Ethylene controls cambium stem cell activity via promoting local auxin biosynthesis

Summary The vascular cambium is the main secondary meristem in plants that produces secondary phloem (outside) and xylem (inside) on opposing sides of the cambium. The phytohormone ethylene has been implicated in vascular cambium activity, but the regulatory network underlying ethylene‐mediated camb...

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Veröffentlicht in:The New phytologist 2023-08, Vol.239 (3), p.964-978
Hauptverfasser: Yu, Qin, Cheng, Chenxia, Zhou, Xiaofeng, Li, Yonghong, Hu, Yingchun, Yang, Chun, Zhou, Yingying, Soliman, Tarek M. A., Zhang, Hao, Wang, Qigang, Wang, Huichun, Jiang, Cai‐Zhong, Gan, Su‐Sheng, Gao, Junping, Ma, Nan
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Sprache:eng
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Zusammenfassung:Summary The vascular cambium is the main secondary meristem in plants that produces secondary phloem (outside) and xylem (inside) on opposing sides of the cambium. The phytohormone ethylene has been implicated in vascular cambium activity, but the regulatory network underlying ethylene‐mediated cambial activity remains to be elucidated. Here, we found that PETAL MOVEMENT‐RELATED PROTEIN1 (RhPMP1), an ethylene‐inducible HOMEODOMAIN‐LEUCINE ZIPPER I transcription factor in woody plant rose (Rosa hybrida), regulates local auxin biosynthesis and auxin transport to maintain cambial activity. Knockdown of RhPMP1 resulted in smaller midveins and reduced auxin content, while RhPMP1 overexpression resulted in larger midveins and increased auxin levels compared with the wild‐type plants. Furthermore, we revealed that Indole‐3‐pyruvate monooxygenase YUCCA 10 (RhYUC10) and Auxin transporter‐like protein 2 (RhAUX2), encoding an auxin biosynthetic enzyme and an auxin influx carrier, respectively, are direct downstream targets of RhPMP1. In summary, our results suggest that ethylene promotes an auxin maximum in the cambium adjacent to the xylem to maintain cambial activity.
ISSN:0028-646X
1469-8137
DOI:10.1111/nph.19004