Plants (Jun 2022)

Transcriptome Mining Provides Insights into Cell Wall Metabolism and Fiber Lignification in <i>Agave tequilana</i> Weber

  • Luis F. Maceda-López,
  • Elsa B. Góngora-Castillo,
  • Enrique Ibarra-Laclette,
  • Dalia C. Morán-Velázquez,
  • Amaranta Girón Ramírez,
  • Matthieu Bourdon,
  • José L. Villalpando-Aguilar,
  • Gabriela Toomer,
  • John Z. Tang,
  • Parastoo Azadi,
  • Jorge M. Santamaría,
  • Itzel López-Rosas,
  • Mercedes G. López,
  • June Simpson,
  • Fulgencio Alatorre-Cobos

DOI
https://doi.org/10.3390/plants11111496
Journal volume & issue
Vol. 11, no. 11
p. 1496

Abstract

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Resilience of growing in arid and semiarid regions and a high capacity of accumulating sugar-rich biomass with low lignin percentages have placed Agave species as an emerging bioenergy crop. Although transcriptome sequencing of fiber-producing agave species has been explored, molecular bases that control wall cell biogenesis and metabolism in agave species are still poorly understood. Here, through RNAseq data mining, we reconstructed the cellulose biosynthesis pathway and the phenylpropanoid route producing lignin monomers in A. tequilana, and evaluated their expression patterns in silico and experimentally. Most of the orthologs retrieved showed differential expression levels when they were analyzed in different tissues with contrasting cellulose and lignin accumulation. Phylogenetic and structural motif analyses of putative CESA and CAD proteins allowed to identify those potentially involved with secondary cell wall formation. RT-qPCR assays revealed enhanced expression levels of AtqCAD5 and AtqCESA7 in parenchyma cells associated with extraxylary fibers, suggesting a mechanism of formation of sclerenchyma fibers in Agave similar to that reported for xylem cells in model eudicots. Overall, our results provide a framework for understanding molecular bases underlying cell wall biogenesis in Agave species studying mechanisms involving in leaf fiber development in monocots.

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