Boron stimulates fruit formation and reprograms developmental metabolism in sweet cherry

Author:

Michailidis Michail12,Bazakos Christos134,Kollaros Marios5,Adamakis Ioannis‐Dimosthenis S.6,Ganopoulos Ioannis13,Molassiotis Athanassios5ORCID,Tanou Georgia12ORCID

Affiliation:

1. Joint Laboratory of Horticulture ELGO‐Dimitra Thessaloniki‐Thermi Greece

2. Institute of Soil and Water Resources ELGO‐Dimitra Thessaloniki‐Thermi Greece

3. Institute of Plant Breeding and Genetic Resources ELGO‐Dimitra Thessaloniki‐Thermi Greece

4. Department of Comparative Development and Genetics Max Planck Institute for Plant Breeding Research Cologne Germany

5. Laboratory of Pomology, Department of Horticulture Aristotle University of Thessaloniki Thessaloniki‐Thermi Greece

6. Department of Biology National and Kapodistrian University of Athens Athens Greece

Abstract

AbstractBoron modulates a wide range of plant developmental processes; however, the regulation of early fruit development by boron remains poorly defined. We report here the physiological, anatomical, metabolic, and transcriptomic impact of pre‐flowering boron supply on the sweet cherry fruit set and development (S1–S5 stages). Our findings revealed that endogenous boron content increased in early growth stages (S1 and S2 stages) following preflowering boron exogenous application. Boron treatment resulted in increased fruit set (S1 and S2 stages) and mesocarp cell enlargement (S2 stage). Various sugars (e.g., fructose and glucose), alcohols (e.g., myo‐inositol and maltitol), organic acids (e.g., malic acid and citric acid), amino acids (e.g., valine and serine) accumulated in response to boron application during the various developmental stages (S1–S5 stages). Transcriptomic analysis at early growth (S1 and S2 stages) identified boron‐responsive genes that are mainly related to secondary metabolism, amino acid metabolism, calcium‐binding, ribosome biogenesis, sugar homeostasis and especially to photosynthesis. We found various boron‐induced/repressed genes, including those specifically involved in growth. Several heat shock proteins displayed distinct patterns during the initial growth in boron‐exposed fruit. Gene analysis also discovered several putative candidate genes like PavPIP5K9, PavWAT1, PavMIOX, PavCAD1, PavPAL1 and PavSNRK2.7, which could facilitate the investigation of the molecular rationale underlying boron function in early fruit growth. Substantial changes in the expression of numerous transcription factors, including PavbHLH25, PavATHB.12L, and PavZAT10.1,.2 were noticed in fruits exposed to boron. The current study provides a baseline of information for understanding the metabolic processes regulated by boron during sweet cherry fruit early growth and fruit development in general.

Publisher

Wiley

Subject

Cell Biology,Plant Science,Genetics,General Medicine,Physiology

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