Abstract
Fruit abscission is a complex physiological process that is regulated by internal and environmental factors. During early development, apple fruit are exposed to extreme temperature fluctuations that are associated with premature fruit drop; however, their effect on fruit abscission is largely unknown. We hypothesized that fruit abscission is triggered by cold stress and investigated the molecular basis of premature fruit drop using RNA-Seq and metabolomics data from apple fruit undergoing abscission following cold stress in the field. Genes responsive to abscisic acid signaling and cell wall degradation were upregulated during abscission, consistent with the increased abscisic acid concentrations detected by liquid chromatography-mass spectrometry. We performed ex vivo cold shock experiments with excised tree subunits consisting of a branch, pedicel, and fruit. Abscission induction occurred in the cold-stressed subunits with concurrent upregulation of abscisic acid biosynthesis (MdNCED1) and metabolism (MdCYP707A) genes, and ethylene biosynthesis (MdACS1) and receptor (MdETR2) genes in the pedicel. Another key finding was the activation of cytoplasmic streaming in abscission-zone cells detected by electron microscopy. Our results provide a novel insight into the molecular basis of fruit abscission physiology in response to cold stress in apple.
Highlights
Fruit abscission is a complex process that is regulated by internal and external factors
The comparison of the daily mean temperature data against the 10-year annual mean revealed large temperature fluctuations, from a maximum of +7 ̊ on the 17th and -4 ̊ on the 20th May (Fig 1b). This indicated an unusual cold shock starting from 17th to 20th May, which might have induced an abnormal fruit drop of early developing apple fruit afterward
An earlier study on peach demonstrated that dehydrin 1 (DHN1) responds to low temperature and xero 1 (XERO1) is induced by drought, not by cold [34]
Summary
Fruit abscission is a complex process that is regulated by internal and external factors. The abscission-zone (AZ) tissues are induced, which leads to cell separation. The abscission signals are regulated by hormones, such as ethylene and abscisic acid (ABA), and signal transduction pathways [1]. The formation of AZ cell layers is induced by the JOINTLESS and MACROCALYX genes [2], accompanied by the modification of cell wall components such as lignin and pectin [3]. Previous studies have mainly focused on elucidating the intrinsic factors of the abscission signal including fruitlet abscission or pre-harvest drop [4,5,6].
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