Literature DB >> 17172352

Two Arabidopsis threonine aldolases are nonredundant and compete with threonine deaminase for a common substrate pool.

Vijay Joshi1, Karen M Laubengayer, Nicolas Schauer, Alisdair R Fernie, Georg Jander.   

Abstract

Amino acids are not only fundamental protein constituents but also serve as precursors for many essential plant metabolites. Although amino acid biosynthetic pathways in plants have been identified, pathway regulation, catabolism, and downstream metabolite partitioning remain relatively uninvestigated. Conversion of Thr to Gly and acetaldehyde by Thr aldolase (EC 4.1.2.5) was only recently shown to play a role in plant amino acid metabolism. Whereas one Arabidopsis thaliana Thr aldolase (THA1) is expressed primarily in seeds and seedlings, the other (THA2) is expressed in vascular tissue throughout the plant. Metabolite profiling of tha1 mutants identified a >50-fold increase in the seed Thr content, a 50% decrease in seedling Gly content, and few other significant metabolic changes. By contrast, homozygous tha2 mutations cause a lethal albino phenotype. Rescue of tha2 mutants and tha1 tha2 double mutants by overproduction of feedback-insensitive Thr deaminase (OMR1) shows that Gly formation by THA1 and THA2 is not essential in Arabidopsis. Seed-specific expression of feedback-insensitive Thr deaminase in both tha1 and tha2 Thr aldolase mutants greatly increases seed Ile content, suggesting that these two Thr catabolic enzymes compete for a common substrate pool.

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Year:  2006        PMID: 17172352      PMCID: PMC1785404          DOI: 10.1105/tpc.106.044958

Source DB:  PubMed          Journal:  Plant Cell        ISSN: 1040-4651            Impact factor:   11.277


  45 in total

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Authors:  N Monschau; K P Stahmann; H Sahm; J B McNeil; A L Bognar
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4.  Metabolic profiling of Medicago truncatula cell cultures reveals the effects of biotic and abiotic elicitors on metabolism.

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5.  Identification of uncommon plant metabolites based on calculation of elemental compositions using gas chromatography and quadrupole mass spectrometry.

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6.  L-O-Methylthreonine-Resistant Mutant of Arabidopsis Defective in Isoleucine Feedback Regulation.

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Journal:  Biochemistry       Date:  2002-10-01       Impact factor: 3.162

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Authors:  José M Alonso; Anna N Stepanova; Thomas J Leisse; Christopher J Kim; Huaming Chen; Paul Shinn; Denise K Stevenson; Justin Zimmerman; Pascual Barajas; Rosa Cheuk; Carmelita Gadrinab; Collen Heller; Albert Jeske; Eric Koesema; Cristina C Meyers; Holly Parker; Lance Prednis; Yasser Ansari; Nathan Choy; Hashim Deen; Michael Geralt; Nisha Hazari; Emily Hom; Meagan Karnes; Celene Mulholland; Ral Ndubaku; Ian Schmidt; Plinio Guzman; Laura Aguilar-Henonin; Markus Schmid; Detlef Weigel; David E Carter; Trudy Marchand; Eddy Risseeuw; Debra Brogden; Albana Zeko; William L Crosby; Charles C Berry; Joseph R Ecker
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  36 in total

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2.  Aspartate-Derived Amino Acid Biosynthesis in Arabidopsis thaliana.

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Journal:  Arabidopsis Book       Date:  2009-06-10

3.  Branched-Chain Amino Acid Metabolism in Arabidopsis thaliana.

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4.  A friend in need is a friend indeed: understanding stress-associated transcriptional networks of plant metabolism using cliques of coordinately expressed genes.

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Review 5.  New insights into the metabolism of aspartate-family amino acids in plant seeds.

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6.  Large-scale reverse genetics in Arabidopsis: case studies from the Chloroplast 2010 Project.

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Journal:  Plant Physiol       Date:  2009-11-11       Impact factor: 8.340

7.  ADP-glucose pyrophosphorylase-deficient pea embryos reveal specific transcriptional and metabolic changes of carbon-nitrogen metabolism and stress responses.

Authors:  Kathleen Weigelt; Helge Küster; Twan Rutten; Aaron Fait; Alisdair R Fernie; Otto Miersch; Claus Wasternack; R J Neil Emery; Christine Desel; Felicia Hosein; Martin Müller; Isolde Saalbach; Hans Weber
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8.  Subcellular flux analysis of central metabolism in a heterotrophic Arabidopsis cell suspension using steady-state stable isotope labeling.

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9.  Arabidopsis phosphoglycerate dehydrogenase1 of the phosphoserine pathway is essential for development and required for ammonium assimilation and tryptophan biosynthesis.

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10.  Coordinations between gene modules control the operation of plant amino acid metabolic networks.

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