2004
DOI: 10.1093/pcp/pch022
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Differentiation of Dicarboxylate Transporters in Mesophyll and Bundle Sheath Chloroplasts of Maize

Abstract: ;In NADP-malic enzyme-type C 4 plants such as maize (Zea mays L.), efficient transport of oxaloacetate and malate across the inner envelope membranes of chloroplasts is indispensable. We isolated four maize cDNAs, ZmpOMT1 and ZmpDCT1 to 3, encoding orthologs of plastidic 2-oxoglutarate/malate and general dicarboxylate transporters, respectively. Their transcript levels were upregulated by light in a cell-specific manner; ZmpOMT1 and ZmpDCT1 were expressed in the mesophyll cell (MC) and ZmpDCT2 and 3 were expre… Show more

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Cited by 49 publications
(54 citation statements)
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“…TC282039 was closer to A. thaliana Dit1 (AT5G64290), TC282161 was closer to Dit2 (AT5G64280), and they preferentially accumulated in the M envelopes (BS/M ϭ 0.2) and BS envelopes (BS/M ϭ 1.7), respectively. This observation is consistent with previous observations of cell-specific transcript accumulation of Dit1,2 in sorghum (125) and maize (41). Consequently a two-translocator model for Dit1,2 was proposed (126) in which M-enriched Dit1 imports 2-oxoglutarate into chloroplast in exchange for malate, whereas BS enriched Dit2 imports malate and exports glutamate (for a review, see Ref.…”
Section: Purification Of M and Bs Chloroplast Membranes Fromsupporting
confidence: 90%
See 1 more Smart Citation
“…TC282039 was closer to A. thaliana Dit1 (AT5G64290), TC282161 was closer to Dit2 (AT5G64280), and they preferentially accumulated in the M envelopes (BS/M ϭ 0.2) and BS envelopes (BS/M ϭ 1.7), respectively. This observation is consistent with previous observations of cell-specific transcript accumulation of Dit1,2 in sorghum (125) and maize (41). Consequently a two-translocator model for Dit1,2 was proposed (126) in which M-enriched Dit1 imports 2-oxoglutarate into chloroplast in exchange for malate, whereas BS enriched Dit2 imports malate and exports glutamate (for a review, see Ref.…”
Section: Purification Of M and Bs Chloroplast Membranes Fromsupporting
confidence: 90%
“…However, no systematic comparison of envelope proteomes of differentiated BS and M maize chloroplasts has been carried out, but major differences can be expected in e.g. translocators of carbohydrates (34,41).…”
mentioning
confidence: 99%
“…DICARBOXYLIC ACID TRANSPORTER1 (DCT1), DCT2, and 2-OXOGLUTARATE/MALATE TRANSPORTER1 (OMT1) (Taniguchi et al, 2004) are predicted to be chloroplast localized (Taniguchi et al, 2004;Majeran and van Wijk, 2009) and differentially expressed between the M and BS cells (Li et al, 2010;Chang et al, 2012;Tausta et al, 2014), but their metabolic function to date is unclear. The DCT2 protein and transcript are enriched in the BS of maize (Bräutigam et al, 2008;Li et al, 2010), and expression profiles across the developmental leaf gradient coincide with other photosynthetic genes (Li et al, 2010).…”
Section: Introductionmentioning
confidence: 99%
“…In C4 plants like maize, CO2 is primarily fixed to form malate in MC and then transferred into bundle sheath cells (BSC) by the C4 pathway to generate NADPH and release CO2, which is reduced by Calvin cycle. Because BSC in maize lack PSII photochemical activity, the necessary NADPH for CO2 reduction mainly comes from MC through malate transport (Taniguchi et al, 2004;Majeran et al, 2008). In the leaves of C3 plants, CO2 fixation and reduction are not compartmentalized as in C4 plants, because BSC in C3 plants do not photosynthesize.…”
Section: Introductionmentioning
confidence: 99%