OsNAC109 regulates senescence, growth and development by altering the expression of senescence- and phytohormone-associated genes in rice

Liangjian Li,Xiaobo Zhang,Zhihong Zhang,Jian-Li Wu,Yan He,Yongfeng Shi,Shaoqing Tang,Xia Xu

doi:10.1007/s11103-021-01118-y

Liangjian Li, Xiaobo Zhang + Show 6 more

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https://doi.org/10.1007/s11103-021-01118-y

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Journal: Plant Molecular Biology	Publication Date: Feb 4, 2021
Citations: 21	License type: open-access

Affiliation: China National Rice Research Institute

Abstract

Key messageWe demonstrate that OsNAC109 regulates senescence, growth and development via binding to the cis-element CNTCSSNNSCAVG and altering the expression of multiple senescence- and hormone-associated genes in rice.The NAC family is one of the largest transcripton factor families in plants and plays an essential role in plant development, leaf senescence and responses to biotic/abiotic stresses through modulating the expression of numerous genes. Here, we isolated and characterized a novel yellow leaf 3 (yl3) mutant exhibiting arrested-growth, increased accumulation of reactive oxygen species (ROS), decreased level of soluble proteins, increased level of malondialdehyde (MDA), reduced activities of ROS scavenging enzymes, altered expression of photosynthesis and senescence/hormone-associated genes. The yellow leaf and arrested-growth trait was controlled by a single recessive gene located to chromosome 9. A single nucleotide substitution was detected in the mutant allele leading to premature termination of its coding protein. Genetic complementation could rescue the mutant phenotype while the YL3 knockout lines displayed similar phenotype to WT. YL3 was expressed in all tissues tested and predicted to encode a transcriptional factor OsNAC109 which localizes to the nucleus. It was confirmed that OsNAC109 could directly regulate the expression of OsNAP, OsNYC3, OsEATB, OsAMTR1, OsZFP185, OsMPS and OsGA2ox3 by targeting to the highly conserved cis-element CNTCSSNNSCAVG except OsSAMS1. Our results demonstrated that OsNAC109 is essential to rice leaf senescence, growth and development through regulating the expression of senescence- and phytohormone-associated genes in rice.

Highlights

Senescence is the final stage of plant development and is a tightly controlled genetic process at the organismal, celluar and molecular levels
The contents of chlorophyll a (Chl a), chlorophyll b (Chl b) and carotenoid (Car) in yl3 at 60 days after sowing (DAS) were decreased significantly compared with WT (Fig. 1b)
Transmission electron microscopy (TEM) analysis indicated that the number and size of chloroplasts were reduced dramatically in the mesophyll cells of yl3 compared to WT (Fig. 1d, f)

Summary

Introduction

Senescence is the final stage of plant development and is a tightly controlled genetic process at the organismal, celluar and molecular levels. In this process, the nutrients invested in aging tissues such as nitrogen, phosphorus and metals are reallocated to vigorously growing tissues and organs for reuse. Plant Molecular Biology (2021) 105:637–654 metabolism (Zhao et al 2019), as well as exogenous factors including temperature, light, drought, nutrient deficiency, wounding, and pathogen infection (Yang et al 2016; Wang et al 2019). More than 800 senescence-associate genes (SAGs) have been identified, and genetic analysis reveals that leaf senescence is controlled by various negative and positive genetic elements (Lim et al 2007)

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