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A collection of transcriptomic and proteomic datasets from sesame in response to salt stress

Yujuan Zhang, Donghua Li, Rong Zhou, Aili Liu, Linhai Wang, Yanxin Zhang, Huihui Gong, Xiurong Zhang, Jun You

2020Data in Brief24 citationsDOIOpen Access PDF

Abstract

L.). To understand the molecular mechanisms of this oilseed crop in response to salt stress, we examined the transcriptome and proteome profiles of two sesame varieties, with contrasting tolerances to salinity. Here, RNA sequencing and quantitative proteomic analyses of 30 samples from salt-tolerant and -sensitive sesame seedlings under salt stress were carried out. These data can be used for differential gene expression and protein accumulation analyses, based on a genetic aberration or phenotypic differences in sesame responses to salt stress. Our dataset provides an extensive resource for understanding the molecular mechanisms underlying the adaptation of sesame to salt stress, and may constitute useful a resource for increasing the tolerance of major crop plants to raised salinity levels in soils.

Topics & Concepts

SesamumTranscriptomeSalinitySoil salinityBiologyProteomeAbiotic stressAbiotic componentCropRNA-SeqBiotechnologyBotanyGeneAgronomyBioinformaticsGene expressionGeneticsEcologySesame and Sesamin ResearchPhytase and its ApplicationsLipid metabolism and biosynthesis
A collection of transcriptomic and proteomic datasets from sesame in response to salt stress | Litcius