New Zealand Journal of Agricultural Research abstracts

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The role of biotechnology in perennial grass improvement for temperate pastures

R. VAN HEESWIJCK*
J. HUTCHINSON
V. KAUL
G. McDONALD
J. WOODWARD

Plant Sciences and Biotechnology
Department of Agriculture, Victoria
La Trobe University
Bundoora 3083, Australia

Abstract  Biotechnology has the potential to complement conventional plant breeding activities and facilitate the production of temperate grasses with improved productivity and persistence. It provides new techniques for generation of gene markers which may greatly enhance the capacity for cultivar discrimination and for tracking particular traits in breeding programmes. Through plant tissue culture and genetic transformation, it is possible to introduce genes from a wide variety of sources into elite breeding lines. This review provides a summary of recent advances in the application of these technologies to temperate grasses. The development of genetic transformation technology has, in general, been much slower for monocots than for dicots. However, all the elements required for production of transgenic plants are now coming into place. Regeneration systems are now available for many of the temperate grass species. Transformation systems have been used to produce transgenic plants of tall fescue and cocksfoot, and genes have been isolated that have potential for improving plant performance and persistence. Several opportunities for application of biotechnology are discussed including control of invertebrate pests, virus resistance, improved digestibility, and elimination of toxins.

Keywords  perennial ryegrass; tissue culture; transformation; gene marker; pest control; virus resistance; digestibility; toxins

New Zealand Journal of Agricultural Research, 1994, Vol. 37: 427-438

0028-8233/94/3703-0427 $2.50/0 (c) The Royal Society of New Zealand 1994

PDF file of entire paper: medium quality (1103K); (scanned from paper original: notes about this process)

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