Transcriptome Profiles of Populus euphratica upon Heat Shock stress

Title:Transcriptome Profiles of Populus euphratica upon Heat Shock stress

Volume: 15 Issue: 5

Author(s): Jinhuan Chen, Weilun Yin and Xinli Xia

Affiliation:

Keywords: Heat shock, HSP, Polyubiquitin, Populus euphratica, Transcriptome.

Abstract: Heat stress, which strongly affects plant performance and often results in reduced vegetative growth and yields depression, has become an increasingly serious global problem. Populus euphratica Oliv. which has been considered as a tree model for the study of plant response to abiotic stresses, could be resistant to an extremely wide environmental temperature range (–40 °C to 45 °C). Previous study is mainly focused on its gene regulation upon drought and salt stress. However, little is known about gene regulation at the global transcriptome level upon heat stress. To understand the gene network controlling heat stress in P. euphratica, a transcriptome sequencing using Illumina Hiseq 2000 was performed to generate a 10 gigabases depth for each sample in the tissue of leaf. 119,573 unigeneswere generated with an average length of 474 bp. Approximately 49,605 (41.49%) unigenes exhibited significantly different expressions between two libraries. Among these unigenes, 11,165 (9.34%) were upregulated and 38,440 (32.15%) were down regulated. Heat shock proteins classified as molecular chaperones showed a significant percentage (1.13%) in the up regulated group. Heat responsive genes, such as polyubiquitins, were over expressed in heat treated sample. GO enrichment analysis revealed that the Go terms for differentially expressed unigenes were significantly enriched in hormone-mediated signal, biological process regulation and metabolic process regulation. Our data revealed a global transcriptome picture of P. euphratica in response to heat shock. The identified potential heat stress-related transcripts can be used to infer the gene regulation networks underlying the molecular mechanisms of heat response in P. euphratica.

Cite this article as:

Chen Jinhuan, Yin Weilun and Xia Xinli, Transcriptome Profiles of Populus euphratica upon Heat Shock stress, Current Genomics 2014; 15 (5) . https://dx.doi.org/10.2174/138920291505141106101835