We evaluated a transcriptome using high-throughput Illumina HiSeq sequencing and related it to the morphology, leaf anatomy, and physiological parameters of under NO stress. The molecular mechanism of the NO stress response was evaluated using sequencing data. NO stress adversely affected the morphology, leaf anatomy, and total peroxidase (POD) activity. Through RNA-seq analysis, we used NCBI to compare the transcripts with nine databases and obtained their functional annotations. We annotated up to 2255 million clean Illumina paired-end RNA-seq reads, and 250,200 unigene sequences were assembled based on the resulting transcriptome data. More than 89% of the transcripts were functionally annotated. Under NO stress, 1119 genes were upregulated and 1240 were downregulated. According to the KEGG pathway and GO analyses, photosynthesis, chloroplasts, plastids, and the stimulus response are related to NO stress. Additionally, NO stress changed the expression of POD families, and the , , and genes exhibited high expression. The transcriptome analysis of leaves under NO stress supplies a reference for studying the molecular mechanism of resistance to NO stress. The given transcriptome data represent a valuable resource for studies on plant genes, which will contribute towards genome annotations during future genome projects.
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| http://dx.doi.org/10.3390/genes12050754 | DOI Listing |
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