Ge Gao scite author profile

Dendrimers as a new kind of polymer have been studied for medical applications mainly in two aspects: drug delivery and gene delivery. The unique characteristics, such as uniformity, monodispersity and the ability to functionalize their terminal groups with various targeting agents distinguish them as versatile carriers. In the paper the recent advances of dendrimer in gene transfer vehicles and drug delivery are separately reviewed. These advances illustrate the direction of the future development of dendrimers.

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MVApp—Multivariate Analysis Application for Streamlined Data Analysis and Curation

Julkowska

Saadé

Agarwal

et al. 2019

Plant Physiol.

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Modern phenotyping techniques yield vast amounts of data that are challenging to manage and analyze. When thoroughly examined, this type of data can reveal genotype-to-phenotype relationships and meaningful connections among individual traits. However, efficient data mining is challenging for experimental biologists with limited training in curating, integrating, and exploring complex datasets. Additionally, data transparency, accessibility, and reproducibility are important considerations for scientific publication. The need for a streamlined, user-friendly pipeline for advanced phenotypic data analysis is pressing. In this article we present an open-source, online platform for multivariate analysis (MVApp), which serves as an interactive pipeline for data curation, in-depth analysis, and customized visualization. MVApp builds on the available R-packages and adds extra functionalities to enhance the interpretability of the results. The modular design of the MVApp allows for flexible analysis of various data structures and includes tools underexplored in phenotypic data analysis, such as clustering and quantile regression. MVApp aims to enhance findable, accessible, interoperable, and reproducible data transparency, streamline data curation and analysis, and increase statistical literacy among the scientific community.

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A dialysis-based in vitro drug release assay to study dynamics of the drug-protein transfer of temoporfin liposomes

Wallenwein

Nova

Janas

et al. 2019

European Journal of Pharmaceutics and Biopharmaceutics

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The Use of High-Throughput Phenotyping for Assessment of Heat Stress-Induced Changes in Arabidopsis

2020

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The worldwide rise in heatwave frequency poses a threat to plant survival and productivity. Determining the new marker phenotypes that show reproducible response to heat stress and contribute to heat stress tolerance is becoming a priority. In this study, we describe a protocol focusing on the daily changes in plant morphology and photosynthetic performance after exposure to heat stress using an automated noninvasive phenotyping system. Heat stress exposure resulted in an acute reduction of the quantum yield of photosystem II and increased leaf angle. In longer term, the exposure to heat also affected plant growth and morphology. By tracking the recovery period of the WT and mutants impaired in thermotolerance (hsp101), we observed that the difference in maximum quantum yield, quenching, rosette size, and morphology. By examining the correlation across the traits throughout time, we observed that early changes in photochemical quenching corresponded with the rosette size at later stages, which suggests the contribution of quenching to overall heat tolerance. We also determined that 6 h of heat stress provides the most informative insight in plant’s responses to heat, as it shows a clear separation between treated and nontreated plants as well as the WT and hsp101. Our work streamlines future discoveries by providing an experimental protocol, data analysis pipeline, and new phenotypes that could be used as targets in thermotolerance screenings.

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Advanced in silico modeling explains pharmacokinetics and biodistribution of temoporfin nanocrystals in humans

Jablonka

Ashtikar

Gao

et al. 2019

Journal of Controlled Release

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Pressure dependence in aqueous-based electrochemical CO2 reduction

et al. 2023

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Electrochemical CO2 reduction (CO2R) is an approach to closing the carbon cycle for chemical synthesis. To date, the field has focused on the electrolysis of ambient pressure CO2. However, industrial CO2 is pressurized—in capture, transport and storage—and is often in dissolved form. Here, we find that pressurization to 50 bar steers CO2R pathways toward formate, something seen across widely-employed CO2R catalysts. By developing operando methods compatible with high pressures, including quantitative operando Raman spectroscopy, we link the high formate selectivity to increased CO2 coverage on the cathode surface. The interplay of theory and experiments validates the mechanism, and guides us to functionalize the surface of a Cu cathode with a proton-resistant layer to further the pressure-mediated selectivity effect. This work illustrates the value of industrial CO2 sources as the starting feedstock for sustainable chemical synthesis.

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Predicting human pharmacokinetics of liposomal temoporfin using a hybrid in silico model

Jablonka

Ashtikar

Gao

et al. 2020

European Journal of Pharmaceutics and Biopharmaceutics

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Ge Gao

Thermopriming triggers splicing memory in Arabidopsis

Recent Advances of Dendrimers in Delivery of Genes and Drugs

MVApp—Multivariate Analysis Application for Streamlined Data Analysis and Curation

A dialysis-based in vitro drug release assay to study dynamics of the drug-protein transfer of temoporfin liposomes

The Use of High-Throughput Phenotyping for Assessment of Heat Stress-Induced Changes in Arabidopsis

Advanced in silico modeling explains pharmacokinetics and biodistribution of temoporfin nanocrystals in humans

Pressure dependence in aqueous-based electrochemical CO2 reduction

Predicting human pharmacokinetics of liposomal temoporfin using a hybrid in silico model

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