Abstract
Xylans with a variety of structures have been characterised in green algae, including chlorophytes (Chlorophyta) and charophytes (in the Streptophyta), and red algae (Rhodophyta). Substituted 1,4-β-d-xylans, similar to those in land plants (embryophytes), occur in the cell wall matrix of advanced orders of charophyte green algae. Small proportions of 1,4-β-d-xylans have also been found in the cell walls of some chlorophyte green algae and red algae but have not been well characterised. 1,3-β-d-Xylans occur as triple helices in microfibrils in the cell walls of chlorophyte algae in the order Bryopsidales and of red algae in the order Bangiales. 1,3;1,4-β-d-Xylans occur in the cell wall matrix of red algae in the orders Palmariales and Nemaliales. In the angiosperm Arabidopsis thaliana, the gene IRX10 encodes a xylan 1,4-β-d-xylosyltranferase (xylan synthase), and, when heterologously expressed, this protein catalysed the production of the backbone of 1,4-β-d-xylans. An orthologous gene from the charophyte green alga Klebsormidium flaccidum, when heterologously expressed, produced a similar protein that was also able to catalyse the production of the backbone of 1,4-β-d-xylans. Indeed, it is considered that land plant xylans evolved from xylans in ancestral charophyte green algae. However, nothing is known about the biosynthesis of the different xylans found in chlorophyte green algae and red algae. There is, thus, an urgent need to identify the genes and enzymes involved.
Highlights
After cellulose, xylans are the most abundant polysaccharides in the cell walls of land plants [1]
We provide a brief overview of the structural variation in the xylans found in the cell walls of green and red algae
The linkage could be from 1,3-β-D-xylans, similar to those found in some chlorophyte green algae and some red algae, but further work is required on this topic
Summary
Xylans are the most abundant polysaccharides in the cell walls of land plants (embryophytes) [1]. Further complexity occurs in the xylans in the secondary walls of eudicotyledons, many monocotyledons (but not those of the grasses), and gymnosperms, in the form of the oligosaccharide sequence 4)-β-D-Xylp-(1,4)-β-D-Xylp-(1,3)-α-L-Rhap-(1,2)-α-D-GalpA -(1,4)-D-Xyl at the reducing end The function of this is uncertain, but it is considered to be related in some way to xylan biosynthesis [8]. In contrast to land plants, especially the angiosperms, much less is known about the xylans that occur in the cell walls of the green and red algae Together, these two groups of algae contain some. Outside of kingdom Plantae, the brown algae (class Phaeophyceae) is another large group of algae (1500–2000 species) that produces considerable amounts of biomass They form part of the kingdom Chromista and, as far as we are aware, there are no reports of xylans occurring in their cell walls [12,13]. We briefly discuss what is known about the genes and cognate enzymes involved in xylan biosynthesis in these algae
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