Development of cellulosic secondary walls in flax fibers requires beta-galactosidase.

Bast (phloem) fibers, tension wood fibers, and other cells with gelatinous-type secondary walls are rich in crystalline cellulose. In developing bast fibers of flax (Linum usitatissimum), a galactan-enriched matrix (Gn-layer) is gradually modified into a mature cellulosic gelatinous-layer (G-layer), which ultimately comprises most of the secondary cell wall. Previous studies have correlated this maturation process with expression of a putative β-galactosidase.

Microarray analysis of developing flax hypocotyls identifies novel transcripts correlated with specific stages of phloem fibre differentiation.

Background And Aims: Hypocotyls are a commonly used model to study primary growth in plants, since post-germinative hypocotyls increase in size by cell elongation rather than cell division. Flax hypocotyls produce phloem fibres in bundles one to two cell layers thick, parallel to the protoxylem poles of the stele. Cell wall deposition within these cells occurs rapidly at a well-defined stage of development.

Microarray analysis of flax (Linum usitatissimum L.) stems identifies transcripts enriched in fibre-bearing phloem tissues.

To better understand the molecular processes associated with the development of the unusually long (> 30 mm) and strong bast fibre cells within the phloem of flax stems, we conducted a gene discovery experiment to identify transcripts enriched in fibre-bearing tissues, with the intention that these transcripts would serve as future targets for crop improvement and research in phloem development and cell wall deposition. We produced a library of 9,600 cDNA clones from the peels of flax stems, and selected tissue-specific cDNAs for sequencing based on two series of microarray experiments. In the first microarray series, we compared transcript abundance in stem-peels and leaves, and identified stem-enriched transcripts putatively involved in the processes of polysaccharide and cell wall metabolism.