2014
DOI: 10.1007/s00299-014-1707-3
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Novel compounds that enhance Agrobacterium-mediated plant transformation by mitigating oxidative stress

Abstract: Agrobacterium tumefaciens caused tissue browning leading to subsequent cell death in plant transformation and novel anti-oxidative compounds enhanced Agrobacterium -mediated plant transformation by mitigating oxidative stress. Browning and death of cells transformed with Agrobacterium tumefaciens is a long-standing and high impact problem in plant transformation and the agricultural biotechnology industry, severely limiting the production of transgenic plants. Using our tomato cv. MicroTom transformation syste… Show more

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Cited by 42 publications
(35 citation statements)
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“…Treating various plant species with low concentrations of exogenous melatonin (<1 μM) promotes root and coleoptile growth (Hernández-Ruiz et al 2005;Chen et al 2009) and ameliorates stress injury due to salt , alkaline soda stress (Liu et al 2015), drought (Meng et al 2014), and oxidative stress (Dan et al 2015). In addition to mitigating effects on abiotic stressors, melatonin participates in the response to pathogen attack as a signaling molecule by enhancing salicylic acid levels, resulting in resistance to infection (Lee et al , 2015.…”
Section: Introductionmentioning
confidence: 99%
“…Treating various plant species with low concentrations of exogenous melatonin (<1 μM) promotes root and coleoptile growth (Hernández-Ruiz et al 2005;Chen et al 2009) and ameliorates stress injury due to salt , alkaline soda stress (Liu et al 2015), drought (Meng et al 2014), and oxidative stress (Dan et al 2015). In addition to mitigating effects on abiotic stressors, melatonin participates in the response to pathogen attack as a signaling molecule by enhancing salicylic acid levels, resulting in resistance to infection (Lee et al , 2015.…”
Section: Introductionmentioning
confidence: 99%
“…As sessile organisms, plants are challenged by a number of threating sources of stress, categorized as abiotic or biotic. Among many abiotic stresses, melatonin is positively implicated in mitigating plant injury by modulating and promoting the endogenous defense mechanisms against cold , heat , drought , UV light , reactive oxygen species , and osmotic shock . Apart from these defensive roles in plants, melatonin is also known to participate in promoting root formation and seedling growth , as well as plant ripening and the senescence processes .…”
Section: Introductionmentioning
confidence: 99%
“…Melatonin has several functions in plant growth and development including rhizogenesis, photosynthesis, senescence, and seedling growth from germination onward . Plant stress responses include defense mechanisms against a range of potentially debilitating biotic and abiotic factors such as pathogens, cold, heat, drought, salinity, and oxidative stresses . The modulatory role of melatonin in all of these functions is closely associated with multiple changes in gene expression, which are the result of melatonin acting alone or in combination with environmental stressors .…”
Section: Introductionmentioning
confidence: 99%
“…[11][12][13][14] Plant stress responses include defense mechanisms against a range of potentially debilitating biotic and abiotic factors such as pathogens, [15][16][17] cold, 18,19 heat, 20 drought, 21,22 salinity, 23,24 and oxidative stresses. 25,26 The modulatory role of melatonin in all of these functions is closely associated with multiple changes in gene expression, which are the result of melatonin acting alone or in combination with environmental stressors. 27 Thus, melatonin acts as a modulator of gene expression 2,28 or as a signaling molecule that triggers extensive transcriptional reprogramming.…”
Section: Introductionmentioning
confidence: 99%