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Sucrose synthase activity is not required for cellulose biosynthesis in Arabidopsis
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Abstract
Biosynthesis of plant cell walls requires UDP-glucose as the substrate for cellulose biosynthesis, and as an intermediate for the synthesis of other matrix polysaccharides. The sucrose cleaving enzyme sucrose synthase (SUS) is thought to have a central role in UDP-glucose biosynthesis, and a long held and much debated hypothesis postulates that SUS is required to supply UDP-glucose to cellulose biosynthesis. To investigate the role of SUS in cellulose biosynthesis of
Arabidopsis thaliana
we characterized mutants in which four, or all six Arabidopsis
SUS
genes were disrupted. These
sus
mutants showed no growth phenotypes, vascular tissue cell wall defects or changes in cellulose content. Moreover, the UDP-glucose content of rosette leaves of the sextuple
sus
mutants was increased by approximately 20% compared to wild type. It can thus be concluded that cellulose biosynthesis is able to employ alternative UDP-glucose biosynthesis pathway(s), and thereby the model of SUS requirement for cellulose biosynthesis in Arabidopsis can be refuted.
Title: Sucrose synthase activity is not required for cellulose biosynthesis in Arabidopsis
Description:
Abstract
Biosynthesis of plant cell walls requires UDP-glucose as the substrate for cellulose biosynthesis, and as an intermediate for the synthesis of other matrix polysaccharides.
The sucrose cleaving enzyme sucrose synthase (SUS) is thought to have a central role in UDP-glucose biosynthesis, and a long held and much debated hypothesis postulates that SUS is required to supply UDP-glucose to cellulose biosynthesis.
To investigate the role of SUS in cellulose biosynthesis of
Arabidopsis thaliana
we characterized mutants in which four, or all six Arabidopsis
SUS
genes were disrupted.
These
sus
mutants showed no growth phenotypes, vascular tissue cell wall defects or changes in cellulose content.
Moreover, the UDP-glucose content of rosette leaves of the sextuple
sus
mutants was increased by approximately 20% compared to wild type.
It can thus be concluded that cellulose biosynthesis is able to employ alternative UDP-glucose biosynthesis pathway(s), and thereby the model of SUS requirement for cellulose biosynthesis in Arabidopsis can be refuted.
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