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Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for Fungi
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Six DNA regions were evaluated as potential DNA barcodes for
Fungi
, the second largest kingdom of eukaryotic life, by a multinational, multilaboratory consortium. The region of the mitochondrial cytochrome
c
oxidase subunit 1 used as the animal barcode was excluded as a potential marker, because it is difficult to amplify in fungi, often includes large introns, and can be insufficiently variable. Three subunits from the nuclear ribosomal RNA cistron were compared together with regions of three representative protein-coding genes (largest subunit of RNA polymerase II, second largest subunit of RNA polymerase II, and minichromosome maintenance protein). Although the protein-coding gene regions often had a higher percent of correct identification compared with ribosomal markers, low PCR amplification and sequencing success eliminated them as candidates for a universal fungal barcode. Among the regions of the ribosomal cistron, the internal transcribed spacer (ITS) region has the highest probability of successful identification for the broadest range of fungi, with the most clearly defined barcode gap between inter- and intraspecific variation. The nuclear ribosomal large subunit, a popular phylogenetic marker in certain groups, had superior species resolution in some taxonomic groups, such as the early diverging lineages and the ascomycete yeasts, but was otherwise slightly inferior to the ITS. The nuclear ribosomal small subunit has poor species-level resolution in fungi. ITS will be formally proposed for adoption as the primary fungal barcode marker to the Consortium for the Barcode of Life, with the possibility that supplementary barcodes may be developed for particular narrowly circumscribed taxonomic groups.
Proceedings of the National Academy of Sciences
Conrad L. Schoch
Keith A. Seifert
Sabine Huhndorf
Vincent Robert
John L. Spouge
C. André Levesque
Wen Chen
Elena Bolchacova
Kerstin Voigt
Pedro W. Crous
Andrew N. Miller
Michael J. Wingfield
M. Catherine Aime
Kwang-Deuk An
Feng-Yan Bai
Robert W. Barreto
Dominik Begerow
Marie-Josée Bergeron
Meredith Blackwell
Teun Boekhout
Mesfin Bogale
Nattawut Boonyuen
Ana R. Burgaz
Bart Buyck
Lei Cai
Qing Cai
G. Cardinali
Priscila Chaverri
Brian J. Coppins
Ana Crespo
Paloma Cubas
Craig Cummings
Ulrike Damm
Z. Wilhelm de Beer
G. Sybren de Hoog
Ruth Del-Prado
Bryn Dentinger
Javier Diéguez-Uribeondo
Pradeep K. Divakar
Brian Douglas
Margarita Dueñas
Tuan A. Duong
Ursula Eberhardt
Joan E. Edwards
Mostafa S. Elshahed
Katerina Fliegerova
Manohar Furtado
Miguel A. García
Zai-Wei Ge
Gareth W. Griffith
K. Griffiths
Johannes Z. Groenewald
Marizeth Groenewald
Martin Grube
Marieka Gryzenhout
Liang-Dong Guo
Ferry Hagen
Sarah Hambleton
Richard C. Hamelin
Karen Hansen
Paul Harrold
Gregory Heller
Cesar Herrera
Kazuyuki Hirayama
Yuuri Hirooka
Hsiao-Man Ho
Kerstin Hoffmann
Valérie Hofstetter
Filip Högnabba
Peter M. Hollingsworth
Seung-Beom Hong
Kentaro Hosaka
Jos Houbraken
Karen Hughes
Seppo Huhtinen
Kevin D. Hyde
Timothy James
Eric M. Johnson
Joan E. Johnson
Peter R. Johnston
E.B. Gareth Jones
Laura J. Kelly
Paul M. Kirk
Dániel G. Knapp
Urmas Kõljalg
Gábor M. Kovács
Cletus P. Kurtzman
Sara Landvik
Steven D. Leavitt
Audra S. Liggenstoffer
Kare Liimatainen
Lorenzo Lombard
J. Jennifer Luangsa-ard
H. Thorsten Lumbsch
Harinad Maganti
Sajeewa S. N. Maharachchikumbura
María P. Martin
Tom W. May
Alistair R. McTaggart
Andrew S. Methven
Wieland Meyer
Jean-Marc Moncalvo
Suchada Mongkolsamrit
László G. Nagy
R. Henrik Nilsson
Tuula Niskanen
Ildikó Nyilasi
Gen Okada
Izumi Okane
Ibai Olariaga
Jürgen Otte
Tamás Papp
Duckchul Park
Tamás Petkovits
Raquel Pino-Bodas
William Quaedvlieg
Huzefa A. Raja
Dirk Redecker
Tara L. Rintoul
Constantino Ruibal
Jullie M. Sarmiento-Ramírez
Imke Schmitt
Arthur Schüßler
Carol Shearer
Kozue Sotome
Franck O.P. Stefani
Soili Stenroos
Benjamin Stielow
Herbert Stockinger
Satinee Suetrong
Sung-Oui Suh
Gi-Ho Sung
Motofumi Suzuki
Kazuaki Tanaka
Leho Tedersoo
M. Teresa Telleria
Eric Tretter
Wendy A. Untereiner
Hector Urbina
Csaba Vágvölgyi
Agathe Vialle
Thuy Duong Vu
Grit Walther
Qi-Ming Wang
Yan Wang
Bevan S. Weir
Michael Weiß
Merlin M. White
Jianping Xu
Rebecca Yahr
Zhu L. Yang
Andrey Yurkov
Juan-Carlos Zamora
Ning Zhang
Wen-Ying Zhuang
David Schindel
Title: Nuclear ribosomal internal transcribed spacer (ITS) region as a universal DNA barcode marker for
Fungi
Description:
Six DNA regions were evaluated as potential DNA barcodes for
Fungi
, the second largest kingdom of eukaryotic life, by a multinational, multilaboratory consortium.
The region of the mitochondrial cytochrome
c
oxidase subunit 1 used as the animal barcode was excluded as a potential marker, because it is difficult to amplify in fungi, often includes large introns, and can be insufficiently variable.
Three subunits from the nuclear ribosomal RNA cistron were compared together with regions of three representative protein-coding genes (largest subunit of RNA polymerase II, second largest subunit of RNA polymerase II, and minichromosome maintenance protein).
Although the protein-coding gene regions often had a higher percent of correct identification compared with ribosomal markers, low PCR amplification and sequencing success eliminated them as candidates for a universal fungal barcode.
Among the regions of the ribosomal cistron, the internal transcribed spacer (ITS) region has the highest probability of successful identification for the broadest range of fungi, with the most clearly defined barcode gap between inter- and intraspecific variation.
The nuclear ribosomal large subunit, a popular phylogenetic marker in certain groups, had superior species resolution in some taxonomic groups, such as the early diverging lineages and the ascomycete yeasts, but was otherwise slightly inferior to the ITS.
The nuclear ribosomal small subunit has poor species-level resolution in fungi.
ITS will be formally proposed for adoption as the primary fungal barcode marker to the Consortium for the Barcode of Life, with the possibility that supplementary barcodes may be developed for particular narrowly circumscribed taxonomic groups.
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