A plastidial sodium-dependent pyruvate transporter

Furumoto T, Yamaguchi T, Ohshima-Ichie Y, Nakamura M, Tsuchida-Iwata Y, Shimamura M, Ohnishi J, Hata S, Gowik U, Westhoff P, Bräutigam A, et al. (2011)
Nature 476(7361): 472-U131.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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urn:nbn:de:0070-pub-29151588
Autor*in
Furumoto, Tsuyoshi; Yamaguchi, Teppei; Ohshima-Ichie, Yumiko; Nakamura, Masayoshi; Tsuchida-Iwata, Yoshiko; Shimamura, Masaki; Ohnishi, Junichi; Hata, Shingo; Gowik, Udo; Westhoff, Peter; Bräutigam, AndreaUniBi ; Weber, Andreas P. M.
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Einrichtung
Fakultät für Biologie > Computational Biology
Abstract / Bemerkung
Pyruvate serves as a metabolic precursor for many plastid-localized biosynthetic pathways, such as those for fatty acids(1), terpenoids(2) and branched-chainamino acids(3). In spite of the importance of pyruvate uptake into plastids (organelles within cells of plants and algae), the molecular mechanisms of this uptake have not yet been explored. This is mainly because pyruvate is a relatively small compound that is able to passively permeate lipid bilayers(4), which precludes accurate measurement of pyruvate transport activity in reconstituted liposomes. Using differential transcriptome analyses of C(3) and C(4) plants of the genera Flaveria and Cleome, here we have identified a novel gene that is abundant in C(4) species, named BASS2 (BILE ACID:SODIUM SYMPORTER FAMILY PROTEIN 2). The BASS2 protein is localized at the chloroplast envelope membrane, and is highly abundant in C(4) plants that have the sodium-dependent pyruvate transporter. Recombinant BASS2 shows sodium-dependent pyruvate uptake activity. Sodium influx is balanced by a sodium: proton antiporter (NHD1), which was mimicked in recombinant Escherichia coli cells expressing both BASS2 and NHD1. Arabidopsis thaliana bass2 mutants lack pyruvate uptake into chloroplasts, which affects plastid-localized isopentenyl diphosphate synthesis, as evidenced by increased sensitivity of such mutants to mevastatin, an inhibitor of cytosolic isopentenyl diphosphate biosynthesis. We thus provide molecular evidence for a sodium-coupled metabolite transporter in plastid envelopes. Orthologues of BASS2 can be detected in all the genomes of land plants that have been characterized so far, thus indicating the widespread importance of sodium-coupled pyruvate import into plastids.
Erscheinungsjahr
2011
Zeitschriftentitel
Nature
Band
476
Ausgabe
7361
Seite(n)
472-U131
ISSN
0028-0836
Page URI
https://pub.uni-bielefeld.de/record/2915158

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Furumoto T, Yamaguchi T, Ohshima-Ichie Y, et al. A plastidial sodium-dependent pyruvate transporter. Nature. 2011;476(7361):472-U131.
Furumoto, T., Yamaguchi, T., Ohshima-Ichie, Y., Nakamura, M., Tsuchida-Iwata, Y., Shimamura, M., Ohnishi, J., et al. (2011). A plastidial sodium-dependent pyruvate transporter. Nature, 476(7361), 472-U131. doi:10.1038/nature10250
Furumoto, Tsuyoshi, Yamaguchi, Teppei, Ohshima-Ichie, Yumiko, Nakamura, Masayoshi, Tsuchida-Iwata, Yoshiko, Shimamura, Masaki, Ohnishi, Junichi, et al. 2011. “A plastidial sodium-dependent pyruvate transporter”. Nature 476 (7361): 472-U131.
Furumoto, T., Yamaguchi, T., Ohshima-Ichie, Y., Nakamura, M., Tsuchida-Iwata, Y., Shimamura, M., Ohnishi, J., Hata, S., Gowik, U., Westhoff, P., et al. (2011). A plastidial sodium-dependent pyruvate transporter. Nature 476, 472-U131.
Furumoto, T., et al., 2011. A plastidial sodium-dependent pyruvate transporter. Nature, 476(7361), p 472-U131.
T. Furumoto, et al., “A plastidial sodium-dependent pyruvate transporter”, Nature, vol. 476, 2011, pp. 472-U131.
Furumoto, T., Yamaguchi, T., Ohshima-Ichie, Y., Nakamura, M., Tsuchida-Iwata, Y., Shimamura, M., Ohnishi, J., Hata, S., Gowik, U., Westhoff, P., Bräutigam, A., Weber, A.P.M., Izui, K.: A plastidial sodium-dependent pyruvate transporter. Nature. 476, 472-U131 (2011).
Furumoto, Tsuyoshi, Yamaguchi, Teppei, Ohshima-Ichie, Yumiko, Nakamura, Masayoshi, Tsuchida-Iwata, Yoshiko, Shimamura, Masaki, Ohnishi, Junichi, Hata, Shingo, Gowik, Udo, Westhoff, Peter, Bräutigam, Andrea, Weber, Andreas P. M., and Izui, Katsura. “A plastidial sodium-dependent pyruvate transporter”. Nature 476.7361 (2011): 472-U131.
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Schwender J, Ohlrogge J, Shachar-Hill Y., Curr. Opin. Plant Biol. 7(3), 2004
PMID: 15134752
Cross-talk between the cytosolic mevalonate and the plastidial methylerythritol phosphate pathways in tobacco bright yellow-2 cells.
Hemmerlin A, Hoeffler JF, Meyer O, Tritsch D, Kagan IA, Grosdemange-Billiard C, Rohmer M, Bach TJ., J. Biol. Chem. 278(29), 2003
PMID: 12736259
Pyruvate-Derived Amino Acids in Spinach Chloroplasts : Synthesis and Regulation during Photosynthetic Carbon Metabolism.
Schulze-Siebert D, Heineke D, Scharf H, Schultz G., Plant Physiol. 76(2), 1984
PMID: 16663866

Proudlove, New Phytol. 88(), 1981
Comparative proteomics of chloroplast envelopes from C3 and C4 plants reveals specific adaptations of the plastid envelope to C4 photosynthesis and candidate proteins required for maintaining C4 metabolite fluxes.
Brautigam A, Hoffmann-Benning S, Hofmann-Benning S, Weber AP., Plant Physiol. 148(1), 2008
PMID: 18599648
Transport in C4 mesophyll chloroplasts characterization of the pyruvate carrier.
Huber SC, Edwards GE., Biochim. Biophys. Acta 462(3), 1977
PMID: 23150

Flügge, FEBS Lett. 183(), 1985
Pyruvate uptake induced by a pH jump in mesophyll chloroplasts of maize and sorghum, NADP-malic enzyme type C4 species.
Ohnishi J, Kanai R., FEBS Lett. 269(1), 1990
PMID: 2387391

Ohnishi, FEBS Lett. 219(), 1987

Aoki, Plant Cell Physiol. 33(), 1992
From molecule to model, from environment to evolution: an integrated view of growth and development.
Bergmann DC, Fleming AJ., Curr. Opin. Plant Biol. 13(1), 2010
PMID: 20047852
Phylogeny of Flaveria (Asteraceae) and inference of C₄ photosynthesis evolution.
McKown AthenaD, Moncalvo Jean-Marc, Dengler NancyG., Am. J. Bot. 92(11), 2005
PMID: IND43756077
Arabidopsis bile acid:sodium symporter family protein 5 is involved in methionine-derived glucosinolate biosynthesis.
Sawada Y, Toyooka K, Kuwahara A, Sakata A, Nagano M, Saito K, Hirai MY., Plant Cell Physiol. 50(9), 2009
PMID: 19633020
The plastidic bile acid transporter 5 is required for the biosynthesis of methionine-derived glucosinolates in Arabidopsis thaliana.
Gigolashvili T, Yatusevich R, Rollwitz I, Humphry M, Gershenzon J, Flugge UI., Plant Cell 21(6), 2009
PMID: 19542295
Characterization of AtCHX17, a member of the cation/H+ exchangers, CHX family, from Arabidopsis thaliana suggests a role in K+ homeostasis.
Cellier F, Conejero G, Ricaud L, Luu DT, Lepetit M, Gosti F, Casse F., Plant J. 39(6), 2004
PMID: 15341627
An mRNA blueprint for C4 photosynthesis derived from comparative transcriptomics of closely related C3 and C4 species.
Brautigam A, Kajala K, Wullenweber J, Sommer M, Gagneul D, Weber KL, Carr KM, Gowik U, Mass J, Lercher MJ, Westhoff P, Hibberd JM, Weber AP., Plant Physiol. 155(1), 2010
PMID: 20543093
Consequences of C4 differentiation for chloroplast membrane proteomes in maize mesophyll and bundle sheath cells.
Majeran W, Zybailov B, Ytterberg AJ, Dunsmore J, Sun Q, van Wijk KJ., Mol. Cell Proteomics 7(9), 2008
PMID: 18453340
Solute transporters of the plastid envelope membrane.
Weber AP, Schwacke R, Flugge UI., Annu Rev Plant Biol 56(), 2005
PMID: 15862092
Loss of function of 3-hydroxy-3-methylglutaryl coenzyme A reductase 1 (HMG1) in Arabidopsis leads to dwarfing, early senescence and male sterility, and reduced sterol levels.
Suzuki M, Kamide Y, Nagata N, Seki H, Ohyama K, Kato H, Masuda K, Sato S, Kato T, Tabata S, Yoshida S, Muranaka T., Plant J. 37(5), 2004
PMID: 14871314

Aoki, Plant Cell Physiol. 38(), 1997
Trials, tribulations and finally, a transporter: the identification of the mitochondrial pyruvate transporter.
Sugden MC, Holness MJ., Biochem. J. 374(Pt 3), 2003
PMID: 12954079
cDNA cloning and characterization of maize phosphoenolpyruvate carboxykinase, a bundle sheath cell-specific enzyme.
Furumoto T, Hata S, Izui K., Plant Mol. Biol. 41(3), 1999
PMID: 10598098
Abundant expression in vascular tissue of plant TAF10, an orthologous gene for TATA box-binding protein-associated factor 10, in Flaveria trinervia and abnormal morphology of Arabidopsis thaliana transformants on its overexpression.
Furumoto T, Tamada Y, Izumida A, Nakatani H, Hata S, Izui K., Plant Cell Physiol. 46(1), 2005
PMID: 15659449
Sampling the Arabidopsis transcriptome with massively parallel pyrosequencing.
Weber AP, Weber KL, Carr K, Wilkerson C, Ohlrogge JB., Plant Physiol. 144(1), 2007
PMID: 17351049
Phosphorylation of phosphoenolpyruvate carboxylase is not essential for high photosynthetic rates in the C4 species Flaveria bidentis.
Furumoto T, Izui K, Quinn V, Furbank RT, von Caemmerer S., Plant Physiol. 144(4), 2007
PMID: 17586687
Deletion of ant in Escherichia coli reveals its function in adaptation to high salinity and an alternative Na+/H+ antiporter system(s).
Padan E, Maisler N, Taglicht D, Karpel R, Schuldiner S., J. Biol. Chem. 264(34), 1989
PMID: 2555351
Arabidopsis ANTR1 is a thylakoid Na+-dependent phosphate transporter: functional characterization in Escherichia coli.
Pavon LR, Lundh F, Lundin B, Mishra A, Persson BL, Spetea C., J. Biol. Chem. 283(20), 2008
PMID: 18353780
Glutamate transport driven by an electrochemical gradient of sodium ions in Escherichia coli.
Tsuchiya T, Hasan SM, Raven J., J. Bacteriol. 131(3), 1977
PMID: 330502
Temporary expression of the TAF10 gene and its requirement for normal development of Arabidopsis thaliana.
Tamada Y, Nakamori K, Nakatani H, Matsuda K, Hata S, Furumoto T, Izui K., Plant Cell Physiol. 48(1), 2006
PMID: 17148695
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