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ZmOrphan94 Transcription Factor Downregulates ZmPEPC1 Gene Expression in Maize Bundle Sheath Cells

Spatial separation of the photosynthetic reactions is a key feature of C metabolism. In most C plants, this separation requires compartmentation of photosynthetic enzymes between mesophyll (M) and bundle sheath (BS) cells. The upstream region of the gene encoding the maize PHOSPHOENOLPYRUVATE CARBOX...

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Bibliographic Details
Published in:Frontiers in plant science 2021-04, Vol.12, p.559967
Main Authors: Górska, Alicja M, Gouveia, Paulo, Borba, Ana Rita, Zimmermann, Anna, Serra, Tânia S, Carvalho, Pedro, Lourenço, Tiago F, Oliveira, M Margarida, Peterhänsel, Christoph, Saibo, Nelson J M
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Language:English
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Summary:Spatial separation of the photosynthetic reactions is a key feature of C metabolism. In most C plants, this separation requires compartmentation of photosynthetic enzymes between mesophyll (M) and bundle sheath (BS) cells. The upstream region of the gene encoding the maize PHOSPHOENOLPYRUVATE CARBOXYLASE 1 (ZmPEPC1) has been shown sufficient to drive M-specific gene expression. Although this region has been well characterized, to date, only few -factors involved in the gene regulation were identified. Here, using a yeast one-hybrid approach, we have identified three novel maize transcription factors ZmHB87, ZmCPP8, and ZmOrphan94 as binding to the upstream region. Bimolecular fluorescence complementation assays in maize M protoplasts unveiled that ZmOrphan94 forms homodimers and interacts with ZmCPP8 and with two other regulators previously reported, ZmbHLH80 and ZmbHLH90. Trans-activation assays in maize M protoplasts unveiled that ZmHB87 does not have a clear transcriptional activity, whereas ZmCPP8 and ZmOrphan94 act as activator and repressor, respectively. Moreover, we observed that ZmOrphan94 reduces the trans-activation activity of both activators ZmCPP8 and ZmbHLH90. Using the electromobility shift assay, we showed that ZmOrphan94 binds to several -elements present in the upstream region and one of these -elements overlaps with the ZmbHLH90 binding site. Gene expression analysis revealed that is preferentially expressed in the BS cells, suggesting that ZmOrphan94 is part of a transcriptional regulatory network downregulating transcript level in the BS cells. Based on both this and our previous work, we propose a model underpinning the importance of a regulatory mechanism within BS cells that contributes to the M-specific gene expression.
ISSN:1664-462X
1664-462X
DOI:10.3389/fpls.2021.559967