4.6 Article

Populus PtERF85 Balances Xylem Cell Expansion and Secondary Cell Wall Formation in Hybrid Aspen

Journal

CELLS
Volume 10, Issue 8, Pages -

Publisher

MDPI
DOI: 10.3390/cells10081971

Keywords

cell wall thickness; ERF85 (CRF4); lignin; ribosome biogenesis; wood development; xylem expansion

Categories

Funding

  1. Swedish Research Council Formas [2018-01611, 213-2011-1148, 239-2011-1915]
  2. Kempe foundation [SMK-1649, SMK-1533]
  3. Sven och Lilly Lawskistiftelsen
  4. Knut and Alice Wallenberg Foundation [2016.0341, 2016.0352]
  5. Swedish Governmental Agency for Innovation Systems VINNOVA [2016-00504]
  6. Formas [2016-00504, 2018-01611] Funding Source: Formas

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PtERF85 plays a crucial role in balancing xylem cell expansion and secondary cell wall (SCW) formation in hybrid aspen, by activating genes related to cell expansion while preventing the synthesis of SCW chemical components. The spatial expression of PtERF85 during wood development contributes to transition of fiber cells from elongation to secondary cell wall deposition.
Secondary growth relies on precise and specialized transcriptional networks that determine cell division, differentiation, and maturation of xylem cells. We identified a novel role for the ethylene-induced Populus Ethylene Response Factor PtERF85 (Potri.015G023200) in balancing xylem cell expansion and secondary cell wall (SCW) formation in hybrid aspen (Populus tremula x tremuloides). Expression of PtERF85 is high in phloem and cambium cells and during the expansion of xylem cells, while it is low in maturing xylem tissue. Extending PtERF85 expression into SCW forming zones of woody tissues through ectopic expression reduced wood density and SCW thickness of xylem fibers but increased fiber diameter. Xylem transcriptomes from the transgenic trees revealed transcriptional induction of genes involved in cell expansion, translation, and growth. The expression of genes associated with plant vascular development and the biosynthesis of SCW chemical components such as xylan and lignin, was down-regulated in the transgenic trees. Our results suggest that PtERF85 activates genes related to xylem cell expansion, while preventing transcriptional activation of genes related to SCW formation. The importance of precise spatial expression of PtERF85 during wood development together with the observed phenotypes in response to ectopic PtERF85 expression suggests that PtERF85 contributes to the transition of fiber cells from elongation to secondary cell wall deposition.

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