The vascular cambium serves as the fundamental meristem for wood formation. It determines wood biomass and structural properties by balancing self-renewal with the bidirectional production of xylem and phloem. This process is controlled by a complex network of peptides, transcription factors, and phytohormones. These regulatory networks coordinate cambial stem cell activity, balancing cell division and differentiation. Additionally, layers of regulation such as chromatin state, protein stability, and non-coding RNAs add significant complexity to these networks. Emerging single-cell and spatial transcriptomics, together with quantitative modeling, now resolve cambial heterogeneity, predicting the dynamic characteristics of wood formation. This review synthesizes current knowledge of cambial regulation, highlighting how feedback loops, spatial gradients, and dynamic signaling networks collectively orchestrate the predictive potential for improving cambial activity and wood formation.
Bao et al. (Thu,) studied this question.
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