Project description:Saccharina japonica gene expression profile under heat stress

Project description:Saccharina japonica is one of the most important marine economic crops worldwide. Blue light usually plays a significant role in the lives of Saccharina that may be beneficial to the culture system. Here we applied high-throughput paired-end RNA-sequencing (RNA-Seq) to the transcriptome of Saccharina japonica with blue light and dark exposure respectively. Comparative analysis of gene expression was conducted to understand the underlying molecular mechanisms. RNA-seq analysis yielded 70,497 non-redundant unigenes. 25,924 unigenes of them had good comparability with known gene sequences in existing species. Based on the values of RPKM, 11,660 differentially expressed unigenes were detected in expression profiles between blue light and dark exposed samples. Our results provide clues to potential genes identification in the species and lay the foundation for future functional genomics study.

Project description:Saccharina japonica is one of the most important marine economic crops worldwide. Blue light usually plays a significant role in the lives of Saccharina that may be beneficial to the culture system. Here we applied high-throughput paired-end RNA-sequencing (RNA-Seq) to the transcriptome of Saccharina japonica with blue light and dark exposure respectively. Comparative analysis of gene expression was conducted to understand the underlying molecular mechanisms. RNA-seq analysis yielded 70,497 non-redundant unigenes. 25,924 unigenes of them had good comparability with known gene sequences in existing species. Based on the values of RPKM, 11,660 differentially expressed unigenes were detected in expression profiles between blue light and dark exposed samples. Our results provide clues to potential genes identification in the species and lay the foundation for future functional genomics study. mRNA expression of Saccharina japonica with 2 different treatment (sample exposed to Dark condition, and sample exposed to blue light respectively) was determined by method of RNA-Seq

Project description:Heat stress in Saccharina japonica

Project description:We used proteomic analysis to reveal molecular response of Saccharina japonica to the projected ocean acidification conditions.

Project description:Blue light (BL) is an important environmental factor that plays critical role in algae growth and development. Saccharina japonica, as a typical brown alga, showed greatly affected by BL. However, little has been known about the regulation pathway of BL response in algae. microRNAs (miRNAs) participated in great number of life process regulation and may be also involved in the BL response in plants. To identify miRNAs from S. japonica and characterize their probable roles in BL response, we sequenced and compared small RNA libraries under BL irradiation and dark conditions. 20 potential novel miRNAs were identified from S. japonica. Bioinformatics analysis of the miRNAs indicated that their potential targets were involved in various biological processes. Based on differential expression analysis and qRT-PCR experiment, some probable miRNAs related to BL responses were selected for further verification of their function, such as miR398. Our results demonstrated that miRNAs might play vital roles in metabolism of S. japonica, including BL responses.

Project description:We utilized chromatin immunoprecipitation sequencing (ChIP-seq) to analyze the binding of HSF1 and HSF2 to chromatin under oxidative stress and heat shock. ChIP-seq was performed in mouse embryonic fibroblasts (MEFs) that were exposed to heat shock (HS) or oxidative stress induced by menadione (MD). Antibodies against HSF1 and HSF2 were used for immunoprecipitation.

Project description:We performed ChIP-seq of Hsf1 under non heat shock, 5-minute heat shock and 120 minute heat shock conditions. We used the conditional chemical genetics approach known as “anchor away” (AA) to rapidly inactivate Hsf1. We coupled Hsf1-AA to and nascent RNA seq (NAC)-seq to define the genes whose expression depends on Hsf1 during heat shock.

Project description:We report nucleosome poisitioning under pertubation conditions such as heat shock, CHD1 deletion, and SET2 deletion Mono-nucleosome DNA was prepared from wild type strain under normal or heat shock conditions, or CHD1 or SET2 deletion strain. The mono-nucleosome DNA was mapped.

Project description:Heat shock factors (Hsfs) are known to regulate heat and drought stress response by controlling the expression of heat shock proteins and oxidative stress responsive genes. Loss-of-function of OsHSFA2e gene resulted in increased sensitivity of rice plants to drought and heat stress. To identify the targets of OsHSFA2e and dissect the stress response pathway regulated by it, we performed transcriptome profiling of Oshsfa2e mutant plants under drought stress as well as well-watered conditions by RNA-sequencing.