Abstract
BackgroundSorghum is a versatile cereal crop, with excellent heat and drought tolerance. However, it is susceptible to early-season cold stress (12–15 °C) which limits stand-establishment and seedling growth. To gain further insights on the molecular mechanism of cold tolerance in sorghum we performed transcriptome profiling between known cold sensitive and tolerant sorghum lines using RNA sequencing technology under control and cold stress treatments.ResultsHere we report on the identification of differentially expressed genes (DEGs) between contrasting sorghum genotypes, HongkeZi (cold tolerant) and BTx623 (cold sensitive) under cool and control temperatures using RNAseq approach to elucidate the molecular basis of sorghum response to cold stress. Furthermore, we validated bi-allelic variants in the form of single nucleotide polymorphism (SNPs) between the cold susceptible and tolerant lines of sorghum. An analysis of transcriptome profile showed that in response to cold, a total of 1910 DEGs were detected under cold and control temperatures in both genotypes. We identified a subset of genes under cold stress for downstream analysis, including transcription factors that exhibit differential abundance between the sensitive and tolerant genotypes. We identified transcription factors including Dehydration-responsive element-binding factors, C-repeat binding factors, and Ethylene responsive transcription factors as significantly upregulated during cold stress in cold tolerant HKZ. Additionally, specific genes such as plant cytochromes, glutathione s-transferases, and heat shock proteins were found differentially regulated under cold stress between cold tolerant and susceptible genotype of sorghum. A total of 41,603 SNP were identified between the cold sensitive and tolerant genotypes with minimum read of four. Approximately 89 % of the 114 SNP sites selected for evaluation were validated using endpoint genotyping technology.ConclusionA new strategy which involved an integrated analysis of differential gene expression and identification of bi-allelic single nucleotide polymorphism (SNP) was conducted to determine and analyze differentially expressed genes and variation involved in cold stress response of sorghum. The results gathered provide an insight into the complex mechanisms associated with cold response in sorghum, which involve an array of transcription factors and genes which were previously related to abiotic stress response. This study also offers resource for gene based SNP that can be applied towards targeted genomic studies of cold tolerance in sorghum and other cereal crops.Electronic supplementary materialThe online version of this article (doi:10.1186/s12864-015-2268-8) contains supplementary material, which is available to authorized users.
Highlights
IntroductionIt is susceptible to early-season cold stress (12–15 °C) which limits stand-establishment and seedling growth
Sorghum is a versatile cereal crop, with excellent heat and drought tolerance
Variation for cold tolerance response of sorghum genotypes and transcriptome profiling approach Sorghum germplasm BTx623 and HKZ were previously selected based on the 72 h cold germ test, field emergence and seedling vigor (Fig. 1)
Summary
It is susceptible to early-season cold stress (12–15 °C) which limits stand-establishment and seedling growth. Sorghum bicolor (L.) Moench is a warm season species known for its drought tolerance and adaptation to high temperature but is susceptible to adverse effects of low temperature [1]. Lowtemperature-induced inhibition of germination and emergence in the field followed by stunted growth is a manifestation of cold susceptibility problem in sorghum [3]. Growth chamber assays for germination or vigor testing have been used to discriminate weak lines before planting and have been useful in quantifying cold tolerance in sorghum lines [5], but needs to be verified under field conditions as well [1]
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