Identification of differentially-expressed genes in response to salt stress in the salt-tolerant Sri Lankan rice variety At354

Abstract: Rice is highly sensitive to salt stress, an expanding abiotic stress factor that limits rice yield improvement. Development of salt tolerant rice varieties based on molecular breeding methods requires identification of genes responsible for various mechanisms and responses that contribute to salt tolerance. The objective of the present work was to identify genes, which are differentially-expressed in response to salt stress in the salt-tolerant Sri Lankan rice variety, At354. Two cDNA libraries were constructe… Show more

“…In transgenic Arabidopsis and rice, an overexpression pattern of LcSAIN1 also caused an increase in the amount of transcription factors, compatible solutes which enable plants more tolerant during salt stress [44]. Studies resulted the hypothetical proteins after salt treatement in different plants such as rice [45]. In a recent example of comparative assessment of Thellungiella halophila proteins, one fifth of the total salt stress induced proteins have been identified as hypothetical [46].…”

Comparative Transcript Profiling and Multiplex qRT-PCR Analysis Between Salt-Tolerant and Sensitive Wheat Genotypes

“…In transgenic Arabidopsis and rice, an overexpression pattern of LcSAIN1 also caused an increase in the amount of transcription factors, compatible solutes which enable plants more tolerant during salt stress [44]. Studies resulted the hypothetical proteins after salt treatement in different plants such as rice [45]. In a recent example of comparative assessment of Thellungiella halophila proteins, one fifth of the total salt stress induced proteins have been identified as hypothetical [46].…”

Comparative Transcript Profiling and Multiplex qRT-PCR Analysis Between Salt-Tolerant and Sensitive Wheat Genotypes