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Two homeologous MATE transporter genes,<i>NtMATE21</i>and<i>NtMATE22</i>, are involved in the modulation of plant growth and flavonol transport in<i>Nicotiana tabacum</i>

Umar Gani, Abhishek Kumar Nautiyal, Maridul Kundan, Biswaranjan Rout, Ashutosh Pandey, Prashant Misra

2022Journal of Experimental Botany19 citationsDOI

Abstract

The multidrug and toxic compound extrusion (MATE) protein family has been implicated in the transport of a diverse range of molecules, including specialized metabolites. In tobacco (Nicotiana tabacum), only a limited number of MATE transporters have been functionally characterized, and no MATE transporter has been studied in the context of flavonoid transport in this plant species so far. In the present study, we characterize two homeologous tobacco MATE genes, NtMATE21 and NtMATE22, and demonstrate their role in flavonol transport and in plant growth and development. The expression of these two genes was reported to be up-regulated in trichomes as compared with the trichome-free leaf. The transcript levels of NtMATE21 and NtMATE22 were found to be higher in flavonol overproducing tobacco transgenic lines as compared with wild type tobacco. The two transporters were demonstrated to be localized to the plasma membrane. Genetic manipulation of NtMATE21 and NtMATE22 led to altered growth phenotypes and modulated flavonol contents in N. tabacum. The β-glucuronidase and green fluorescent protein fusion transgenic lines of promoter regions suggested that NtMATE21 and NtMATE22 are exclusively expressed in the trichome heads in the leaf tissue and petals. Moreover, in a transient transactivation assay, NtMYB12, a flavonol-specific MYB transcription factor, was found to transactivate the expression of NtMATE21 and NtMATE22 genes. Together, our results strongly suggest the involvement of NtMATE21 and NtMATE22 in flavonol transport as well as in the regulation of plant growth and development.

Topics & Concepts

Nicotiana tabacumBiologyMYBTransactivationTrichomeTranscription factorCell biologyTransgenePhototropismGeneGeneticsBotanyPhysicsOpticsBlue lightPlant Gene Expression AnalysisPlant nutrient uptake and metabolismPlant Molecular Biology Research