Authors
Kristian A Stevens, Jill L Wegrzyn, Aleksey Zimin, Daniela Puiu, Marc Crepeau, Charis Cardeno, Robin Paul, Daniel Gonzalez-Ibeas, Maxim Koriabine, Ann E Holtz-Morris, Pedro J Martínez-García, Uzay U Sezen, Guillaume Marçais, Kathy Jermstad, Patrick E McGuire, Carol A Loopstra, John M Davis, Andrew Eckert, Pieter de Jong, James A Yorke, Steven L Salzberg, David B Neale, Charles H Langley
Publication date
2016/12/1
Journal
Genetics
Volume
204
Issue
4
Pages
1613-1626
Publisher
Genetics
Description
Until very recently, complete characterization of the megagenomes of conifers has remained elusive. The diploid genome of sugar pine (Pinus lambertiana Dougl.) has a highly repetitive, 31 billion bp genome. It is the largest genome sequenced and assembled to date, and the first from the subgenus Strobus, or white pines, a group that is notable for having the largest genomes among the pines. The genome represents a unique opportunity to investigate genome “obesity” in conifers and white pines. Comparative analysis of P. lambertiana and P. taeda L. reveals new insights on the conservation, age, and diversity of the highly abundant transposable elements, the primary factor determining genome size. Like most North American white pines, the principal pathogen of P. lambertiana is white pine blister rust (Cronartium ribicola J.C. Fischer ex Raben.). Identification of candidate genes for resistance to this …
Scholar articles
KA Stevens, JL Wegrzyn, A Zimin, D Puiu, M Crepeau… - Genetics, 2016