OsNLP3 Enhances Grain Weight and Reduces Grain Chalkiness in Rice

Overview

Journal Plant Commun

Specialty Biology

Date 2024 Jun 10

PMID 38853433

Authors

Liang-Qi Sun

Yu Bai

Jie Wu

Shi-Jun Fan

Si-Yan Chen

Zheng-Yi Zhang

Jin-Qiu Xia

Shi-Mei Wang

Yu-Ping Wang

Peng Qin

Shi-Gui Li

Ping Xu

Zhong Zhao

Cheng-Bin Xiang

Zi-Sheng Zhang

Affiliations

Soon will be listed here.

Abstract

Grain weight, a key determinant of yield in rice (Oryza sativa L.), is governed primarily by genetic factors, whereas grain chalkiness, a detriment to grain quality, is intertwined with environmental factors such as mineral nutrients. Nitrogen (N) is recognized for its effect on grain chalkiness, but the underlying molecular mechanisms remain to be clarified. This study revealed the pivotal role of rice NODULE INCEPTION-LIKE PROTEIN 3 (OsNLP3) in simultaneously regulating grain weight and grain chalkiness. Our investigation showed that loss of OsNLP3 leads to a reduction in both grain weight and dimension, in contrast to the enhancement observed with OsNLP3 overexpression. OsNLP3 directly suppresses the expression of OsCEP6.1 and OsNF-YA8, which were identified as negative regulators associated with grain weight. Consequently, two novel regulatory modules, OsNLP3-OsCEP6.1 and OsNLP3-OsNF-YA8, were identified as key players in grain weight regulation. Notably, the OsNLP3-OsNF-YA8 module not only increases grain weight but also mitigates grain chalkiness in response to N. This research clarifies the molecular mechanisms that orchestrate grain weight through the OsNLP3-OsCEP6.1 and OsNLP3-OsNF-YA8 modules, highlighting the pivotal role of the OsNLP3-OsNF-YA8 module in alleviating grain chalkiness. These findings reveal potential targets for simultaneous enhancement of rice yield and quality.

Citing Articles

Identification of quantitative trait loci for yield traits and fine-mapping of using the chromosome segment substitution line-Z708 and dissected single-segment substitution lines.

Zhou K, Yu J, Yu Z, Chi C, Ren J, Zhao Z Front Plant Sci. 2025; 16:1524770.

PMID: 40007961 PMC: 11850545. DOI: 10.3389/fpls.2025.1524770.

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