Jiayue Liu scite author profile

Jiayue Liu

3Publications

32Citation Statements Received

96Citation Statements Given

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209

Affiliations

Washington University in St. Louis

Publications

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Homotypic cooperativity and collective binding are determinants of bHLH specificity and function

Shively

Liu

Chen

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

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Eukaryotic cells express transcription factor (TF) paralogues that bind to nearly identical DNA sequences in vitro but bind at different genomic loci and perform different functions in vivo. Predicting how 2 paralogous TFs bind in vivo using DNA sequence alone is an important open problem. Here, we analyzed 2 yeast bHLH TFs, Cbf1p and Tye7p, which have highly similar binding preferences in vitro, yet bind at almost completely nonoverlapping target loci in vivo. We dissected the determinants of specificity for these 2 proteins by making a number of chimeric TFs in which we swapped different domains of Cbf1p and Tye7p and determined the effects on in vivo binding and cellular function. From these experiments, we learned that the Cbf1p dimer achieves its specificity by binding cooperatively with other Cbf1p dimers bound nearby. In contrast, we found that Tye7p achieves its specificity by binding cooperatively with 3 other DNA-binding proteins, Gcr1p, Gcr2p, and Rap1p. Remarkably, most promoters (63%) that are bound by Tye7p do not contain a consensus Tye7p binding site. Using this information, we were able to build simple models to accurately discriminate bound and unbound genomic loci for both Cbf1p and Tye7p. We then successfully reprogrammed the human bHLH NPAS2 to bind Cbf1p in vivo targets and a Tye7p target intergenic region to be bound by Cbf1p. These results demonstrate that the genome-wide binding targets of paralogous TFs can be discriminated using sequence information, and provide lessons about TF specificity that can be applied across the phylogenetic tree.

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Quantitative analysis of transcription factor binding and expression using calling cards reporter arrays

Liu

Shively

Mitra

2020

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We report a tool, Calling Cards Reporter Arrays (CCRA), that measures transcription factor (TF) binding and the consequences on gene expression for hundreds of synthetic promoters in yeast. Using Cbf1p and MAX, we demonstrate that the CCRA method is able to detect small changes in binding free energy with a sensitivity comparable to in vitro methods, enabling the measurement of energy landscapes in vivo. We then demonstrate the quantitative analysis of cooperative interactions by measuring Cbf1p binding at synthetic promoters with multiple sites. We find that the cooperativity between Cbf1p dimers varies sinusoidally with a period of 10.65 bp and energetic cost of 1.37 KBT for sites that are positioned ‘out of phase’. Finally, we characterize the binding and expression of a group of TFs, Tye7p, Gcr1p and Gcr2p, that act together as a ‘TF collective’, an important but poorly characterized model of TF cooperativity. We demonstrate that Tye7p often binds promoters without its recognition site because it is recruited by other collective members, whereas these other members require their recognition sites, suggesting a hierarchy where these factors recruit Tye7p but not vice versa. Our experiments establish CCRA as a useful tool for quantitative investigations into TF binding and function.

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The pathogenesis of psoriasis: insight into a complex “Mobius Loop” regulation process

Jiang¹,

Chen²,

Liu³

et al. 2021

Arch Pathol Clin Res

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Psoriasis is a chronic inflammatory skin disease with a complex mechanism, which is believed to be mainly based on immune disorders and activation of inflammatory pathways. However, we have combed through the literature and found that the pathogenesis of psoriasis might involve a “mobius loop” of “immunity-inflammation-oxidative stress-proliferation” process. The disordered immune environment of the skin might act as the basis, the outbreak of inflammatory factors as the mediator, and the imbalance of oxidative stress homeostasis as the activator. These factors work together, leading to abnormal proliferation of keratinocytes and further immune abnormalities, finally aggravating psoriasis. Therefore, here we review the latest evidence and advance in the pathogenesis of psoriasis, trying to contribute to further understanding and treatment of psoriasis.

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Jiayue Liu

Homotypic cooperativity and collective binding are determinants of bHLH specificity and function

Quantitative analysis of transcription factor binding and expression using calling cards reporter arrays

The pathogenesis of psoriasis: insight into a complex “Mobius Loop” regulation process

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