Nitric oxide: an active nitrogen molecule that modulates cellulose synthesis in tomato roots
TLDR
The hypothesis that variations in NO levels influence cellulose synthesis and content in roots and three tomato cellulose synthase transcripts were identified and indicated that SICESA1 and SicesA3 levels were affected by high NO concentrations.Abstract:
Nitric oxide (NO) is a bioactive molecule involved in several growth and developmental processes in plants. These processes are mostly characterized by changes in primary and secondary metabolism. Here, the effect of NO on cellulose synthesis in tomato (Solanum lycopersicum) roots was studied. The phenotype of roots, cellulose content, the incorporation of 14C-glucose into cellulosic fraction and the expression of tomato cellulose synthase (CESA) transcripts in roots treated with the NO donor sodium nitroprusside (SNP) were analysed. Nitric oxide affected cellulose content in roots in a dose dependent manner. Low concentrations of SNP (pmoles of NO) increased cellulose content in roots while higher concentrations of SNP (nmoles of NO) had the opposite effect. This result correlated with assays of 14C-glucose incorporation into cellulose in roots. The effect of NO on 14C-glucose incorporation into cellulose was transient and reversible. Microscopic analysis of roots suggested that NO affected primary cell wall cellulose synthesis. Three tomato cellulose synthase (SICESA) transcripts were identified. Reverse transcriptase polymerase chain reaction experiments were carried out and indicated that SICESA1 and SICESA3 levels were affected by high NO concentrations. Together, these results support the hypothesis that variations in NO levels influence cellulose synthesis and content in roots.read more
Citations
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Nitric oxide in plants: an assessment of the current state of knowledge
Luis A. J. Mur,Julien Mandon,Stefan Persijn,Simona M. Cristescu,I. E. Moshkov,G. V. Novikova,Michael A. Hall,Frans J. M. Harren,Kim H. Hebelstrup,Kapuganti Jagadis Gupta +9 more
TL;DR: It is difficult to define a bespoke plant NO signalling pathway, but rather NO appears to act as a modifier of other signalling pathways, and early reports that NO signalling involves cGMP-as in animal systems-require revisiting.
Journal ArticleDOI
Nitric Oxide: A Multitasked Signaling Gas in Plants
Patrícia Domingos,Ana Margarida Prado,Aloysius Wong,Christoph A Gehring,José A. Feijó,José A. Feijó +5 more
TL;DR: The issues of enzymatic and chemical generation of NO in plants, NO sensing and downstream signaling, namely the putative cGMP and Ca(2+) pathways, ion-channel activity modulation, gene expression regulation, and the interface with other ROS, which can have a profound effect on both NO accumulation and function are addressed.
Journal ArticleDOI
Exogenous nitric oxide enhances cadmium tolerance of rice by increasing pectin and hemicellulose contents in root cell wall
TL;DR: It seems that exogenous NO enhances Cd tolerance of rice by increasing pectin and hemicellulose content in the cell wall of roots, increasing Cd accumulation in root cell wall and decreasing Cd collection in soluble fraction of leaves.
Journal ArticleDOI
Nitric oxide (NO) and phytohormones crosstalk during early plant development
Luis Sanz,Pablo Albertos,Isabel Mateos,Inmaculada Sánchez-Vicente,Tamara Lechón,María Fernández-Marcos,Oscar Lorenzo +6 more
TL;DR: This review makes a compilation of the described interactions between NO and phytohormones during early plant developmental processes (i.e. seed dormancy and germination, hypocotyl elongation and root development) and identifies molecular targets involved in the regulation of the crosstalk.
Journal ArticleDOI
Plant Survival in a Changing Environment: The Role of Nitric Oxide in Plant Responses to Abiotic Stress
TL;DR: This review focuses on the current knowledge of the role of nitric oxide in adaptive plant responses to some specific abiotic stress conditions, particularly low mineral nutrient supply, drought, salinity and high UV-B radiation.
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