Abstract

BackgroundDifferent strategies (genetics, biochemistry, and proteomics) can be used to study proteins involved in cell biogenesis. The availability of the complete sequences of several plant genomes allowed the development of transcriptomic studies. Although the expression patterns of some Arabidopsis thaliana genes involved in cell wall biogenesis were identified at different physiological stages, detailed microarray analysis of plant cell wall genes has not been performed on any plant tissues. Using transcriptomic and bioinformatic tools, we studied the regulation of cell wall genes in Arabidopsis stems, i.e. genes encoding proteins involved in cell wall biogenesis and genes encoding secreted proteins.ResultsTranscriptomic analyses of stems were performed at three different developmental stages, i.e., young stems, intermediate stage, and mature stems. Many genes involved in the synthesis of cell wall components such as polysaccharides and monolignols were identified. A total of 345 genes encoding predicted secreted proteins with moderate or high level of transcripts were analyzed in details. The encoded proteins were distributed into 8 classes, based on the presence of predicted functional domains. Proteins acting on carbohydrates and proteins of unknown function constituted the two most abundant classes. Other proteins were proteases, oxido-reductases, proteins with interacting domains, proteins involved in signalling, and structural proteins. Particularly high levels of expression were established for genes encoding pectin methylesterases, germin-like proteins, arabinogalactan proteins, fasciclin-like arabinogalactan proteins, and structural proteins. Finally, the results of this transcriptomic analyses were compared with those obtained through a cell wall proteomic analysis from the same material. Only a small proportion of genes identified by previous proteomic analyses were identified by transcriptomics. Conversely, only a few proteins encoded by genes having moderate or high level of transcripts were identified by proteomics.ConclusionAnalysis of the genes predicted to encode cell wall proteins revealed that about 345 genes had moderate or high levels of transcripts. Among them, we identified many new genes possibly involved in cell wall biogenesis. The discrepancies observed between results of this transcriptomic study and a previous proteomic study on the same material revealed post-transcriptional mechanisms of regulation of expression of genes encoding cell wall proteins.

Highlights

  • Different strategies can be used to study proteins involved in cell biogenesis

  • Two biological processes are of high importance [27]

  • Many genes involved in the synthesis of cell wall components were found to be transcribed as well as many genes encoding secreted proteins

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Summary

Introduction

Different strategies (genetics, biochemistry, and proteomics) can be used to study proteins involved in cell biogenesis. Plant stems represent a major contribution to crop biomass They contain a large proportion of cell walls [1]. Cell walls play different roles in growth, development and transportation of nutrients and water. They provide a mechanical support for plants as well as an efficient protection against environmental stresses [2,3,4]. We decided to calculate a more accurate background based on the intensity value of 1220 negative spots These negative spots corresponded either to negative human probes or Arabidopsis probes for which the hybridization signal remained at the lowest level in more than 3000 CATMA results obtained on the URGV platform. This value was compared to the normalized log intensity to get an estimation of the hybridization signal above background

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