J
Johnathon D. Fankhauser
Researcher at University of Minnesota
Publications - 10
Citations - 1050
Johnathon D. Fankhauser is an academic researcher from University of Minnesota. The author has contributed to research in topics: Genus & Thlaspi arvense. The author has an hindex of 8, co-authored 10 publications receiving 911 citations. Previous affiliations of Johnathon D. Fankhauser include American Museum of Natural History.
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Journal ArticleDOI
New primers for promising single-copy genes in fungal phylogenetics and systematics.
Imke Schmitt,Ana Crespo,Pradeep K. Divakar,Johnathon D. Fankhauser,E. Herman-Sackett,Klaus Kalb,Matthew P. Nelsen,N.A. Nelson,E. Rivas-Plata,A.D. Shimp,Todd J. Widhelm,H. T. Lumbsch +11 more
TL;DR: Degenerate primers that amplify the single-copy genes Mcm7 (MS456) and Tsr1 (MS277) across a wide range of Pezizomycotina (Ascomycota) are reported and analyses suggest that the new primers will need no, or only minor sequence modifications to amplify Saccharomycotins, Taphrinomycotinas and Basidiomycota.
Journal ArticleDOI
One hundred new species of lichenized fungi : a signature of undiscovered global diversity
H. Thorsten Lumbsch,Teuvo Ahti,Susanne Altermann,Guillermo Amo de Paz,André Aptroot,Ulf Arup,Alejandrina Barcenas Peña,Paulina A. Bawingan,Michel Navarro Benatti,Luisa Betancourt,Curtis R. Björk,Kansri Boonpragob,Maarten Brand,Frank Bungartz,Marcela Eugenia da Silva Cáceres,Mehtmet Candan,José Luis Chaves,Philippe Clerc,Ralph S. Common,Brian J. Coppins,Ana Crespo,Manuela Dal-Forno,Pradeep K. Divakar,Melizar V. Duya,John A. Elix,Arve Elvebakk,Johnathon D. Fankhauser,Edith Farkas,Lidia Itati Ferraro,Eberhard Fischer,David J. Galloway,Ester Gaya,Mireia Giralt,Trevor Goward,Martin Grube,Josef Hafellner,Jesús E. Hernández M.,Maria de los Angeles Herrera Campos,Klaus Kalb,Ingvar Kärnefelt,Gintaras Kantvilas,Dorothee Killmann,Paul M. Kirika,Kerry Knudsen,Harald Komposch,Sergey Y. Kondratyuk,James D. Lawrey,Armin Mangold,Marcelo Pinto Marcelli,Bruce McCune,María Inés Messuti,Andrea Michlig,Ricardo Miranda González,Bibiana Moncada,Alifereti Naikatini,Matthew P. Nelsen,Dag Olav Øvstedal,Zdenek Palice,Zdenek Palice,Khwanruan Papong,Sittiporn Parnmen,Sergio Pérez-Ortega,Christian Printzen,Víctor J. Rico,Eimy Rivas Plata,Javier Robayo,Dania Rosabal,Ulrike Ruprecht,Noris Salazar Allen,Leopoldo G. Sancho,Luciana Santo de Jesus,Tamires dos Santos Vieira,Matthias Schultz,Mark R. D. Seaward,Emmanuël Sérusiaux,Imke Schmitt,Harrie J. M. Sipman,Mohammad Sohrabi,Ulrik Søchting,Majbrit Zeuthen Søgaard,Laurens B. Sparrius,Adriano Afonso Spielmann,Toby Spribille,Jutarat Sutjaritturakan,Achra Thammathaworn,Arne Thell,Göran Thor,Holger Thüs,Einar Timdal,Camille Truong,Roman Türk,Loengrin Umana Tenorio,Dalip K. Upreti,Pieter P. G. van den Boom,Mercedes Rebuelta,Mats Wedin,Susan Will-Wolf,Volkmar Wirth,Nora Wirtz,Rebecca Yahr,Kumelachew Yeshitela,Frauke Ziemmeck,Tim Wheeler,Robert Lücking +103 more
TL;DR: A total of 100 new species of lichenized fungi are described, representing a wide taxonomic and geographic range, and emphasizing the dire need for taxonomic expertise in lichenology.
Journal ArticleDOI
Host Genotype Shapes the Foliar Fungal Microbiome of Balsam Poplar (Populus balsamifera)
Miklós Bálint,Peter Tiffin,Björn M. Hallström,Robert B. O'Hara,Matthew S. Olson,Matthew S. Olson,Johnathon D. Fankhauser,Meike Piepenbring,Imke Schmitt +8 more
TL;DR: Host genotype-specific fungal communities may be present in the tree systemically, and persist in the host even after two clonal reproductions, and suggest that there is a functional basis for the strong biotic interaction.
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Origins of multicellular evolvability in snowflake yeast
TL;DR: This work demonstrates that simple microev evolutionary changes can have profound macroevolutionary consequences, and suggests that the formation of clonally developing clusters may often be the first step to multicellularity.
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A draft genome of field pennycress (Thlaspi arvense) provides tools for the domestication of a new winter biofuel crop
TL;DR: A comprehensive analysis of pennycress gene homologues involved in glucosinolate biosynthesis, metabolism, and transport pathways revealed high sequence conservation compared with other Brassicaceae species, and helps validate the assembly of the penny cress gene space in this draft genome.