Abstract
The Auxin/indole-3-acetic acid (Aux/IAA) repressor genes down-regulate the auxin response pathway during many stages of plant and fruit development. In order to determine if and how Aux/IAAs participate in governing texture and hardness in stone fruit maturation, we identified 23 Aux/IAA genes in peach, confirmed by the presence of four conserved domains. In this work, we used fluorescence microscopy with PpIAA-GFP fusion reporters to observe their nuclear localization. We then conducted PCR-based differential expression analysis in “melting” and “stony hard” varieties of peach, and found that in the “melting” variety, nine PpIAAs exhibited peak expression in the S4-3 stage of fruit maturation, with PpIAA33 showing the highest (>120-fold) induction. The expression of six PpIAAs peaked in the S4-2 stage, with PpIAA14 expressed the most highly. Only PpIAA15/16 showed higher expression in the “stony hard” variety than in the “melting” variety, both peaking in the S3 stage. In contrast, PpIAA32 had the highest relative expression in buds, flowers, young and mature leaves, and roots. Our study provides insights into the expression patterns of Aux/IAA developmental regulators in response to auxin during fruit maturation, thus providing insight into their potential development as useful markers for quantitative traits associated with fruit phenotype.
Highlights
IntroductionMature peaches can be divided into three phenotypes based on the softening of the mesocarp: “melting”, “non-melting”, and “stony hard”
Information about these 23 PpIAA genes is listed in Table 1, including the gene name, Genbank ID, peach gene ID, location, open reading frame (ORF) length, protein length, molecular weight (MW), and isoelectric point
The size of the predicted PpIAAs ranged from 162 amino acids (PpIAA33) to 413 amino acids (PpIAA12), with MWs ranging from 17.98 kDa (PpIAA33) to 45.66 kDa (PpIAA8)
Summary
Mature peaches can be divided into three phenotypes based on the softening of the mesocarp: “melting”, “non-melting”, and “stony hard”. The melting phenotype is characterized by increasing softness with maturity caused by the activity of endopolygalacturonase during the advanced stages of ripening [1]. Non-melting peaches soften slowly when overripe and never melt, whereas fruits of the stony hard type exhibit very firm and crisp flesh at the ripened stage [2,3]. Previous research has shown that regulation of ethylene biosynthesis depends on high local concentrations of indole-3-acetic acid (IAA) in the peach mesocarp, and peaches with the non-softening or hard phenotype exhibit significantly lower levels of both IAA and downstream ethylene synthesis than melting type fruits [3]
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