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Protein Tyrosine Nitration during Development and Abiotic Stress Response in Plants.


ABSTRACT: In recent years, the study of nitric oxide (NO) in plant systems has attracted the attention of many researchers. A growing number of investigations have shown the significance of NO as a signal molecule or as a molecule involved in the response against (a)biotic processes. NO can be responsible of the post-translational modifications (NO-PTM) of target proteins by mechanisms such as the nitration of tyrosine residues. The study of protein tyrosine nitration during development and under biotic and adverse environmental conditions has increased in the last decade; nevertheless, there is also an endogenous nitration which seems to have regulatory functions. Moreover, the advance in proteome techniques has enabled the identification of new nitrated proteins, showing the high variability among plant organs, development stage and species. Finally, it may be important to discern between a widespread protein nitration because of greater RNS content, and the specific nitration of key targets which could affect cell-signaling processes. In view of the above point, we present a mini-review that offers an update about the endogenous protein tyrosine nitration, during plant development and under several abiotic stress conditions.

SUBMITTER: Mata-Perez C 

PROVIDER: S-EPMC5108813 | biostudies-literature | 2016

REPOSITORIES: biostudies-literature

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Protein Tyrosine Nitration during Development and Abiotic Stress Response in Plants.

Mata-Pérez Capilla C   Begara-Morales Juan C JC   Chaki Mounira M   Sánchez-Calvo Beatriz B   Valderrama Raquel R   Padilla María N MN   Corpas Francisco J FJ   Barroso Juan B JB  

Frontiers in plant science 20161115


In recent years, the study of nitric oxide (NO) in plant systems has attracted the attention of many researchers. A growing number of investigations have shown the significance of NO as a signal molecule or as a molecule involved in the response against (a)biotic processes. NO can be responsible of the post-translational modifications (NO-PTM) of target proteins by mechanisms such as the nitration of tyrosine residues. The study of protein tyrosine nitration during development and under biotic a  ...[more]

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