara A. Ambrose,Neil W. Ashton,Michael J. Axtell,Elizabeth I. Barker,Michael S. Barker,Jeffrey L. Bennetzen,Nicholas D. Bonawitz,Clint Chapple,Chaoyang Cheng,Luiz Gustavo Guedes Corrêa,Michael Dacre,Jeremy D. DeBarry,Ingo Dreyer,Marek Eliáš,Eric M. Engstrom,Mark Estelle,Liang Feng,Cédric Finet,Sandra K. Floyd,Wolf B. Frommer,Tomomichi Fujita,Lydia Gramzow,Michael Gutensohn,Michael Gutensohn,Jesper Harholt,Mitsuru Hattori,Mitsuru Hattori,Alexander Heyl,Tadayoshi Hirai,Yuji Hiwatashi,Yuji Hiwatashi,Masaki Ishikawa,Mineko Iwata,Kenneth G. Karol,Barbara Koehler,Uener Kolukisaoglu,Uener Kolukisaoglu,Minoru Kubo,Tetsuya Kurata,Sylvie Lalonde,Kejie Li,Ying Li,Ying Li,Amy Litt,Eric Lyons,Gerard Manning,Takeshi Maruyama,Todd P. Michael,Koji Mikami,Saori Miyazaki,Saori Miyazaki,Shin-Ichi Morinaga,Shin-Ichi Morinaga,TakashiMurata,TakashiMurata,Bernd Mueller-Roeber,David R. Nelson,Mari Obara,Yasuko Oguri,Richard G. Olmstead,Naoko T. Onodera,Bent O. Petersen,Birgit Pils,Michael J. Prigge,Stefan A. Rensing,Diego Mauricio Riaño-Pachón,Diego Mauricio Riaño-Pachón,Alison W. Roberts,Yoshikatsu Sato,Henrik Vibe Scheller,Henrik Vibe Scheller,Burkhard Schulz,Christian Schulz,Eugene V. Shakirov,Nakako Shibagaki,Naoki Shinohara,Dorothy E. Shippen,Iben Sørensen,Iben Sørensen,Ryo Sotooka,Nagisa Sugimoto,Mamoru Sugita,Naomi Sumikawa,Milos Tanurdzic,Günter Theißen,Peter Ulvskov,Sachiko Wakazuki,Jing-Ke Weng,Jing-Ke Weng,William G.T. Willats,Daniel Wipf,Paul G. Wolf,Lixing Yang,Andreas Zimmer,Qihui Zhu,Therese Mitros,Uffe Hellsten,Dominique Loqué,Robert Otillar,Asaf Salamov,Jeremy Schmutz,Harris Shapiro,Erika Lindquist,Susan Lucas,Daniel S. Rokhsar,Daniel S. Rokhsar,Igor V. Grigoriev +118 more
TL;DR: The genome sequence of the lycophyte Selaginella moellendorffii (Selaginella), the first nonseed vascular plant genome reported, is reported, finding that the transition from a gametophytes- to a sporophyte-dominated life cycle required far fewer new genes than the Transition from a non Seed vascular to a flowering plant.