Two novel disaccharides, rutinose and methylrutinose, are involved in carbon metabolism in Datisca glomerata.

Datisca glomerata forms nitrogen-fixing root nodules in symbiosis with soil actinomycetes from the genus Frankia. Analysis of sugars in roots, nodules and leaves of D. glomerata revealed the presence of two novel compounds that were identified as alpha-L-rhamnopyranoside-(1 --> 6)-D-glucose (rutinose) and alpha-L-rhamnopyranoside-(1 --> 6)-1-O-beta-D-methylglucose (methylrutinose).

Common plantain. A collection of expressed sequence tags from vascular tissue and a simple and efficient transformation method.

The vascular tissue of higher plants consists of specialized cells that differ from all other cells with respect to their shape and size, their organellar composition, their extracellular matrix, the type of their plasmodesmata, and their physiological functions. Intact and pure vascular tissue can be isolated easily and rapidly from leaf blades of common plantain (Plantago major), a plant that has been used repeatedly for molecular studies of phloem transport. Here, we present a transcriptome analysis based on 5,900 expressed sequence tags (ESTs) and 3,247 independent mRNAs from the Plantago vasculature.

Wounding enhances expression of AtSUC3, a sucrose transporter from Arabidopsis sieve elements and sink tissues.

The Arabidopsis AtSUC3 gene encodes a sucrose (Suc) transporter that differs in size and intron number from all other Arabidopsis Suc transport proteins. Each plant species analyzed so far possesses one transporter of this special type, and several functions have been discussed for these proteins, including the catalysis of transmembrane Suc transport, and also Suc sensing and regulation of other Suc transporters. Here, we show that the AtSUC3 protein is localized in the sieve elements of the Arabidopsis phloem and is not colocalized with the companion cell-specific AtSUC2 phloem loader.

PmSUC3: characterization of a SUT2/SUC3-type sucrose transporter from Plantago major.

Higher plants possess medium-sized gene families that encode plasma membrane-localized sucrose transporters. For several plant species, it has been shown that at least one of these genes (e.g.