Transcriptome Analysis of Nitrogen-Deficiency-Responsive Genes in Two Potato Cultivars

Abstract: The potato is the third largest food crop, and nitrogen fertilizer is important for increasing potato yields; however, the shallow root system of potatoes causes the nitrogen fertilizer utilization rate to be low, which results in waste and environmental pollution, meaning that high nitrogen efficiency breeding is highly significant for potatoes. In the high nitrogen efficiency breeding of potatoes, genes with a nitrogen-deficient response should first be identified, and RNA-seq is an efficient method for iden… Show more

“…At present, some vital genes that take part in N metabolism have been revealed; they are nitrate transporter, ammonium transporter, nitrate reductase, nitrite reductase, glutamine synthase, glutamate synthase, etc. [8]. So far, nitrate transporters have been divided into four major families, namely NPF (NRT1/PTR), NRT2, chloride channel protein family (CLC), and slow anion homologous genes (SLAC/SLAH).…”

Overexpression of CBL-Interacting Protein Kinases 23 Improves Tolerance to Low-Nitrogen Stress in Potato Plants

“…At present, some vital genes that take part in N metabolism have been revealed; they are nitrate transporter, ammonium transporter, nitrate reductase, nitrite reductase, glutamine synthase, glutamate synthase, etc. [8]. So far, nitrate transporters have been divided into four major families, namely NPF (NRT1/PTR), NRT2, chloride channel protein family (CLC), and slow anion homologous genes (SLAC/SLAH).…”

Overexpression of CBL-Interacting Protein Kinases 23 Improves Tolerance to Low-Nitrogen Stress in Potato Plants