Horim Lee scite author profile

The transcription factor LONG HYPOCOTYL5 (HY5) acts downstream of multiple families of the photoreceptors and promotes photomorphogenesis. Although it is well accepted that HY5 acts to regulate target gene expression, in vivo binding of HY5 to any of its target gene promoters has yet to be demonstrated. Here, we used a chromatin immunoprecipitation procedure to verify suspected in vivo HY5 binding sites. We demonstrated that in vivo association of HY5 with promoter targets is not altered under distinct light qualities or during light-to-dark transition. Coupled with DNA chip hybridization using a high-density 60-nucleotide oligomer microarray that contains one probe for every 500 nucleotides over the entire Arabidopsis thaliana genome, we mapped genome-wide in vivo HY5 binding sites. This analysis showed that HY5 binds preferentially to promoter regions in vivo and revealed >3000 chromosomal sites as putative HY5 binding targets. HY5 binding targets tend to be enriched in the early light-responsive genes and transcription factor genes. Our data thus support a model in which HY5 is a high hierarchical regulator of the transcriptional cascades for photomorphogenesis.

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Differential innate immune signalling via Ca2+ sensor protein kinases

Boudsocq

Willmann

McCormack

et al. 2010

Nature

767

808

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Innate immunity represents the first line of inducible defense against microbial infection in plants and animals1–3. In both kingdoms, recognition of pathogen- or microbe-associated molecular patterns (PAMPs or MAMPs), such as flagellin, initiates convergent signalling pathways involving MAP kinase (MAPK) cascades and global transcriptional changes to boost immunity1–4. Although Ca2+ has long been recognized as an essential and conserved primary mediator in plant defense responses, how Ca2+ signals are sensed and relayed into early MAMP signalling is unknown5,6. Here, we use a functional genomic screen and genome-wide gene expression profiling to show that four calcium-dependent protein kinases (CDPKs) are Ca2+ sensor PKs critical to transcriptional reprogramming in plant innate immune signalling. Unexpectedly, CDPKs and MAPK cascades act differentially in four MAMP-mediated regulatory programs to control early genes involved in synthesis of defense peptides and metabolites, cell wall modifications and redox signalling. Transcriptome profile comparison suggests that CDPKs are the convergence point of signalling triggered by most MAMPs. Double, triple and quadruple cpk mutant plants display progressively diminished oxidative burst and gene activation induced by flg22, as well as compromised pathogen defense. In contrast to negative roles of calmodulin (CAM) and a CAM-activated transcription factor in plant defense7,8, the present study reveals Ca2+ signalling complexity and demonstrates key positive roles of specific CDPKs in initial MAMP signalling.

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The AGAMOUS-LIKE 20 MADS domain protein integrates floral inductive pathways in Arabidopsis

Lee¹,

Suh²,

Park³

et al. 2000

Genes Dev.

674

627

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The SOC1 MADS‐box gene integrates vernalization and gibberellin signals for flowering in Arabidopsis

et al. 2003

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These authors made equal contributions to this study. SummaryThe¯oral transition in Arabidopsis is regulated by at least four¯owering pathways: the long-day, autonomous, vernalization, and gibberellin (GA)-dependent pathways. Previously, we reported that the MADSbox transcription factor SUPPRESSOR OF OVEREXPRESSION OF CO 1 (SOC1) integrates the long-day and vernalization/autonomous pathways. Here, we present evidences that SOC1 also integrates signaling from the GA-dependent pathway, a major¯owering pathway under non-inductive short days. Under short days, the¯owering time of GA-biosynthetic and -signaling mutants was well correlated with the level of SOC1 expression; overexpression of SOC1 rescued the non-¯owering phenotype of ga1-3, and the soc1 null mutant showed reduced sensitivity to GA for¯owering. In addition, we show that vernalization-induced repression of FLOWERING LOCUS C (FLC ), an upstream negative regulator of SOC1, is not suf®cient to activate SOC1; positive factors are also required. Under short days, the GA pathway provides a positive factor for SOC1 activation. In contrast to SOC1, the GA pathway does not regulate expression of other owering integrators FLC and FT. Our results explain why the GA pathway has a strong effect on¯owering under short days and how vernalization and GA interact at the molecular level.

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Horim Lee

Analysis of Transcription Factor HY5 Genomic Binding Sites Revealed Its Hierarchical Role in Light Regulation of Development

Differential innate immune signalling via Ca2+ sensor protein kinases

The AGAMOUS-LIKE 20 MADS domain protein integrates floral inductive pathways in Arabidopsis

The SOC1 MADS‐box gene integrates vernalization and gibberellin signals for flowering in Arabidopsis

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