<i>Agrobacterium tumefaciens</i>
            increases cytokinin production in plastids by modifying the biosynthetic pathway in the host plant

Sakakibara, Hitoshi; Kasahara, Hiroyuki; Ueda, Norihiro; Kojima, Mikiko; Takei, Kentaro; Hishiyama, Shojiro; Asami, Tadao; Okada, Kazunori; Kamiya, Yûji; Yamaya, Tomoyuki; Yamaguchi, Shinjiro

doi:10.1073/pnas.0500793102

Cited by 108 publications

(100 citation statements)

References 40 publications

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“…Several published studies support the hypothesis that IPP, GPP, and GGPP are transported between the cytosolic and plastidial compartments, with a preference for transport from the plastid to the cytosol (Hemmerlin et al, 2003;Skorupinska-Tudek et al, 2008). This observation corroborates in vivo observations (Kasahara et al, 2002(Kasahara et al, , 2004Laule et al, 2003;Sakakibara et al, 2005) with inhibitor-treated Arabidopsis seedlings, cell cultures of Madagascar periwinkle (Catharanthus roseus) (Schuhr et al, 2003), and BY-2 cells (Hemmerlin et al, 2003). However, in the two latter studies, exogenous MVA was, to some extent, incorporated into plastids and used to produce plastidial isoprenoids.…”

Section: Discussionsupporting

confidence: 77%

“…Merret et al, 2007) As predicted (Hemmerlin et al, 2006), DX restored plasma membrane localization of His 6 -GFP-BD-CVIL in the presence of OC (Figure 9). The ability of DX to bypass the DXS reaction in the presence of OC confirmed the prediction that OC inhibits DXS (see also Sakakibara et al, 2005). Not surprisingly, DX did not complement the inhibition of MEP synthase by Fos.…”

Section: Isoprenylation and Localization Of Gfp-cam61 And Gfp-bd-cvilsupporting

confidence: 67%

“…To support the hypothesis that plastidial isoprenoid synthesis is required for the geranylgeranylation of GFP-BD-CVIL, cells were treated with oxoclomazone (OC; also referred to as ketoclomazone; Zeidler et al, 2000;Sakakibara et al, 2005), a derivative of the herbicide clomazone (also referred to as FMC 57020 or dimethazone). The latter was recognized as blocking the MEP pathway at a step before the formation of phytoene (Sandmann and Bö ger, 1989;Lange et al, 2001).…”

Section: In Vivo Inhibition Of Gfp-bd-cvil Geranylgeranylationmentioning

confidence: 99%

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The Plastidial 2-C-Methyl-d-Erythritol 4-Phosphate Pathway Provides the Isoprenyl Moiety for Protein Geranylgeranylation in Tobacco BY-2 Cells

et al. 2009

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Protein farnesylation and geranylgeranylation are important posttranslational modifications in eukaryotic cells. We visualized in transformed Nicotiana tabacum Bright Yellow-2 (BY-2) cells the geranylgeranylation and plasma membrane localization of GFP-BD-CVIL, which consists of green fluorescent protein (GFP) fused to the C-terminal polybasic domain (BD) and CVIL isoprenylation motif from the Oryza sativa calmodulin, CaM61. Treatment with fosmidomycin (Fos) or oxoclomazone (OC), inhibitors of the plastidial 2-C-methyl-D-erythritol 4-phosphate (MEP) pathway, caused mislocalization of the protein to the nucleus, whereas treatment with mevinolin, an inhibitor of the cytosolic mevalonate pathway, did not. The nuclear localization of GFP-BD-CVIL in the presence of MEP pathway inhibitors was completely reversed by all-transgeranylgeraniol (GGol). Furthermore, 1-deoxy-D-xylulose (DX) reversed the effects of OC, but not Fos, consistent with the hypothesis that OC blocks 1-deoxy-D-xylulose 5-phosphate synthesis, whereas Fos inhibits its conversion to 2-C-methyl-Derythritol 4-phosphate. By contrast, GGol and DX did not rescue the nuclear mislocalization of GFP-BD-CVIL in the presence of a protein geranylgeranyltransferase type 1 inhibitor. Thus, the MEP pathway has an essential role in geranylgeranyl diphosphate (GGPP) biosynthesis and protein geranylgeranylation in BY-2 cells. GFP-BD-CVIL is a versatile tool for identifying pharmaceuticals and herbicides that interfere either with GGPP biosynthesis or with protein geranylgeranylation.

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Section: Discussionsupporting

confidence: 77%

Section: Isoprenylation and Localization Of Gfp-cam61 And Gfp-bd-cvilsupporting

confidence: 67%

Section: In Vivo Inhibition Of Gfp-bd-cvil Geranylgeranylationmentioning

confidence: 99%

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The Plastidial 2-C-Methyl-d-Erythritol 4-Phosphate Pathway Provides the Isoprenyl Moiety for Protein Geranylgeranylation in Tobacco BY-2 Cells

et al. 2009

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“…The Arabidopsis genome encodes seven genes belonging to a plant-specific ATP͞ADP IPT clade (AtIPT1, AtIPT3, AtIPT4, AtIPT5, AtIPT6, AtIPT7, and AtIPT8) (20,23,24). Overexpression of AtIPT4 or AtIPT8 confers cytokinin-independent shoot formation on calli (23,25), and overexpression of AtIPT1, 3,4,5,7, or 8 causes increased iP-type cytokinin levels in planta (25,26). These results suggest that isopentenylation of ATP and ADP makes a major contribution to the control of cytokinin biosynthesis.…”

mentioning

confidence: 99%

“…Another pathway of tZ production, the iPR monophosphate-independent pathway, most likely involves transfer of the trans-hydroxylated isopentenyl moiety from 4-hydroxy-3-methyl-2-(E)-butenyl diphosphate to adenosine phosphates, by the action of AtIPTs (28). However, this pathway has become less favored since the finding that AtIPT1 does not efficiently catalyze transfer of the trans-hydroxylated isopentenyl moiety from the likely precursor, 4-hydroxy-3-methyl-2-(E)-butenyl diphosphate, to adenosine phosphates (26).…”

mentioning

confidence: 99%

Roles of Arabidopsis ATP/ADP isopentenyltransferases and tRNA isopentenyltransferases in cytokinin biosynthesis

Miyawaki

Tarkowski

Matsumoto-Kitano

et al. 2006

Proc. Natl. Acad. Sci. U.S.A.

516

536

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Cytokinins, which are central regulators of cell division and differentiation in plants, are adenine derivatives carrying an isopentenyl side chain that may be hydroxylated. Plants have two classes of isopentenyltransferases (IPTs) acting on the adenine moiety: ATP͞ ADP isopentenyltransferases (in Arabidopsis thaliana, AtIPT1, 3, 4 -8) and tRNA IPTs (in Arabidopsis, AtIPT2 and 9). ATP͞ADP IPTs are likely to be responsible for the bulk of cytokinin synthesis, whereas it is thought that cis-zeatin (cZ)-type cytokinins are produced possibly by degradation of cis-hydroxy isopentenyl tRNAs, which are formed by tRNA IPTs. However, these routes are largely hypothetical because of lack of in vivo evidence, because the critical experiment necessary to verify these routes, namely the production and analysis of mutants lacking AtIPTs, has not yet been described. We isolated null mutants for all members of the ATP͞ADP IPT and tRNA IPT gene families in Arabidopsis. Notably, our work demonstrates that the atipt1 3 5 7 quadruple mutant possesses severely decreased levels of isopentenyladenine and trans-zeatin (tZ), and their corresponding ribosides, ribotides, and glucosides, and is retarded in its growth. In contrast, these mutants possessed increased levels of cZ-type cytokinins. The atipt2 9 double mutant, on the other hand, lacked isopentenyl-and cishydroxy isopentenyl-tRNA, and cZ-type cytokinins. These results indicate that whereas ATP͞ADP IPTs are responsible for the bulk of isopentenyladenine-and tZ-type cytokinin synthesis, tRNA IPTs are required for cZ-type cytokinin production. This work clarifies the long-standing questions of the biosynthetic routes for isopentenyladenine-, tZ-, and cZ-type cytokinin production.S ince the discovery of cytokinins as inducers of plant cell division (1) and differentiation (2), they have been recognized as central regulators of plant development (3). Cytokinins also increase nutrient sink strength, delay senescence, stimulate outgrowth from lateral buds, and inhibit cell elongation (4). The important roles for cytokinins in cell division were verified by overexpression of genes for cytokinin-degrading enzymes (cytokinin oxidases, CKXs) (5-7) and by examination of single and higher-order cytokinin-receptor null mutants (8-10).Most naturally occurring cytokinins are N 6 -isopentenyladenine (iP) derivatives. iP carries an unmodified isopentenyl side chain, whereas trans-zeatin (tZ) and cis-zeatin (cZ) carry hydroxylated side chains. Cytokinins exist in free-base, riboside, and ribotide forms, with varying degrees of biological activity. Cytokinins also may be modified in several ways. For example, the N7 and N9 positions of the adenine moiety of cytokinins may be glucosylated to form N-glucosides. Alternatively, the hydroxyl group of tZ and cZ may be glucosylated or xylosylated to form zeatin-O-glucosides or zeatin-O-xylosides. N-and O-glycosides are biologically inactive (3).Experimental evidence demonstrates that free-base cytokinins are biologically active. For example, iP (11) and t...

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Cytokinin Metabolism and Signal Transduction

Heyl

Werner

Schmülling

2006

Annual Plant Reviews Volume 24: Plant Hormone Signaling

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Agrobacterium tumefaciens increases cytokinin production in plastids by modifying the biosynthetic pathway in the host plant

Cited by 108 publications

References 40 publications

The Plastidial 2-C-Methyl-d-Erythritol 4-Phosphate Pathway Provides the Isoprenyl Moiety for Protein Geranylgeranylation in Tobacco BY-2 Cells

The Plastidial 2-C-Methyl-d-Erythritol 4-Phosphate Pathway Provides the Isoprenyl Moiety for Protein Geranylgeranylation in Tobacco BY-2 Cells

Roles of Arabidopsis ATP/ADP isopentenyltransferases and tRNA isopentenyltransferases in cytokinin biosynthesis

Cytokinin Metabolism and Signal Transduction

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