Populus: Arabidopsis for Forestry. Do We Need a Model Tree?

doi:10.1093/aob/mcf255

AOBPreview originally published online on October 24, 2002

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Annals of Botany 90: 681-689, 2002
© 2002 Annals of Botany Company

Populus: Arabidopsis for Forestry. Do We Need a Model Tree?

GAIL TAYLOR^*^,1

¹ School of Biological Sciences, University of Southampton, Bassett Crescent East, Southampton SO16 7PX, UK

* Fax 00 44 (0)23 80594269, e-mail g.taylor{at}soton.ac.uk

Received: 11 August 2001; Returned for revision: 24 October 2001; Accepted: 5 September 2002 Published electronically: 24 October 2002

Trees are used to produce a variety of wood-based products includingtimber, pulp and paper. More recently, their use as a sourceof renewable energy has also been highlighted, as has theirvalue for carbon mitigation within the Kyoto Protocol. Relativeto food crops, the domestication of trees has only just begun;the long generation time and complex nature of juvenile andmature growth forms are contributory factors. To acceleratedomestication, and to understand further some of the uniqueprocesses that occur in woody plants such as dormancy and secondarywood formation, a ‘model’ tree is needed. Here itis argued that Populus is rapidly becoming accepted as the ‘model’woody plant and that such a ‘model’ tree is necessaryto complement the genetic resource being developed in arabidopsis.The genus Populus (poplars, cottonwoods and aspens) containsapprox. 30 species of woody plant, all found in the Northernhemisphere and exhibiting some of the fastest growth rates observedin temperate trees. Populus is fulfilling the ‘model’role for a number of reasons. First, and most important, isthe very recent commitment to sequence the Populus genome, aproject initiated in February 2002. This will be the first woodyplant to be sequenced. Other reasons include the relativelysmall genome size (450–550 Mbp) of Populus, the largenumber of molecular genetic maps and the ease of genetic transformation.Populus may also be propagated vegetatively, making mappingpopulations immortal and facilitating the production of largeamounts of clonal material for experimentation. Hybridizationoccurs routinely and, in these respects, Populus has many similaritiesto arabidopsis. However, Populus also differs from arabidopsisin many respects, including being dioecious, which makes selfingand back-cross manipulations impossible. The long time-to-floweris also a limitation, whilst physiological and biochemical experimentsare more readily conducted in Populus compared with the small-staturedarabidopsis. Recent advances in the development of large expressedsequence tagged collections, microarray analysis and the freedistribution of mapping pedigrees for quantitative trait locianalysis secure Populus as the ideal subject for further exploitationby a wide range of scientists including breeders, physiologists,biochemists and molecular biologists. In addition, and in contrastto other model plants, the genus Populus also has genuine commercialvalue as a tree for timber, plywood, pulp and paper.

Key words: Review, Populus, poplar, model plant, genomics, QTL, arabidopsis, genome sequence.

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