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Galactose Biosynthesis in Arabidopsis

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Presentation on theme: "Galactose Biosynthesis in Arabidopsis"— Presentation transcript:

1 Galactose Biosynthesis in Arabidopsis
Georg J. Seifert, Christine Barber, Brian Wells, Liam Dolan, Keith Roberts  Current Biology  Volume 12, Issue 21, Pages (October 2002) DOI: /S (02)

2 Figure 1 Nucleotide Sugar Interconversions in Arabidopsis thaliana
UDP-D-glucose is produced by various pathways, including sucrose synthase and UDP-glucose pyrophosphorylase. It is converted into UDP-D-glucuronic acid by UDP-D-Glc dehydrogenase (UGD, four Arabidopsis thaliana genes). UDP-D-GlcA is converted into UDP-D-Xyl by UDP-GlcA decarboxylase (UXS). UDP-D-Gal is formed de novo by the action of UDP-Glc 4-epimerase (UGE, five Arabidopis genes, including RHD1/UGE4). Analogously, UDP-D-galacturonic acid is formed from UDP-D-glucuronic acid by UDP-D-GlcA 4-epimerase (GAE, six putative genes in Arabidopsis thaliana) or alternatively from the oxidation of myo-inositol. UDP-L-arabinose is formed by UDP-D-Xyl 4-epimerase (UXE, four putative genes in Arabidopsis thaliana). UDP-D-galactose, formed from free D-galactose in a salvage pathway by galactokinase (KIN) and UDP-D-galactose pyrophosphorylase (PP), can be converted into UDP-Glc by UGE. Analogous salvage routes exist for most other nucleotide sugars. Current Biology  , DOI: ( /S (02) )

3 Figure 2 RHD1 and Related Genes
(A) A phylogenetic tree of RHD1 and related proteins. Protein sequence accessions of the indicated proteins or gene loci. Clade I: Arabidopsis thaliana: UGE1 (Q42605), UGE2 (CAB43892), UGE3 (AAG51599), RHD1/UGE4 (AAG51709), UGE5 (Q9SN58); Homo sapiens: hUGE (AAH01273); Escherichia coli: GALE (P09147); Saccharomyces cerevisiae: Gal10p (NP_009575). Clade II: Arabidopsis thaliana: GAE1 (CAB79762), GAE2 (AAF76478), GAE3 (CAB80769), GAE4 (AAB82632), GAE5 (CAB45972), GAE6 (BAB03000); Streptococcus pneumoniae: Cap1J (CAB05928). Clade III: At1g30620 (AAD25749), AT4g20460 (CAB79046), AT5g44480 (BAB09155), At2g34850 (AAC12825). The bar is equivalent to a sequence divergence of 10%. (B) mRNA expression of the UGE gene family. RT-PCR was performed with cDNA-specific primers for putative Arabidopsis UGEs and translation initiation factor eIF4E (AT4g18040, GI: ), used as a loading control, with cDNA derived from 5-day-old seedlings grown at constant light (L) or dark (D); 5-day-old roots from Col-0 (R) or rhd1-1 (r1); 5-day-old green seedling parts (G); and fully expanded leaves (X), elongating inflorescence stems (S), or flowers (F) of 32-day-old mature plants. Current Biology  , DOI: ( /S (02) )

4 Figure 3 Rescue of rhd1 by D-Galactose
(A–D) Seeds of wild-type (left) and rhd1-1 (right) were germinated and grown at 25°C in continuous light on Phytagel (0.8%)-solidified MS medium containing 1% sucrose on vertical plates and (A) no additional carbohydrate, (B) 5 mM D-galactose, or (C) 80 mM D-galactose. (D) Root length (% of wild-type; squares and triangles) and root morphology (% of seedlings displaying normal root epidermis; circles and diamonds) of rhd1-1 (triangles, diamonds) and rhd1-2 (squares, circles) seedlings germinated at D-galactose concentrations varying from 0 to 5 mM. Current Biology  , DOI: ( /S (02) )

5 Figure 4 Immunofluorescence Detection of D-Galactose-Containing Cell Wall-Related Epitopes in WT and rhd1 (A) Fucogalactoxyloglucan labeled by CCRC-M1 in wild-type (left) and rhd1 (right). The outer epidermal wall in WT (arrowhead) and rhd1 (arrow) is indicated. (B) CCRC-M1 labeling of longitudinal sections of root hairs of wild-type (top) and rhd1 (bottom). (C) Arabinosylated 1,6-galactan on AGP labeled by CCRC-M7 in wild-type (left) and rhd1 (right). (D) An overview of immunolabeling of wild-type and rhd1 roots of arabinosylated (1→6)-β-D-galactan (CCRC-M7) and galactosylated xyloglucan (CCRC-M1) in relation to cell type and cellular domain. The root hair-forming (H) and root hair-nonforming (N) epidermal cells and the cortical (C), endodermal (E), and pericycle (P) cell layers are indicated. Because both epitopes depend on UDP-galactose, their presence in a cell (black lines) also indicates UGE activity. The absence of labeling in rhd1 (gray lines) indicates that the wild-type RHD1 product functions to provide UDP-D-Gal for the respective cell wall polymer in a nonredundant fashion. Current Biology  , DOI: ( /S (02) )

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