Soil salinity is a major environmental stress limiting plant productivity. Vacuole Na ? /H ? antiporters play important roles for the survival of plants under salt stress conditions. We have developed salt stress tolerant transgenic tomato plants (Solanum lycopersicum cv. PED) by overexpression of the wheat Na ? /H ? antiporter gene TaNHX2 using Agrobacterium tumefaciens strain LBA4404 harbouring a binary vector pBin438 that contains the TaNHX2 gene under the control of double CaMV 35S promoter and npt II as a selectable marker. PCR and Southern blot analysis confirmed that TaNHX2 gene has been integrated and expressed in the T 1 generation transgenic tomato plants. When TaN-HX2 expressing plants were exposed to 100 or 150 mM NaCl, they were found to be more tolerant to salt stress compared to wild type plants. Biochemical analyses also showed that transgenic plants have substantial amount of relative water content and chlorophyll content under salt stress conditions compared to wild type plants. The relative water content in transgenic and wild type plants ranged from 68 to 75 % and 46-73 % and chlorophyll content fall in between 1.8 to 2.4 mg/g fw and 1.0 to 2.4 mg/g fw, respectively, in all stress conditions. In the present study, we observed a better germination rate of T 1 transgenic seeds under salt stress conditions compared with wild type plants.Our results indicated that TaNHX2-transgenic tomato plants coped better with salt stress than wild type plants.
Nitric oxide (NO) is now established as an important signalling molecule in plants where it influences growth, development, and responses to stress. Despite extensive research, the most appropriate methods to measure and localize these signalling radicals are debated and still need investigation. Many confounding factors such as the presence of other reactive intermediates, scavenging enzymes, and compartmentation influence how accurately each can be measured. Further, these signalling radicals have short half-lives ranging from seconds to minutes based on the cellular redox condition. Hence, it is necessary to use sensitive and specific methods in order to understand the contribution of each signalling molecule to various biological processes. In this review, we summarize the current knowledge on NO measurement in plant samples, via various methods. We also discuss advantages, limitations, and wider applications of each method.
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