4.7 Article

The Minus-End-Directed Kinesin OsDLK Shuttles to the Nucleus and Modulates the Expression of Cold-Box Factor 4

Journal

Publisher

MDPI
DOI: 10.3390/ijms23116291

Keywords

Cold-Box Factor 4; cold stress; kinesin; microtubules; nuclear import; rice (Oryza sativa L; )

Funding

  1. Chinese Scholar Council

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The transition to terrestrial plants led to a loss of microtubule minus-end-directed dynein motors and an expansion of class-XIV kinesins. OsDLK, a class-XIV kinesin from rice, plays a role in cell elongation during development and moves into the nucleus in response to cold stress. The import of OsDLK into the nucleus might be correlated with its specific DNA binding, particularly to the Opaque2 motif, which is found in the promoter region of NtAvr9/Cf9, a transcription factor involved in cold adaptation.
The transition to terrestrial plants was accompanied by a progressive loss of microtubule minus-end-directed dynein motors. Instead, the minus-end-directed class-XIV kinesins expanded considerably, likely related to novel functions. One of these motors, OsDLK (Dual Localisation Kinesin from rice), decorates cortical microtubules but moves into the nucleus in response to cold stress. This analysis of loss-of-function mutants in rice indicates that OsDLK participates in cell elongation during development. Since OsDLK harbours both a nuclear localisation signal and a putative leucin zipper, we asked whether the cold-induced import of OsDLK into the nucleus might correlate with specific DNA binding. Conducting a DPI-ELISA screen with recombinant OsDLKT (lacking the motor domain), we identified the Opaque2 motif as the most promising candidate. This motif is present in the promoter of NtAvr9/Cf9, the tobacco homologue of Cold-Box Factor 4, a transcription factor involved in cold adaptation. A comparative study revealed that the cold-induced accumulation of NtAvr9/Cfp9 was specifically quelled in transgenic BY-2 cells overexpressing OsDLK-GFP. These findings are discussed as a working model, where, in response to cold stress, OsDLK partitions from cortical microtubules at the plasma membrane into the nucleus and specifically modulates the expression of genes involved in cold adaptation.

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