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. 2021 Oct;44(10):3398-3411.
doi: 10.1111/pce.14146. Epub 2021 Jul 16.

Plasticity of rosette size in response to nitrogen availability is controlled by an RCC1-family protein

Gustavo Turqueto Duarte  1 Prashant K Pandey  1   2 Neha Vaid  1   3 Saleh Alseekh  4   5 Alisdair R Fernie  4   5 Zoran Nikoloski  6   7   8 Roosa A E Laitinen  1   9
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Free article

Plasticity of rosette size in response to nitrogen availability is controlled by an RCC1-family protein

Gustavo Turqueto Duarte et al. Plant Cell Environ. 2021 Oct.
Free article

Abstract

Nitrogen (N) is fundamental to plant growth, development and yield. Genes underlying N utilization and assimilation are well-characterized, but mechanisms underpinning plasticity of different phenotypes in response to N remain elusive. Here, using Arabidopsis thaliana accessions, we dissected the genetic architecture of plasticity in early and late rosette diameter, flowering time and yield, in response to three levels of N in the soil. Furthermore, we found that the plasticity in levels of primary metabolites were related with the plasticities of the studied traits. Genome-wide association analysis identified three significant associations for phenotypic plasticity, one for early rosette diameter and two for flowering time. We confirmed that the gene At1g19880, hereafter named as PLASTICITY OF ROSETTE TO NITROGEN 1 (PROTON1), encoding for a regulator of chromatin condensation 1 (RCC1) family protein, conferred plasticity of rosette diameter in response to N. Treatment of PROTON1 T-DNA line with salt implied that the reduced plasticity of early rosette diameter was not a general growth response to stress. We further showed that plasticities of growth and flowering-related traits differed between environmental cues, indicating decoupled genetic programs regulating these traits. Our findings provide a prospective to identify genes that stabilize performance under fluctuating environments.

Keywords: Arabidopsis thaliana; GWA; natural variation.

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