Zhiyuan Xue scite author profile

Structure characteristics of titanium oxide layer on titanium matrix were investigated by Rutherford Backscattering Spectroscopy (RBS), Auger Electron Spectroscopy (AES) and X-ray diffraction. It has been identified that the titanium oxide layers had rutile structure. The blood compatibility of the titanium oxide layers of different thickness was studied by blood clotting time measurement. It was shown that as the thickness of the titanium oxide layers increased, blood compatibility of these layers was obviously improved.

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RNANetMotif: Identifying sequence-structure RNA network motifs in RNA-protein binding sites

Wen

Xue

et al. 2022

PLoS Comput Biol

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RNA molecules can adopt stable secondary and tertiary structures, which are essential in mediating physical interactions with other partners such as RNA binding proteins (RBPs) and in carrying out their cellular functions. In vivo and in vitro experiments such as RNAcompete and eCLIP have revealed in vitro binding preferences of RBPs to RNA oligomers and in vivo binding sites in cells. Analysis of these binding data showed that the structure properties of the RNAs in these binding sites are important determinants of the binding events; however, it has been a challenge to incorporate the structure information into an interpretable model. Here we describe a new approach, RNANetMotif, which takes predicted secondary structure of thousands of RNA sequences bound by an RBP as input and uses a graph theory approach to recognize enriched subgraphs. These enriched subgraphs are in essence shared sequence-structure elements that are important in RBP-RNA binding. To validate our approach, we performed RNA structure modeling via coarse-grained molecular dynamics folding simulations for selected 4 RBPs, and RNA-protein docking for LIN28B. The simulation results, e.g., solvent accessibility and energetics, further support the biological relevance of the discovered network subgraphs.

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RNANetMotif: identifying sequence-structure RNA network motifs in RNA-protein binding sites

Wen

Xue

et al. 2021

Preprint

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RNA molecules can adopt stable secondary and tertiary structures, which is essential in mediating physical interactions with other partners such as RNA binding proteins (RBPs) and in carrying out their cellular functions. In vivo and in vitro experiments such as RNAcompete and eCLIP have revealed in vitro binding preferences of RBPs to RNA oligomers and in vivo binding sites in cells. Analysis of these binding data showed that the structure properties of the RNAs in these binding sites are important determinants of the binding events; however, it has been a challenge to incorporate the structure information into an interpretable model. Here we describe a new approach, RNANetMotif, which takes predicted secondary structure of thousands of RNA sequences bound by an RBP as input and uses a graph theory approach to recognize enriched subgraphs. These enriched subgraphs are in essence shared sequence-structure elements that are important in RBP-RNA binding. To validate our approach, we performed RNA structure modeling via discrete molecular dynamics folding simulations for selected 4 RBPs, and RNA-protein docking for LIN28. The simulation results, e.g., solvent accessibility and energetics, further support the biological relevance of the discovered network subgraphs.

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High-Sensitive Cardiac Troponin T as a Reliable Biochemical Signature for Improvements of Mortality Prediction in Patients with Intracerebral Haemorrhage

Chen

et al. 2020

SSRN Journal

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High-Sensitive Cardiac Troponin T as a Reliable Biochemical Signature for Improvements of Mortality Prediction in Patients with Intracerebral Haemorrhage

Chen

et al. 2020

SSRN Journal

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Zhiyuan Xue

In vitro Investigation of Blood Compatibility of Ti with Oxide Layers of Rutile Structure

RNANetMotif: Identifying sequence-structure RNA network motifs in RNA-protein binding sites

RNANetMotif: identifying sequence-structure RNA network motifs in RNA-protein binding sites

High-Sensitive Cardiac Troponin T as a Reliable Biochemical Signature for Improvements of Mortality Prediction in Patients with Intracerebral Haemorrhage

High-Sensitive Cardiac Troponin T as a Reliable Biochemical Signature for Improvements of Mortality Prediction in Patients with Intracerebral Haemorrhage

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