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Identification of Regulatory Networks and Hub Genes Controlling Nitrogen Uptake in Tea Plants [<i>Camellia sinensis</i> (L.) O. Kuntze]

Fen Zhang, Liyuan Wang, Peixian Bai, Kang Wei, Yazhen Zhang, Li Ruan, Liyun Wu, Hao Cheng

2020Journal of Agricultural and Food Chemistry40 citationsDOI

Abstract

Nitrogen (N) uptake, as the first step of N metabolism, is a key limiting factor for plant growth. To understand the gene expression networks that control N absorption and metabolism in tea plants, we analyzed transcriptomes in the young roots of two groups of tea plants with significantly different growth rates under different N treatments (0, 0.2, and 2 mM). Using pairwise comparisons and weighted gene co-expression network analyses (WGCNA), we successfully constructed 16 co-expression modules. Among them, a specific module (turquoise) that substantially responded to the low N treatment was identified. Based on KEGG analysis, the relative genes that enriched in the “N metabolism” pathways were used to construct gene co-expression networks of N metabolism. Finally, a high-affinity ammonium (NH4+) transporter designated CsAMT1.2 was identified as a hub gene in the N metabolism network in tea plant roots and the gene expression could be highly induced by N resupply. The gene functional analysis revealed that CsAMT1.2 could make functional complementation of MEP1, MEP2, and MEP3 genes in 31019b yeast cells and improve NH4+ uptake rate in 31019b at low NH4+ level. Thus, CsAMT1.2 was a key gene controlling N uptake in tea plants and might play a vital role in promoting NH4+ uptake from the environment in tea roots. This study provided a useful foundation for improving the NUE in tea plantations.

Topics & Concepts

Camellia sinensisGeneGene expressionBiologyMetabolismAmmoniumNitrogen cycleSecondary metabolismBotanyRegulation of gene expressionTranscriptomeBiochemistryNitrogenChemistryBiosynthesisOrganic chemistryPlant nutrient uptake and metabolismPlant Molecular Biology ResearchAdvanced Data Storage Technologies
Identification of Regulatory Networks and Hub Genes Controlling Nitrogen Uptake in Tea Plants [<i>Camellia sinensis</i> (L.) O. Kuntze] | Litcius