Transcriptomics,Genomics

Dataset Information

84

Regulatory inversion in NAC networks steers the timing of age-dependent cell death in plants [RNA-Seq]


ABSTRACT: Aging is a time-dependent biological phenomenon governed by complex networks of regulatory components and their transitions over lifetime. Yet, there have been limited efforts to pin down age-associated networks and map their dynamic characteristics onto aging phenotypes. Here, we built time-course genetic regulatory networks of NAM/ATAF/CUC (NAC) transcription factors during the course of leaf aging in Arabidopsis, using causal regulatory relationships among NACs identified from mutants of 49 aging-associated NACs. These temporal networks revealed a regulatory inversion from activating to repressive regulatory modes at a pre-senescent stage. The inversion was governed by three hub NACs, and their mutants conferred earlier aging with altered expression of reactive oxygen species and salicylic acid response genes. Overexpression of the hub NACs delayed the regulatory inversion, rendering delayed age-dependent cell death. We conclude that the regulatory inversion in NAC networks at a pre-senescent stage directs when age-dependent cell death should proceed in plants. Overall design: We measured mRNA expression level of anac017, anac082 and anac090 knockout mutants and WT (n=3 for each) at 18 days of leaf age

INSTRUMENT(S): Illumina HiSeq 2500 (Arabidopsis thaliana)

SUBMITTER: Ji-Hwan Park  

PROVIDER: GSE92314 | GEO | 2018-04-29

REPOSITORIES: GEO

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Publications

Time-evolving genetic networks reveal a NAC troika that negatively regulates leaf senescence in Arabidopsis.

Kim Hyo Jung HJ   Park Ji-Hwan JH   Kim Jingil J   Kim Jung Ju JJ   Hong Sunghyun S   Kim Jeongsik J   Kim Jin Hee JH   Woo Hye Ryun HR   Hyeon Changbong C   Lim Pyung Ok PO   Nam Hong Gil HG   Hwang Daehee D  

Proceedings of the National Academy of Sciences of the United States of America 20180507 21


Senescence is controlled by time-evolving networks that describe the temporal transition of interactions among senescence regulators. Here, we present time-evolving networks for NAM/ATAF/CUC (NAC) transcription factors in Arabidopsis during leaf aging. The most evident characteristic of these time-dependent networks was a shift from positive to negative regulation among NACs at a presenescent stage. ANAC017, ANAC082, and ANAC090, referred to as a "NAC troika," govern the positive-to-negative reg  ...[more]

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