Journal ArticleDOI
Phylogeny and classification of Rosaceae
Daniel Potter,Torsten Eriksson,Rodger C. Evans,Sang-Hun Oh,Jenny E. E. Smedmark,David R. Morgan,Malin Kerr,Kenneth R. Robertson,Matthew P. Arsenault,Timothy A. Dickinson,Christopher S. Campbell +10 more
TLDR
Strong support for monophyly of groups corresponding closely to many previously recognized tribes and subfamilies is found, but no previous classification was entirely supported, and relationships among the strongly supported clades were weakly resolved and/or conflicted between some data sets.Abstract:
Phylogenetic relationships among 88 genera of Rosaceae were investigated using nucleotide sequence data from six nuclear (18S, gbssi1, gbssi2, ITS, pgip, and ppo) and four chloroplast (matK, ndhF, rbcL, and trnL-trnF) regions, separately and in various combinations, with parsimony and likelihood-based Bayesian approaches. The results were used to examine evolution of non-molecular characters and to develop a new phylogenetically based infrafamilial classification. As in previous molecular phylogenetic analyses of the family, we found strong support for monophyly of groups corresponding closely to many previously recognized tribes and subfamilies, but no previous classification was entirely supported, and relationships among the strongly supported clades were weakly resolved and/or conflicted between some data sets. We recognize three subfamilies in Rosaceae: Rosoideae, including Filipendula, Rubus, Rosa, and three tribes; Dryadoideae, comprising the four actinorhizal genera; and Spiraeoideae, comprising Lyonothamnus and seven tribes. All genera previously assigned to Amygdaloideae and Maloideae are included in Spiraeoideae. Three supertribes, one in Rosoideae and two in Spiraeoideae, are recognized.read more
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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 woodland strawberry ( Fragaria vesca )
Vladimir Shulaev,Daniel J. Sargent,Ross N. Crowhurst,Todd C. Mockler,Otto Folkerts,Arthur L. Delcher,Pankaj Jaiswal,Keithanne Mockaitis,Aaron Liston,Shrinivasrao P. Mane,Paul Burns,Thomas M. Davis,Janet P. Slovin,Nahla V. Bassil,Roger P. Hellens,Clive Evans,Tim Harkins,Chinnappa D. Kodira,Brian Desany,Oswald Crasta,Roderick V. Jensen,Andrew C. Allan,Andrew C. Allan,Todd P. Michael,João C. Setubal,Jean-Marc Celton,D. Jasper G. Rees,Kelly P. Williams,Sarah H. Holt,Juan Jairo Ruiz Rojas,Mithu Chatterjee,Bo Liu,Herman Silva,Lee A. Meisel,Avital Adato,Sergei A. Filichkin,Michela Troggio,Roberto Viola,Tia-Lynn Ashman,Hao Wang,Palitha Dharmawardhana,Justin Elser,Rajani Raja,Henry D. Priest,Douglas W. Bryant,Samuel E. Fox,Scott A. Givan,Larry J. Wilhelm,Sushma Naithani,Alan Christoffels,David Y. Salama,Jade Carter,Elena Lopez Girona,Anna Zdepski,Wenqin Wang,Randall A. Kerstetter,Wilfried Schwab,Schuyler S. Korban,Jahn Davik,Amparo Monfort,Beatrice Denoyes-Rothan,Pere Arús,Ron Mittler,Barry S. Flinn,Asaph Aharoni,Jeffrey L. Bennetzen,Steven L. Salzberg,Allan W. Dickerman,Riccardo Velasco,Mark Borodovsky,Richard E. Veilleux,Kevin M. Folta +71 more
TL;DR: New phylogenetic analysis of 154 protein-coding genes suggests that assignment of Populus to Malvidae, rather than Fabidae, is warranted, and macrosyntenic relationships between Fragaria and Prunus predict a hypothetical ancestral Rosaceae genome that had nine chromosomes.
Journal ArticleDOI
The high-quality draft genome of peach ( Prunus persica ) identifies unique patterns of genetic diversity, domestication and genome evolution
Ignazio Verde,Albert G. Abbott,Simone Scalabrin,Sook Jung,Shengqiang Shu,Fabio Marroni,Tatyana Zhebentyayeva,Maria Teresa Dettori,Jane Grimwood,Federica Cattonaro,Andrea Zuccolo,Laura Rossini,Jerry Jenkins,Elisa Vendramin,Lee A. Meisel,Véronique Decroocq,Bryon Sosinski,Simon E. Prochnik,Therese Mitros,Alberto Policriti,Guido Cipriani,Luca Dondini,Stephen P. Ficklin,David Goodstein,Pengfei Xuan,Cristian Del Fabbro,Valeria Aramini,Dario Copetti,Susana González,David S. Horner,Rachele Falchi,Susan Lucas,Erica Mica,Jonathan Maldonado,Barbara Lazzari,Douglas G. Bielenberg,Raul Pirona,Mara Miculan,Abdelali Barakat,Raffaele Testolin,Alessandra Stella,Stefano Tartarini,Pietro Tonutti,Pere Arús,Ariel Orellana,Christina E. Wells,Dorrie Main,Giannina Vizzotto,Herman Silva,Francesco Salamini,Jeremy Schmutz,Michele Morgante,Daniel S. Rokhsar +52 more
TL;DR: Comparisons showed that peach has not undergone recent whole-genome duplication, and even though the ancestral triplicated blocks in peach are fragmentary compared to those in grape, all seven paleosets of paralogs from the putative paleoancestor are detectable.
Journal ArticleDOI
Angiosperm phylogeny: 17 genes, 640 taxa
Douglas E. Soltis,Stephen A. Smith,Nico Cellinese,Kenneth J. Wurdack,David C. Tank,Samuel F. Brockington,Nancy F. Refulio-Rodriguez,Jay B. Walker,Michael J. Moore,Barbara S. Carlsward,Charles D. Bell,Maribeth Latvis,Maribeth Latvis,Sunny Crawley,Chelsea Black,Diaga Diouf,Zhenxiang Xi,Catherine A. Rushworth,Matthew A. Gitzendanner,Matthew A. Gitzendanner,Kenneth J. Sytsma,Yin Long Qiu,Khidir W. Hilu,Charles C. Davis,Michael J. Sanderson,Reed S. Beaman,Richard G. Olmstead,Walter S. Judd,Michael J. Donoghue,Pamela S. Soltis +29 more
TL;DR: It is confirmed that with large amounts of sequence data, most deep-level relationships within the angiosperms can be resolved and will be of broad utility for many areas of biology, including physiology, ecology, paleobiology, and genomics.
Journal ArticleDOI
An R2R3 MYB transcription factor associated with regulation of the anthocyanin biosynthetic pathway in Rosaceae
Kui Lin-Wang,Karen Bolitho,Karryn Grafton,A.J. Kortstee,Sakuntala Karunairetnam,Tony K. McGhie,Richard V. Espley,Roger P. Hellens,Andrew C. Allan +8 more
TL;DR: This family-wide study of rosaceous R2R3 MYBs provides insight into the evolution of this plant trait, which has implications for the development of new coloured fruit and flowers, as well as aiding the understanding of temporal-spatial colour change.
References
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TL;DR: ClUSTAL X is a new windows interface for the widely-used progressive multiple sequence alignment program CLUSTAL W, providing an integrated system for performing multiple sequence and profile alignments and analysing the results.
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