Zinc oxide nanoparticle exposure triggers different gene expression patterns in maize shoots and roots
2017
Xun, Hongwei | Ma, Xintong | Chen, Jing | Yang, Zhongzhou | Liu, Bao | Gao, Xiang | Li, Guo | Yu, Jiamiao | Wang, Li | Pang, Jinsong
The potential impacts of environmentally accumulated zinc oxide nanoparticles (nZnOs) on plant growth have not been well studied. A transcriptome profile analysis of maize exposed to nZnOs showed that the genes in the shoots and roots responded differently. Although the number of differentially expressed genes (DEGs) in the roots was greater than that in the shoots, the number of up- or down-regulated genes in both the shoots and roots was similar. The enrichment of gene ontology (GO) terms was also significantly different in the shoots and roots. The “nitrogen compound metabolism” and “cellular component” terms were specifically and highly up-regulated in the nZnO-exposed roots, whereas the categories “cellular metabolic process”, “primary metabolic process” and “secondary metabolic process” were down-regulated in the exposed roots only. Our results revealed the DEG response patterns in maize shoots and roots after nZnO exposure.
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