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The 6xABRE synthetic promoter enables the spatiotemporal analysis of ABA-mediated transcriptional regulation

https://doi.org/10.1104/pp.18.00401

Wu, Rui ; Duan, Lina ; Pruneda-Paz, Jose ; Oh, Dong-Ha ; Pound, Michael P ; Kay, Steve A. ; Dinneny, Jose R. ( June 2018 , Plant Physiology)
Decoys Untangle Complicated Redundancy and Reveal Targets of Circadian Clock F-Box Proteins

https://doi.org/10.1104/pp.18.00331

Lee, Chin-Mei ; Feke, Ann ; Li, Man-Wah ; Adamchek, Christopher ; Webb, Kristofor ; Pruneda-Paz, José ; Bennett, Eric J. ; Kay, Steve A. ; Gendron, Joshua M. ( May 2018 , Plant Physiology)
Genome-wide identification of CCA1 targets uncovers an expanded clock network in Arabidopsis

https://doi.org/10.1073/pnas.1513609112

Nagel, Dawn H. ; Doherty, Colleen J. ; Pruneda-Paz, Jose L. ; Schmitz, Robert J. ; Ecker, Joseph R. ; Kay, Steve A. ( August 2015 , Proceedings of the National Academy of Sciences)
Spatial and temporal regulation of biosynthesis of the plant immune signal salicylic acid

https://doi.org/10.1073/pnas.1511182112

Zheng, Xiao-yu ; Zhou, Mian ; Yoo, Heejin ; Pruneda-Paz, Jose L. ; Spivey, Natalie Weaver ; Kay, Steve A. ; Dong, Xinnian ( July 2015 , Proceedings of the National Academy of Sciences)
Changes in ambient temperature are the prevailing cue in determining Brachypodium distachyon diurnal gene regulation

https://doi.org/10.1111/nph.16507

MacKinnon, Kirk J‐M. ; Cole, Benjamin J. ; Yu, Chang ; Coomey, Joshua H. ; Hartwick, Nolan T. ; Remigereau, Marie‐Stanislas ; Duffy, Tomás ; Michael, Todd P. ; Kay, Steve A. ; Hazen, Samuel P. ( April 2020 , New Phytologist)

Summary
Plants are continuously exposed to diurnal fluctuations in light and temperature, and spontaneous changes in their physical or biotic environment. The circadian clock coordinates regulation of gene expression with a 24 h period, enabling the anticipation of these events.
We used RNA sequencing to characterize theBrachypodium distachyontranscriptome under light and temperature cycles, as well as under constant conditions.
Approximately 3% of the transcriptome was regulated by the circadian clock, a smaller proportion than reported in most other species. For most transcripts that were rhythmic under all conditions, including many known clock genes, the period of gene expression lengthened from 24 to 27 h in the absence of external cues. To functionally characterize the cyclic transcriptome inB. distachyon, we used Gene Ontology enrichment analysis, and found several terms significantly associated with peak expression at particular times of the day. Furthermore, we identified sequence motifs enriched in the promoters of similarly phased genes, some potentially associated with transcription factors.
When considering the overlap in rhythmic gene expression and specific pathway behavior, thermocycles was the prevailing cue that controlled diurnal gene regulation. Taken together, our characterization of the rhythmicB. distachyontranscriptome represents a foundational resource with implications in other grass species.

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Functional dissection of the ARGONAUTE7 promoter

https://doi.org/10.1002/pld3.102

Hoyer, J. Steen ; Pruneda‐Paz, Jose L. ; Breton, Ghislain ; Hassert, Mariah A. ; Holcomb, Emily E. ; Fowler, Halley ; Bauer, Kaylyn M. ; Mreen, Jacob ; Kay, Steve A. ; Carrington, James C. ( January 2019 , Plant Direct)

Abstract
ARGONAUTES are the central effector proteins ofRNAsilencing which bind target transcripts in a smallRNA‐guided manner.Arabidopsis thalianahas 10ARGONAUTE(AGO) genes, with specialized roles inRNA‐directedDNAmethylation, post‐transcriptional gene silencing, and antiviral defense. To better understand specialization amongAGOgenes at the level of transcriptional regulation we tested a library of 1497 transcription factors for binding to the promoters ofAGO1,AGO10, andAGO7using yeast 1‐hybrid assays. A ranked list of candidateDNA‐bindingTFs revealed binding of theAGO7promoter by a number of proteins in two families: the miR156‐regulatedSPLfamily and the miR319‐regulatedTCPfamily, both of which have roles in developmental timing and leaf morphology. Possible functions forSPLandTCPbinding are unclear: we showed that these binding sites are not required for the polar expression pattern ofAGO7, nor for the function ofAGO7in leaf shape. NormalAGO7transcription levels and function appear to depend instead on an adjacent 124‐bp region. Progress in understanding the structure of this promoter may aid efforts to understand how the conservedAGO7‐triggeredTAS3pathway functions in timing and polarity.

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