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10.21775/9781910190357.11
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Current Issues in Molecular Biology is published by MDPI from Volume 43 Issue 1 (2021). Previous articles were published by another publisher in Open Access under a CC-BY (or CC-BY-NC-ND) licence, and they are hosted by MDPI on mdpi.com as a courtesy and upon agreement with Caister Press.
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Review

Transcriptomic Analyses on the Role of Nitric Oxide in Plant Disease Resistance

by
Capilla Mata-Pérez
1,
Juan C. Begara-Morales
1,
Francisco Luque
2,
María N. Padilla
1,
Jaime Jiménez-Ruiz
1,
Beatriz Sánchez-Calvo
1,
Jesús Fierro-Risco
1 and
Juan B. Barroso
1,2,*
1
Group of Biochemistry and Cell Signaling in Nitric Oxide, Department of Experimental Biology, Faculty of Experimental Sciences, Campus Universitario Las Lagunillas s/n, University of Jaen, E-23071 Jaen, Spain
2
Center for Advanced Studies in Olive Grove and Olive Oils, Department of Experimental Biology, Campus Universitario "Las Lagunillas" s/n, University of Jaén, E-23071 Jaén, Spain
*
Author to whom correspondence should be addressed.
Curr. Issues Mol. Biol. 2016, 19(1), 121-128; https://doi.org/10.21775/9781910190357.11
Submission received: 14 June 2015 / Revised: 15 August 2015 / Accepted: 27 August 2015 / Published: 11 September 2015
Versions Notes

Abstract

Nitric oxide (NO) is a gaseous molecule having key roles in many physiological processes such as germination, growth, development and senescence. It has been also shown the important role of NO as a signaling molecule in the response to a wide variety of stress situations, including both biotic and abiotic stress conditions. In the last few years, a growing number of studies have focused on NO-cell targets by several approaches such as transcriptomic and proteomic analyses. This review is centered on offering an update about the principal medium- and large-scale transcriptomic analyses performed with several NO donors including microarray, cDNA-amplification fragment length polymorphism (AFLP) and high throughput sequencing (RNA-seq technology) approaches mainly focused on the role of this reactive nitrogen species in relation to plant disease resistance. Different putative NO-responsive genes have been identified in different plant tissues and plant species by application of several NO donors suggesting the implication of NO-responsive genes with plant adaptive responses to biotic stress processes. Finally, it is also provided an overview about common transcription factor-binding sites of NO-responsive genes and the need to further analyze the different NO-targets by other omics studies.
Keywords: nitric oxide; NO; transcriptomic analyses; microarray; cDNA-amplification fragment length polymorphism; high throughput sequencing nitric oxide; NO; transcriptomic analyses; microarray; cDNA-amplification fragment length polymorphism; high throughput sequencing

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MDPI and ACS Style

Mata-Pérez, C.; Begara-Morales, J.C.; Luque, F.; Padilla, M.N.; Jiménez-Ruiz, J.; Sánchez-Calvo, B.; Fierro-Risco, J.; Barroso, J.B. Transcriptomic Analyses on the Role of Nitric Oxide in Plant Disease Resistance. Curr. Issues Mol. Biol. 2016, 19, 121-128. https://doi.org/10.21775/9781910190357.11

AMA Style

Mata-Pérez C, Begara-Morales JC, Luque F, Padilla MN, Jiménez-Ruiz J, Sánchez-Calvo B, Fierro-Risco J, Barroso JB. Transcriptomic Analyses on the Role of Nitric Oxide in Plant Disease Resistance. Current Issues in Molecular Biology. 2016; 19(1):121-128. https://doi.org/10.21775/9781910190357.11

Chicago/Turabian Style

Mata-Pérez, Capilla, Juan C. Begara-Morales, Francisco Luque, María N. Padilla, Jaime Jiménez-Ruiz, Beatriz Sánchez-Calvo, Jesús Fierro-Risco, and Juan B. Barroso. 2016. "Transcriptomic Analyses on the Role of Nitric Oxide in Plant Disease Resistance" Current Issues in Molecular Biology 19, no. 1: 121-128. https://doi.org/10.21775/9781910190357.11

APA Style

Mata-Pérez, C., Begara-Morales, J. C., Luque, F., Padilla, M. N., Jiménez-Ruiz, J., Sánchez-Calvo, B., Fierro-Risco, J., & Barroso, J. B. (2016). Transcriptomic Analyses on the Role of Nitric Oxide in Plant Disease Resistance. Current Issues in Molecular Biology, 19(1), 121-128. https://doi.org/10.21775/9781910190357.11

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