BACKGROUND: Agrobacterium-mediated transformation is widely used to produce insertions into plant genomes. There are a number of well-developed Agrobacterium-mediated transformation methods for dicotyledonous plants, but there are few for monocotyledonous plants. METHODS: Three hydrolase genes were transiently expressed in Brachypodium distachyon plants using specially designed vectors that express the gene product of interest and target it to the plant cell wall. Expression of functional hydrolases in genotyped plants was confirmed using western blotting, activity assays, cell wall compositional analysis and digestibility tests. KEY RESULTS: An efficient, new, Agrobacterium-mediated approach was developed for transient gene expression in the grass B. distachyon, using co-cultivation of mature seeds with bacterial cells. This method allows transformed tissues to be obtained rapidly, within 3-4 weeks after co-cultivation. Also, the plants carried transgenic tissue and maintained transgenic protein expression throughout plant maturation. The efficiency of transformation was estimated at around 5 % of initially co-cultivated seeds. Application of this approach to express three Aspergillus nidulans hydrolases in the Brachypodium cell wall successfully confirmed its utility and resulted in the expected expression of active microbial proteins and alterations of cell wall composition. Cell wall modifications caused by expression of A. nidulans α-arabinofuranosidase and α-galactosidase increased the biodegradability of plant biomass. CONCLUSIONS: This newly developed approach is a quick and efficient technique for expressing genes of interest in Brachypodium plants, which express the gene product throughout development. In the future, this could be used for broad functional genomics studies of monocots and for biotechnological applications, such as plant biomass modification for biofuel production.
BACKGROUND: Agrobacterium-mediated transformation is widely used to produce insertions into plant genomes. There are a number of well-developed Agrobacterium-mediated transformation methods for dicotyledonous plants, but there are few for monocotyledonous plants. METHODS: Three hydrolase genes were transiently expressed in Brachypodium distachyon plants using specially designed vectors that express the gene product of interest and target it to the plant cell wall. Expression of functional hydrolases in genotyped plants was confirmed using western blotting, activity assays, cell wall compositional analysis and digestibility tests. KEY RESULTS: An efficient, new, Agrobacterium-mediated approach was developed for transient gene expression in the grass B. distachyon, using co-cultivation of mature seeds with bacterial cells. This method allows transformed tissues to be obtained rapidly, within 3-4 weeks after co-cultivation. Also, the plants carried transgenic tissue and maintained transgenic protein expression throughout plant maturation. The efficiency of transformation was estimated at around 5 % of initially co-cultivated seeds. Application of this approach to express three Aspergillus nidulans hydrolases in the Brachypodium cell wall successfully confirmed its utility and resulted in the expected expression of active microbial proteins and alterations of cell wall composition. Cell wall modifications caused by expression of A. nidulans α-arabinofuranosidase and α-galactosidase increased the biodegradability of plant biomass. CONCLUSIONS: This newly developed approach is a quick and efficient technique for expressing genes of interest in Brachypodium plants, which express the gene product throughout development. In the future, this could be used for broad functional genomics studies of monocots and for biotechnological applications, such as plant biomass modification for biofuel production.
Authors: Gennady Pogorelko; Oksana Fursova; Ming Lin; Eric Pyle; Johanna Jass; Olga A Zabotina Journal: Plant Mol Biol Date: 2011-09-11 Impact factor: 4.076
Authors: Marcia M de O Buanafina; Tim Langdon; Barbara Hauck; Sue Dalton; Emma Timms-Taravella; Phillip Morris Journal: Plant Biotechnol J Date: 2010-01-19 Impact factor: 9.803
Authors: Nathan T Reem; Gennady Pogorelko; Vincenzo Lionetti; Lauran Chambers; Michael A Held; Daniela Bellincampi; Olga A Zabotina Journal: Front Plant Sci Date: 2016-05-10 Impact factor: 5.753
Authors: Polyana Kelly Martins; Thiago Jonas Nakayama; Ana Paula Ribeiro; Bárbara Andrade Dias Brito da Cunha; Alexandre Lima Nepomuceno; Frank G Harmon; Adilson Kenji Kobayashi; Hugo Bruno Correa Molinari Journal: Biotechnol Rep (Amst) Date: 2015-03-04