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Emission of floral volatiles is facilitated by cell-wall non-specific lipid transfer proteins

Author

Listed:
  • Pan Liao

    (Purdue University
    Purdue University
    Hong Kong Baptist University, Kowloon Tong)

  • Itay Maoz

    (Purdue University
    Purdue University
    Agricultural Research Organization, Volcani Center)

  • Meng-Ling Shih

    (Purdue University)

  • Ji Hee Lee

    (Purdue University
    Purdue University)

  • Xing-Qi Huang

    (Purdue University
    Purdue University)

  • John A. Morgan

    (Purdue University
    Purdue University
    Purdue University)

  • Natalia Dudareva

    (Purdue University
    Purdue University
    Purdue University)

Abstract

For volatile organic compounds (VOCs) to be released from the plant cell into the atmosphere, they have to cross the plasma membrane, the cell wall, and the cuticle. However, how these hydrophobic compounds cross the hydrophilic cell wall is largely unknown. Using biochemical and reverse-genetic approaches combined with mathematical simulation, we show that cell-wall localized non-specific lipid transfer proteins (nsLTPs) facilitate VOC emission. Out of three highly expressed nsLTPs in petunia petals, which emit high levels of phenylpropanoid/benzenoid compounds, only PhnsLTP3 contributes to the VOC export across the cell wall to the cuticle. A decrease in PhnsLTP3 expression reduces volatile emission and leads to VOC redistribution with less VOCs reaching the cuticle without affecting their total pools. This intracellular build-up of VOCs lowers their biosynthesis by feedback downregulation of phenylalanine precursor supply to prevent self-intoxication. Overall, these results demonstrate that nsLTPs are intrinsic members of the VOC emission network, which facilitate VOC diffusion across the cell wall.

Suggested Citation

  • Pan Liao & Itay Maoz & Meng-Ling Shih & Ji Hee Lee & Xing-Qi Huang & John A. Morgan & Natalia Dudareva, 2023. "Emission of floral volatiles is facilitated by cell-wall non-specific lipid transfer proteins," Nature Communications, Nature, vol. 14(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36027-9
    DOI: 10.1038/s41467-023-36027-9
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    1. Kewei Zhang & Ondrej Novak & Zhaoyang Wei & Mingyue Gou & Xuebin Zhang & Yong Yu & Huijun Yang & Yuanheng Cai & Miroslav Strnad & Chang-Jun Liu, 2014. "Arabidopsis ABCG14 protein controls the acropetal translocation of root-synthesized cytokinins," Nature Communications, Nature, vol. 5(1), pages 1-12, May.
    2. D. F. Zhao & A. Buchholz & R. Tillmann & E. Kleist & C. Wu & F. Rubach & A. Kiendler-Scharr & Y. Rudich & J. Wildt & Th. F. Mentel, 2017. "Environmental conditions regulate the impact of plants on cloud formation," Nature Communications, Nature, vol. 8(1), pages 1-8, April.
    3. Joshua R. Widhalm & Michael Gutensohn & Heejin Yoo & Funmilayo Adebesin & Yichun Qian & Longyun Guo & Rohit Jaini & Joseph H. Lynch & Rachel M. McCoy & Jacob T. Shreve & Jyothi Thimmapuram & David Rho, 2015. "Identification of a plastidial phenylalanine exporter that influences flux distribution through the phenylalanine biosynthetic network," Nature Communications, Nature, vol. 6(1), pages 1-11, November.
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