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Retrograde sulfur flow from glucosinolates to cysteine in <i>Arabidopsis thaliana</i>

Ryosuke Sugiyama, Rui Li, Ayuko Kuwahara, Ryo Nakabayashi, Naoyuki Sotta, Tetsuya Mori, Takehiro Ito, Naoko Ohkama‐Ohtsu, Toru Fujiwara, Kazuki Saito, Ryohei Thomas Nakano, Paweł Bednarek, Masami Yokota Hirai

2021Proceedings of the National Academy of Sciences114 citationsDOIOpen Access PDF

Abstract

Specialized (secondary) metabolic pathways in plants have long been considered one-way routes of leading primary metabolite precursors to bioactive end products. Conversely, endogenous degradation of such “end” products in plant tissues has been observed following environmental stimuli, including nutrition stress. Therefore, it is of general interest whether specialized metabolites can be reintegrated into primary metabolism to recover the invested resources, especially in the case of nitrogen- or sulfur-rich compounds. Here, we demonstrate that endogenous glucosinolates (GLs), a class of sulfur-rich plant metabolites, are exploited as a sulfur source by the reallocation of sulfur atoms to primary metabolites such as cysteine in Arabidopsis thaliana . Tracer experiments using 34 S- or deuterium-labeled GLs depicted the catabolic processing of GL breakdown products in which sulfur is mobilized from the thioglucoside group in GL molecules, potentially accompanied by the release of the sulfate group. Moreover, we reveal that beta-glucosidases BGLU28 and BGLU30 are the major myrosinases that initiate sulfur reallocation by hydrolyzing particular GL species, conferring sulfur deficiency tolerance in A. thaliana , especially during early development. The results delineate the physiological function of GL as a sulfur reservoir, in addition to their well-known functions as defense chemicals. Overall, our findings demonstrate the bidirectional interaction between primary and specialized metabolism, which enhances our understanding of the underlying metabolic mechanisms via which plants adapt to their environments.

Topics & Concepts

Arabidopsis thalianaSulfurSulfur metabolismCysteineBiochemistryMetabolismCatabolismMetaboliteChemistryMetabolic pathwayEndogenyArabidopsisCysteine metabolismDetoxification (alternative medicine)GlucosinolatePrimary metaboliteMetabolomeBiologyBotanyMutantEnzymeGeneOrganic chemistryAlternative medicineBrassicaPathologyMedicineGenomics, phytochemicals, and oxidative stressNitrogen and Sulfur Effects on BrassicaSelenium in Biological Systems
Retrograde sulfur flow from glucosinolates to cysteine in <i>Arabidopsis thaliana</i> | Litcius