AspWood: High-Spatial-Resolution Transcriptome Profiles Reveal Uncharacterized Modularity of Wood Formation in <i>Populus tremula</i>
David Sundell(Umeå Plant Science Centre), Nathaniel R. Street(Umeå Plant Science Centre), Manoj Kumar(Swedish University of Agricultural Sciences), Ewa J. Mellerowicz(Swedish University of Agricultural Sciences), Melis Kücükoglu(Swedish University of Agricultural Sciences), Christoffer Johnsson(Swedish University of Agricultural Sciences), Vikash Kumar(Swedish University of Agricultural Sciences), Chanaka Mannapperuma(Umeå Plant Science Centre), Nicolas Delhomme(Umeå Plant Science Centre), Ove Nilsson(Swedish University of Agricultural Sciences), Hannele Tuominen(Umeå Plant Science Centre), Edouard Pesquet(Stockholm University), Urs Karl Fischer(Swedish University of Agricultural Sciences), Totte Niittylä(Swedish University of Agricultural Sciences), Björn Sundberg(Swedish University of Agricultural Sciences), Torgeir R. Hvidsten(Umeå Plant Science Centre)
Cited by 262Open Access
Abstract
The high spatial resolution of our data enabled identification of novel roles for characterized genes involved in xylan and cellulose biosynthesis, regulators of xylem vessel and fiber differentiation and lignification. An associated web resource (AspWood, http://aspwood.popgenie.org) provides interactive tools for exploring the expression profiles and coexpression network.
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