PlantPAN3.0: a new and updated resource for reconstructing transcriptional regulatory networks from ChIP-seq experiments in plants

Chow, Chi Nga; Lee, Tzong-Yi; Hung, Yu Cheng; Li, Guan Zhen; Tseng, Kuan Chieh; Liu, Ya Hsin; Kuo, Po Li; Zheng, Han; Chang, Wen Chi

doi:10.1093/nar/gky1081

Cited by 380 publications

(295 citation statements)

References 51 publications

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“…A 2334 bp-long sequence upstream of the ATG translation initiation codon of TCMP-1 was chosen as putative promoter sequence (Figure 2a). By using the Plant Promoter Analysis Navigator (PlantPAN3.0; [31]), a cis element starting at position 795 of the plus DNA strand implicated in Cd responsiveness was found (Figure 2a), which corroborates the results on the TCMP-1 gene expression regulation by Cd ( Figure 1c). In addition, several cis elements related to wounding and abiotic stress as well as to plant defense were also predicted ( Figure 2a).…”

Section: Sltcmp-1 Promoter Is Responsive To Abiotic Stressessupporting

confidence: 83%

The Tomato Metallocarboxypeptidase Inhibitor I, which Interacts with a Heavy Metal-Associated Isoprenylated Protein, Is Implicated in Plant Response to Cadmium

et al. 2020

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Metallocarboxypeptidases are metal-dependent enzymes, whose biological activity is regulated by inhibitors directed on the metal-containing active site. Some metallocarboxypeptidase inhibitors are induced under stress conditions and have a role in defense against pests. This paper is aimed at investigating the response of the tomato metallocarboxypeptidase inhibitor (TCMP)-1 to Cd and other abiotic stresses. To this aim, the tomato TCMP-1 was ectopically expressed in the model species Arabidopsis thaliana, and a yeast two-hybrid analysis was performed to identify interacting proteins. We demonstrate that TCMP-1 is responsive to Cd, NaCl, and abscisic acid (ABA) and interacts with the tomato heavy metal-associated isoprenylated plant protein (HIPP)26. A. thaliana plants overexpressing TCMP-1 accumulate lower amount of Cd in shoots, display an increased expression of AtHIPP26 in comparison with wild-type plants, and are characterized by a modulation in the expression of antioxidant enzymes. Overall, these results suggest a possible role for the TCMP-1/HIPP26 complex in Cd response and compartmentalization.

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Section: Sltcmp-1 Promoter Is Responsive To Abiotic Stressessupporting

confidence: 83%

The Tomato Metallocarboxypeptidase Inhibitor I, which Interacts with a Heavy Metal-Associated Isoprenylated Protein, Is Implicated in Plant Response to Cadmium

et al. 2020

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“…Black and blue lines represent transcriptional regulations, and the red line represents the degradation control. Solid lines indicate that the data were derived from experimental results, whereas dashed lines indicate that the data were derived from TF binding prediction tools, PlantTFDB (67) and PlantPAN3 (68). …”

Section: Discussionmentioning

confidence: 99%

“…From our results, we hypothesized that the clock system could have the advantages that we mentioned above if CCA1 and LHY can directly (or indirectly) regulate COP1. Hence, we performed a quick analysis combining ChIP-seq data for CCA1 (17, 73) and LHY (74) with TF binding prediction tools, PlantTFDB (67) and PlantPAN3 (68), to predict the direct or indirect regulation of CCA1 / LHY to COP1 . Interestingly, our analysis suggests that a well-studied transcriptional factor, TCP21 (TCP21/CHE) , could bind to the COP1 promoter region and both CCA1 and LHY could also bind to the TCP21 promoter region.…”

Section: Discussionmentioning

confidence: 99%

Basal leakage in oscillation: coupled transcriptional and translational control using feed-forward loops

Hsu

Joanito

Sanders

et al. 2020

Preprint

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22The circadian clock is a complex system that plays many important roles in most organisms.23 Previously, many mathematical models have been used to sharpen our understanding of 24 the Arabidopsis clock. However, these models are mostly dependent on transcriptional 25 regulation, and the importance of post-translational regulation is still rarely discussed from 26 theoretical aspects. In this study, we built a series of simplified oscillators with different 27 regulations to study the importance of post-translational regulation (specifically, 26S 28 proteasome degradation) in the clock system. We found that a simple transcriptional-based 29 oscillator can already generate sustained oscillation, but the oscillation can be easily 30 destroyed in the presence of transcriptional leakage. Coupling post-translational control 31 with transcriptional-based oscillator in a feed-forward loop will greatly improve the 32 robustness of the oscillator in the presence of basal leakage. Using these general models, 33 we were able to replicate the increased variability observed in the E3 ligase mutant for both 34 plant and mammalian clocks. With this insight, we also predict a plausible regulator of 35 several E3 ligase genes in the plant's clock. Thus, our results provide insights into and the 36 plausible importance in coupling transcription and post-translation controls in the clock 37 system. 38 39 Keywords biological clock, 26S-proteasome degradation, feed-forward loop, mathematical 40 model, system biology 41 Author summary 42For circadian clocks, several current models had successfully captured the essential 43 dynamic behavior of the clock system mainly with transcriptional regulation. Previous 44 studies have shown that the 26s (1, 2) proteasome degradation controls are important in 45 maintaining the stability of circadian rhythms. However, how the loss-of-function or over-46 expression mutant of this targeted degradations lead to unstable oscillation is still unclear.47 In this work, we investigate the importance of coupled transcriptional and post-48 translational feedback loop in the circadian oscillator. With general models our study 49 indicate that the unstable behavior of degradation mutants could be caused by the increase 50 in the basal level of the clock genes. We found that coupling a non-linear degradation 51 control into this transcriptional based oscillator using feed-forward loop improves the 52 robustness of the oscillator. Using this finding, we further predict some plausible regulators 53 of Arabidopsis's E3 ligase protein such as COP1 and SINAT5. Hence, our results provide 54 insights on the importance of coupling transcription and post-translation controls in the 55 clock system. 56The circadian clock is an endogenous time-keeping mechanism in cells that 57 anticipates daily changes in the environment (3-6). It controls the daily rhythm of many 58 biological processes (7-9) and disruption of the clock has been associated with many 59 disadvantageous traits (10-13). Like many eukaryotes, in the Arabi...

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“…We extracted the 1.5kb upstream sequence of SsDof genes promoter. With the PlantPAN program [27] (http://plantpan.itps.ncku.edu.tw/) and PlantCARE program [28] (http:// bioinformatics.psb.ugent.be/webtools/plantcare/html/), we investigated the cis-elements of SsDof genes and collected the cis-element about growth and development, abiotic stresses and hormones responses in plant. The heatmap of cis-elements of SsDof genes was performed by TBtools software [29].…”

Section: Cis-element Analysismentioning

confidence: 99%

Allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane

Cai¹,

Lin²,

Li³

et al. 2020

PLoS ONE

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Dof transcription factors plant-specific and associates with growth and development in plants. We conducted comprehensive and systematic analyses of Dof transcription factors in sugarcane, and identified 29 SsDof transcription factors in sugarcane genome. Those SsDof genes were divided into five groups, with similar gene structures and conserved motifs within the same groups. Segmental duplications are predominant in the evolution of Dof in sugarcane. Cis-element analysis suggested that the functions of SsDofs were involved in growth and development, hormones and abiotic stresses responses in sugarcane. Expression patterns indicated that SsDof7, SsDof23 and SsDof24 had a comparatively high expression in all detected tissues, indicating these genes are crucial in sugarcane growth and development. Moreover, we examined the transcription levels of SsDofs under four plant hormone treatments, SsDof7-3 and SsDof7-4 were down-regulated after ABA treatment, while SsDof7-1 and SsDof7-2 were induced after the same treatment, indicating different alleles may play different roles in response to plant hormones. We also analyzed SsDofs' expression profiling under four abiotic stresses, SsDof5 and SsDof28 significantly responded to these four stresses, indicating they are associate with abiotic stresses responses. Collectively, our results yielded allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane, and their cis-elements could be crucial for sugarcane improvement. et al. (2020) Allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane. PLoS ONE 15(1): e0227716. https://

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PlantPAN3.0: a new and updated resource for reconstructing transcriptional regulatory networks from ChIP-seq experiments in plants

Cited by 380 publications

References 51 publications

The Tomato Metallocarboxypeptidase Inhibitor I, which Interacts with a Heavy Metal-Associated Isoprenylated Protein, Is Implicated in Plant Response to Cadmium

The Tomato Metallocarboxypeptidase Inhibitor I, which Interacts with a Heavy Metal-Associated Isoprenylated Protein, Is Implicated in Plant Response to Cadmium

Basal leakage in oscillation: coupled transcriptional and translational control using feed-forward loops

Allele specific expression of Dof genes responding to hormones and abiotic stresses in sugarcane

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