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1. TERMINAL FLOWER 1-FD complex target genes and competition with FLOWERING LOCUS T

   https://doi.org/10.1038/s41467-020-18782-1  

   Zhu, Yang; Klasfeld, Samantha; Jeong, Cheol Woong; Jin, Run; Goto, Koji; Yamaguchi, Nobutoshi; Wagner, Doris (October 2020, Nature Communications)

   Abstract Plants monitor seasonal cues to optimize reproductive success by tuning onset of reproduction and inflorescence architecture. TERMINAL FLOWER 1 (TFL1) and FLOWERING LOCUS T (FT) and their orthologs antagonistically regulate these life history traits, yet their mechanism of action, antagonism and targets remain poorly understood. Here, we show that TFL1 is recruited to thousands of loci by the bZIP transcription factor FD. We identify the master regulator of floral fate,LEAFY(LFY) as a target under dual opposite regulation by TFL1 and FT and uncover a pivotal role of FT in promoting flower fate viaLFYupregulation. We provide evidence that the antagonism between FT and TFL1 relies on competition for chromatin-bound FD at shared target loci. Direct TFL1-FD regulated target genes identify this complex as a hub for repressing both master regulators of reproductive development and endogenous signalling pathways. Our data provide mechanistic insight into how TFL1-FD sculpt inflorescence architecture, a trait important for reproductive success, plant architecture and yield. 

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2. Transcriptional responses of cancer cells to heat shock-inducing stimuli involve amplification of robust HSF1 binding

   https://doi.org/10.1038/s41467-023-43157-7  

   Dastidar, Sayantani Ghosh; De Kumar, Bony; Lauckner, Bo; Parrello, Damien; Perley, Danielle; Vlasenok, Maria; Tyagi, Antariksh; Koney, Nii Koney-Kwaku; Abbas, Ata; Nechaev, Sergei (November 2023, Nature Communications)

   Abstract Responses of cells to stimuli are increasingly discovered to involve the binding of sequence-specific transcription factors outside of known target genes. We wanted to determine to what extent the genome-wide binding and function of a transcription factor are shaped by the cell type versus the stimulus. To do so, we induced the Heat Shock Response pathway in two different cancer cell lines with two different stimuli and related the binding of its master regulator HSF1 to nascent RNA and chromatin accessibility. Here, we show that HSF1 binding patterns retain their identity between basal conditions and under different magnitudes of activation, so that common HSF1 binding is globally associated with distinct transcription outcomes. HSF1-induced increase in DNA accessibility was modest in scale, but occurred predominantly at remote genomic sites. Apart from regulating transcription at existing elements including promoters and enhancers, HSF1 binding amplified during responses to stimuli may engage inactive chromatin. 

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3. The nucleosome unwrapping free energy landscape defines distinct regions of transcription factor accessibility and kinetics

   https://doi.org/10.1093/nar/gkac1267  

   Donovan, Benjamin T.; Luo, Yi; Meng, Zhiyuan; Poirier, Michael G. (January 2023, Nucleic Acids Research)

   Abstract Transcription factors (TF) require access to target sites within nucleosomes to initiate transcription. The target site position within the nucleosome significantly influences TF occupancy, but how is not quantitatively understood. Using ensemble and single-molecule fluorescence measurements, we investigated the targeting and occupancy of the transcription factor, Gal4, at different positions within the nucleosome. We observe a dramatic decrease in TF occupancy to sites extending past 30 base pairs (bp) into the nucleosome which cannot be explained by changes in the TF dissociation rate or binding site orientation. Instead, the nucleosome unwrapping free energy landscape is the primary determinant of Gal4 occupancy by reducing the Gal4 binding rate. The unwrapping free energy landscape defines two distinct regions of accessibility and kinetics with a boundary at 30 bp into the nucleosome where the inner region is over 100-fold less accessible. The Gal4 binding rate in the inner region no longer depends on its concentration because it is limited by the nucleosome unwrapping rate, while the frequency of nucleosome rewrapping decreases because Gal4 exchanges multiple times before the nucleosome rewraps. Our findings highlight the importance of the nucleosome unwrapping free energy landscape on TF occupancy and dynamics that ultimately influences transcription initiation. 

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4. CLAMP and Zelda function together to promote Drosophila zygotic genome activation

   https://doi.org/10.7554/eLife.69937  

   Duan, Jingyue; Rieder, Leila; Colonnetta, Megan M; Huang, Annie; Mckenney, Mary; Watters, Scott; Deshpande, Girish; Jordan, William; Fawzi, Nicolas; Larschan, Erica (August 2021, eLife)

   During the essential and conserved process of zygotic genome activation (ZGA), chromatin accessibility must increase to promote transcription. Drosophila is a well-established model for defining mechanisms that drive ZGA. Zelda (ZLD) is a key pioneer transcription factor (TF) that promotes ZGA in the Drosophila embryo. However, many genomic loci that contain GA-rich motifs become accessible during ZGA independent of ZLD. Therefore, we hypothesized that other early TFs that function with ZLD have not yet been identified, especially those that are capable of binding to GA-rich motifs such as chromatin-linked adaptor for male-specific lethal (MSL) proteins (CLAMP). Here, we demonstrate that Drosophila embryonic development requires maternal CLAMP to (1) activate zygotic transcription; (2) increase chromatin accessibility at promoters of specific genes that often encode other essential TFs; and (3) enhance chromatin accessibility and facilitate ZLD occupancy at a subset of key embryonic promoters. Thus, CLAMP functions as a pioneer factor that plays a targeted yet essential role in ZGA. 

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5. Deregulation of ζ‐carotene desaturase in Arabidopsis and tomato exposes a unique carotenoid‐derived redundant regulation of floral meristem identity and function

   https://doi.org/10.1111/tpj.16168  

   McQuinn, Ryan P.; Leroux, Julie; Sierra, Julio; Escobar‐Tovar, Lina; Frusciante, Sarah; Finnegan, E. Jean; Diretto, Gianfranco; Giuliano, Giovanni; Giovannoni, James J.; León, Patricia; et al (February 2023, The Plant Journal)

   A level of redundancy and interplay among the transcriptional regulators of floral development safeguards a plant's reproductive success and ensures crop production. In the present study, an additional layer of complexity in the regulation of floral meristem (FM) identity and flower development is elucidated linking carotenoid biosynthesis and metabolism to the regulation of determinate flowering. The accumulation and subsequent cleavage of a diverse array of ζ-carotenes in the chloroplast biogenesis 5 (clb5) mutant of Arabidopsis results in the reprogramming of meristematic gene regulatory networks establishing FM identity mirroring that of the FM identity master regulator, APETALA1 (AP1). The immediate transition to floral development in clb5 requires long photoperiods in a GIGANTEA-independent manner, whereas AP1 is essential for the floral organ development of clb5. The elucidation of this link between carotenoid metabolism and floral development translates to tomato exposing a regulation of FM identity redundant to and initiated by AP1 and proposed to be dependent on the E class floral initiation and organ identity regulator, SEPALLATA3 (SEP3). 

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