Pogorelko_2011_Plant.Mol.Biol_77_433

Reference

Title : Post-synthetic modification of plant cell walls by expression of microbial hydrolases in the apoplast - Pogorelko_2011_Plant.Mol.Biol_77_433
Author(s) : Pogorelko G , Fursova O , Lin M , Pyle E , Jass J , Zabotina OA
Ref : Plant Mol Biol , 77 :433 , 2011
Abstract :

The systematic creation of defined cell wall modifications in the model plant Arabidopsis thaliana by expression of microbial hydrolases with known specific activities is a promising approach to examine the impacts of cell wall composition and structure on both plant fitness and cell wall recalcitrance. Moreover, this approach allows the direct evaluation in living plants of hydrolase specificity, which can differ from in vitro specificity. To express genes encoding microbial hydrolases in A. thaliana, and target the hydrolases to the apoplast compartment, we constructed an expression cassette composed of the Cauliflower Mosaic Virus 35S RNA promoter, the A. thaliana beta-expansin signal peptide, and the fluorescent marker protein YFP. Using this construct we successfully introduced into Colombia-0 plants three Aspergillus nidulans hydrolases, beta-xylosidase/alpha-arabinosidase, feruloyl esterase, acetylxylan esterase, and a Xanthomonas oryzae putative a-L: -arabinofuranosidase. Fusion with YFP permitted quick and easy screening of transformants, detection of apoplastic localization, and protein size confirmation. Compared to wild-type Col-0, all transgenic lines showed a significant increase in the corresponding hydrolytic activity in the apoplast and changes in cell wall composition. Examination of hydrolytic activity in the transgenic plants also showed, for the first time, that the X. oryzae gene indeed encoded an enzyme with alpha-L: -arabinofuranosidase activity. None of the transgenic plants showed a visible phenotype; however, the induced compositional changes increased the degradability of biomass from plants expressing feruloyl esterase and beta-xylosidase/alpha-arabinosidase. Our results demonstrate the viability of creating a set of transgenic A. thaliana plants with modified cell walls to use as a toolset for investigation of how cell wall composition contributes to recalcitrance and affects plant fitness.

PubMedSearch : Pogorelko_2011_Plant.Mol.Biol_77_433
PubMedID: 21910026

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Citations formats

Pogorelko G, Fursova O, Lin M, Pyle E, Jass J, Zabotina OA (2011)
Post-synthetic modification of plant cell walls by expression of microbial hydrolases in the apoplast
Plant Mol Biol 77 :433

Pogorelko G, Fursova O, Lin M, Pyle E, Jass J, Zabotina OA (2011)
Plant Mol Biol 77 :433