Systematic discovery of novel eukaryotic transcriptional regulators using sequence homology independent prediction

Bossi, Flavia; Fan, Jue; Xiao, Jun; Chandra, Lilyana; Shen, Max W.; Dorone, Yanniv; Wagner, Doris; Rhee, Seung Y.

doi:10.1186/s12864-017-3853-9

Cited by 13 publications

(20 citation statements)

References 122 publications

(126 reference statements)

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“…An entry vector containing the YFP gene was donated by Dr. Zhiyong Wang (Carnegie Institution for Science, USA) and another one, G18395, containing FLOE1's coding sequence was obtained from ABRC. The two genes were then transferred from the entry vector into the binary vector pB7HFC3_0 (Bossi et al, 2017) using Gateway cloning (Life Technologies), to create the vectors p35S:YFP-FLAG and p35S:FLOE1-FLAG. Transgenes for tobacco experiments: Arabidopsis genes: The coding sequences of FLOE1's isoforms, FLOE1.1 and FLOE1.2, were amplified by Phusion (Thermo Fisher Scientific) PCR from the entry vector G18395 using priFLOE1.1-FWD/REV and priFLOE1.2-FWD/REV (Table S3) and then BP recombined into pDONR221 (Thermo Fisher Scientific) to generate pDONR221-FLOE1.1 and pDONR221-FLOE1.2.…”

Section: Plant Plasmid Constructionmentioning

confidence: 99%

A prion-like protein regulator of seed germination undergoes hydration-dependent phase separation

Dorone

Boeynaems

Flores

et al. 2021

Cell

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118

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Section: Plant Plasmid Constructionmentioning

confidence: 99%

A prion-like protein regulator of seed germination undergoes hydration-dependent phase separation

Dorone

Boeynaems

Flores

et al. 2021

Cell

Self Cite

136

118

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“…Sequence alignment of the C-terminal part of AtTX14 Full and related proteins, a transcriptional regulator CHIQ1 and ten CHIQLs, revealed that the C-terminal half of AtTX14 Full contains a truncated DUF641 domain (Bossi et al 2017) (Fig. S2).…”

Section: Resultsmentioning

confidence: 99%

Toll/interleukin-1 Receptor Domain-Only Protein of Arabidopsis Thaliana AtTX14 2IR, Produced By Alternative Splicing, Can Induce Defense Responses

Lim

Yeon

Song

et al. 2021

Preprint

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Toll/interleukin -1 receptor (TIR) domains, which have NAD+ cleavage activity, are used as signaling modules in NOD-like receptors for defense responses. It has been shown that TIR domains not only form homo- or heterodimers with TIR domain-containing proteins but also interact with various proteins. A previous study showed that overexpression of Arabidopsis thaliana (Arabidopsis) AtTX14, encoding an N-terminal TIR domain and a C-terminal domain with unknown function, resulted in dwarfism and constitutive defense signaling or autoimmunity. Transgenic Arabidopsis overexpressing AtTX14 displays enhanced defense responses and associated dwarf phenotypes at 28 °C compared with those at 22 °C, which differs from other mutant or transgenic Arabidopsis with constitutive defense responses. We found that AtTX14 is alternatively spliced to encode three different proteins, and the TIR domain itself can induce autoimmunity and elevated defense responses to the bacterial pathogen Pseudomonas syringae pv. tomato. In addition, we revealed that the transcription of AtTX14 is regulated by a positive feedback mechanism. With transient overexpression of three AtTX14 protein forms in tobacco leaves, providing a heterologous system free from the positive feedback of AtTX14 in Arabidopsis, we demonstrated that expression of a splicing variant encoding the TIR domain-only protein is sufficient to activate defense signaling. A deeper understanding of interaction networks involving AtTX14 will broaden our knowledge on how plant defense signaling is regulated in response to pathogen infection and ambient temperature changes.

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“…We next assessed the effect of these motif sequence changes on the activity of the LPCAT1 promoter using a quantitative in planta transactivation assay ( Bossi et al, 2017 ). In this assay, we co-transformed tobacco leaves with an effector construct (35S::bZIP23 or 35S::YFP) with a reporter construct, containing either the LPCAT1 Col-0 native promoter (with GTGTC GA A motif), the LPCAT1 Col-0 mutated promoter (with GTGTC AC A motif), or the promoter of the zinc transporter ZIP4 promoter (as positive control) fused to a β-glucuronidase ( GUS )-encoding reporter gene ( Figure 3C ).…”

Section: Resultsmentioning

confidence: 99%

“…35S promoter. The 35S::C-YFP construct was provided by Dr. Seung Y. Rhee ( Bossi et al, 2017 ). Each construct was transformed into Agrobacterium.…”

Section: Methodsmentioning

confidence: 99%

“…Three days after infiltration, leaves were collected, and the infiltrated areas in each leaf were excised and pooled into one sample. The GUS extraction and the GUS enzymatic activity measurements was performed as described by Bossi et al, 2017 . The relative GUS enzymatic activity was determined by comparing the effect of bZIP23 TF and C-YFP protein on each promoter.…”

Section: Methodsmentioning

confidence: 99%

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LPCAT1 controls phosphate homeostasis in a zinc-dependent manner

Kisko

Bouain

Safi

et al. 2018

eLife

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All living organisms require a variety of essential elements for their basic biological functions. While the homeostasis of nutrients is highly intertwined, the molecular and genetic mechanisms of these dependencies remain poorly understood. Here, we report a discovery of a molecular pathway that controls phosphate (Pi) accumulation in plants under Zn deficiency. Using genome-wide association studies, we first identified allelic variation of the Lyso-PhosphatidylCholine (PC) AcylTransferase 1 (LPCAT1) gene as the key determinant of shoot Pi accumulation under Zn deficiency. We then show that regulatory variation at the LPCAT1 locus contributes significantly to this natural variation and we further demonstrate that the regulation of LPCAT1 expression involves bZIP23 TF, for which we identified a new binding site sequence. Finally, we show that in Zn deficient conditions loss of function of LPCAT1 increases the phospholipid Lyso-PhosphatidylCholine/PhosphatidylCholine ratio, the expression of the Pi transporter PHT1;1, and that this leads to shoot Pi accumulation.

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Systematic discovery of novel eukaryotic transcriptional regulators using sequence homology independent prediction

Cited by 13 publications

References 122 publications

A prion-like protein regulator of seed germination undergoes hydration-dependent phase separation

A prion-like protein regulator of seed germination undergoes hydration-dependent phase separation

Toll/interleukin-1 Receptor Domain-Only Protein of Arabidopsis Thaliana AtTX14 2IR, Produced By Alternative Splicing, Can Induce Defense Responses

LPCAT1 controls phosphate homeostasis in a zinc-dependent manner

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