Grasses dominate many natural ecosystems and produce the bulk calories consumed by humans either directly in the form of grains or indirectly through forage/grain fed animals. Over that past decade, the small, annual grass Brachypodium distachyon has emerged as a viable model system for the grasses.
Grasses dominate many natural ecosystems and produce the bulk calories consumed by humans either directly in the form of grains or indirectly through forage/grain fed animals. In addition, grasses grown as biomass crops are poised to become a significant source of renewable energy. Despite their economic and environmental importance, research into the unique aspects of grass biology has been hampered by the lack of a truly tractable experimental model system. Over that past decade, the small, annual grass Brachypodium distachyon has emerged as a viable model system for the grasses.
This book describes the development of extensive experimental resources (e.g. whole genome sequence, efficient transformation methods, insertional mutant collections, large germplasm collections, recombinant inbred lines, resequenced genomes) that have led many laboratories around the world to adopt B. distachyon as a model system. The use of B. distachyon to address a wide range of biological topics (e.g. disease resistance, cell wall composition, abiotic stress tolerance, root growth and development, floral development, natural diversity) is also discussed.
The Rise of Brachypodium as a Model System. - Phylogeny and Evolution of
the Genus Brachypodium.- Molecular
Cytogenetics in the Genus Brachypodium.- The Brachypodium distachyon
Reference
Genome.- Brachypodium Paleogenomics:
From Genome Evolution to Translational Research in Grass Crops. Genome Size
and the Role of Transposable Elements.- Genomic Diversity and Climate
Adaptation in Brachypodium.-
The microRNAs of Brachypodium.- Transformation and T-DNA
Mutagenesis.- Mutagenesis: Chemical, Radiation, TILLING.- Library Resources:
BACs, ESTs, Full-Length cDNAs, and Y2H.- Brachypodium
distachyon Genetic Resources.- Brachypodium
distachyon as a Model Species to Understand Grass Cell Walls.- Brachypodium
Seed: A Potential Model for Studying Grain Development of Cereal Crops.- The
Brachypodium distachyon Root System: A Tractable
Model to Investigate Grass Roots.- Dissecting the Control of Flowering Time
in
Grasses Using Brachypodium distachyon. Brachypodium as a model for Grass and
Cereal
Diseases.- Brachypodium and the Abiotic
Environment.- The Genus Brachypodium as a Model for Polyploidy and
Perenniality.- Brachypodium
as an Arabidopsis for the Grasses: Are We There Yet?.
John Vogel, DOE Joint Genome Institute, Walnut Creek, CA, USA
