@article{MAKHILLRJBS20105211081,
title = {Exogenous Nitric Oxide Negatively Impacts on Ethylene Emissions from Intact and Fresh-Cut Tomato Fruit},
journal = {Research Journal of Biological Sciences},
volume = {5},
number = {2},
pages = {209-214},
year = {2010},
issn = {1815-8846},
doi = {rjbsci.2010.209.214},
url = {https://makhillpublications.co/view-article.php?issn=1815-8846&doi=rjbsci.2010.209.214},
author = {Mourad A.M.},
keywords = {Tomato,nitric oxide,ethylene biosynthesis,laser photoacoustic spectroscopy,fresh-cut fruits,Saudi Arabia},
abstract = {The objective of this study was to investigate the effect of Nitric Oxide (NO) on the production of basal and wound-associated stress ethylene (C2H4) from intact and fresh-cut tomato fruits, respectively. For this purpose, a non-invasive and online sampling technique based on Laser Photoacoustic Spectroscopy (LPAS) was employed. Pre-treatment of intact Mature Green (MG) tomato fruits with a low concentration (200 ppbv) of NO gas resulted in a significant and steady average reduction of 33% in the basal-level C2H4 production to 6.0±0.44 pmol h-1 g fwt-1 compared to 9.0±0.18 pmol h-1 g fwt-1 in the non-treated MG control. Moreover, NO gas fumigation of fresh-cut MG tomato fruit slices caused a 60% reduction in peak wound-induced C2H4 levels compared to untreated fresh-cut control fruit. These results clearly indicate that NO pre-treatment negatively impacts on both basal and wound-associated stress C2H4 emission levels, respectively in both intact and fresh-cut tomato fruits. These results are discussed in the light of possible mechanisms of NO interference with C2H4 biosynthesis. Moreover, the potential utilization of NO in controlling stress-induced and undesirable biochemical changes which are known to occur in fresh-cut fruits is highlighted.}
}