Horticulture Advances (Dec 2023)

Nitrate stimulates adventitious rooting by increasing auxin content and regulating auxin- and root development-related genes expression in apple

  • Muhammad Mobeen Tahir,
  • Xinyue He,
  • Yandong Liu,
  • Humayun Raza,
  • Usman Aziz,
  • Li Fan,
  • Zohaib Asghar,
  • Shaohuan Li,
  • Sinuo Sun,
  • Dong Zhang,
  • Lu Bao

DOI
https://doi.org/10.1007/s44281-023-00020-5
Journal volume & issue
Vol. 1, no. 1
pp. 1 – 13

Abstract

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Abstract Adventitious root (AR) formation is critical for cutting survival and nutrient absorption re-establishment. This complex genetic trait involves the interplay of nitrogen, endogenous hormones, and several key genes. In this study, we treated GL-3 apple (Malus domestica) in vitro shoots with nitrate and ammonium to determine their impact on AR formation, hormonal content, and gene expression patterns. Nitrate treatment significantly promotes adventitious rooting by increasing cell division, differentiation, and AR primordia formation compared to ammonium treatment. Elevated indole-3-acetic acid (IAA), reduced abscisic acid, and zeatin riboside concentrations were consistently observed with nitrate, likely crucial for promoting ARs over ammonium. Furthermore, Malus domestica auxin resistance1 (MdAUX1) expression was induced, increasing IAA levels. MdIAA23 was upregulated. Further results indicate that the higher expression levels of Malus domestica WUSCHEL-related Homeobox gene 11 (MdWOX11), Malus domestica lateral organ boundaries domain gene 16 (MdLBD16), and MdLBD29, and increased cell cycle-related gene expressions, contribute to auxin-stimulated adventitious rooting under nitrate conditions. In conclusion, this study establishes that auxin content and associated genes related to root development and cell cycle contribute to superior ARs in response to nitrate.

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