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    Comparative Gene Expression and Physiological Analyses Reveal Molecular Mechanisms in Wound-Induced Spore Formation in the Edible Seaweed Nori

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    Author
    Stiller, John W.; Guan, Xiaowei
    URI
    http://hdl.handle.net/10342/11803
    Subject
     calcium signaling pathway; cell division; cell reprogramming 
    Date
    2022-03-17
    Citation:
    APA:
    Stiller, John W., & Guan, Xiaowei. (March 2022). Comparative Gene Expression and Physiological Analyses Reveal Molecular Mechanisms in Wound-Induced Spore Formation in the Edible Seaweed Nori. , (), - . Retrieved from http://hdl.handle.net/10342/11803

    Display/Hide MLA, Chicago and APA citation formats.

    MLA:
    Stiller, John W., and Guan, Xiaowei. "Comparative Gene Expression and Physiological Analyses Reveal Molecular Mechanisms in Wound-Induced Spore Formation in the Edible Seaweed Nori". . . (), March 2022. February 08, 2023. http://hdl.handle.net/10342/11803.
    Chicago:
    Stiller, John W. and Guan, Xiaowei, "Comparative Gene Expression and Physiological Analyses Reveal Molecular Mechanisms in Wound-Induced Spore Formation in the Edible Seaweed Nori," , no. (March 2022), http://hdl.handle.net/10342/11803 (accessed February 08, 2023).
    AMA:
    Stiller, John W., Guan, Xiaowei. Comparative Gene Expression and Physiological Analyses Reveal Molecular Mechanisms in Wound-Induced Spore Formation in the Edible Seaweed Nori. . March 2022; (): . http://hdl.handle.net/10342/11803. Accessed February 08, 2023.
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