What question did this study set out to answer?

To investigate how nitrogen and phosphorus deficiencies affect the physiology and gene expression of Ilex chinensis.

February 14, 2026Open Access

The effects of nitrogen and phosphorus deficiency on the main physiology of Ilex chinensis and transcriptomic analysis

Key Points

To investigate how nitrogen and phosphorus deficiencies affect the physiology and gene expression of Ilex chinensis.
Integrated physiological assessments during N and P deficiency stress.
Transcriptomic analysis to identify gene expression changes.
Evaluation of nutrient use efficiency in response to deficiencies.
Identified significant physiological adjustments in I. chinensis under nutrient stress.
Discovered potential target genes linked to improved nutrient efficiency.
Provided new insights into molecular responses to nutrient deficiencies.

Abstract

Our data reveal the integrated physiological and transcriptional adjustments that allow I. chinensis to cope with N and P deficiency stress, and identifies potential target genes for improving nutrient use efficiency. These findings provide new insights into the physiological and molecular responses of I. chinensis to N and P deficiency stress and offer valuable information for optimizing its cultivation under nutrient-limited conditions.

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The effects of nitrogen and phosphorus deficiency on the main physiology of Ilex chinensis and transcriptomic analysis

Key Points

Abstract

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