Your search keyword '"Zhao, Xiuling"' showing total 3 results

1. In situ digestion-assisted multi-template imprinted nanoparticles for efficient analysis of protein phosphorylation.

Author

Wang, Jie, Zhao, Xiuling, Zhang, Hui, Chen, Yang, and Bie, Zijun

Subjects

*NANOPARTICLES analysis, *IMPRINTED polymers, *PROTEIN analysis, *PEPTIDES, *PHOSPHOPEPTIDES, *ANGIOTENSIN II

Abstract

A new general approach called in situ digestion-assisted multi-template imprinting is proposed for preparation of phospho-specific molecularly imprinted nanoparticles. Through the novel templating strategy and controllable imprinting process, imprinted nanoparticles specific to the intact phosphoprotein and its phosphopeptides were synthesized. The prepared imprinted nanoparticles exhibited excellent specificity (cross reactivity < 10%), high affinity (10−6 M), high efficiency (47.5%), and good generality (both intact phosphoprotein and phosphopeptides). We also realized the fine tuning of the recognition at peptide level of the imprinted nanoparticles by adjusting the imprinting time. Based on the selective enrichment of the imprinted nanoparticles, the MS identification of both the intact phosphoprotein (Tau) and phosphopeptides (angiotensin II and peptides of Tau) in real complex samples could be achieved. Therefore, we believe that the in situ digestion-assisted multi-template imprinting strategy holds promising future in both phosphorylation analysis and proteomics applications. [ABSTRACT FROM AUTHOR]

Published

2023

2. Image Digital Watermarking Techniques Based on Curvelet Transform.

Author

Zhao, Xiuling and Wu, Aidi

Published

2012

3. Identification of the Sex of Pre-implantation Mouse Embryos Using a Marked Y Chromosome and CRISPR/Cas9.

Author

Zhao, Xiuling, Wei, Wei, Pan, Hong, Nie, Junyu, Chen, Dongrong, Zhang, Pengfei, Chen, Fumei, Fu, Qiang, Zuo, Erwei, Lu, Yangqing, and Zhang, Ming

Subjects

*GENETIC sex determination, *SEX ratio, *Y chromosome, *FLUORESCENCE microscopy, *MAMMALIAN embryos

Abstract

Although numerous attempts have been made to alter the sex ratio of the progeny of mammals, the limitations of current technologies have prevented their widespread use in farm animals. The presence or absence of a Y chromosome determines whether a mammalian embryo develops as a male or female, and non-invasive genetic reporters such as fluorescence protein markers have been intensively applied in a variety of fields of research. To develop a non-invasive and instantaneous method for advance determination of the sex of embryos, we developed a Y chromosome-linked eGFP mouse line that stably expresses green fluorescent protein under the control of the CAG promoter. The development of the CRISPR/Cas9 system has made it easy to deliver an exogenous gene to a specific locus of a genome, and linking a tracer to the Y chromosome has simplified the process of predicting the sex of embryos collected by mating a Y-Chr-eGFP transgenic male with a wild-type female. XY embryos appeared green, under a fluorescence microscope, and XX embryos did not. Y chromosome-linked genes were amplified by nested PCR to further confirm the accuracy of this method, and the simultaneous transplantation of green and non-green embryos into foster mothers indicated that 100% accuracy was achieved by this method. Thus, the Y-Chr-eGFP mouse line provides an expeditious and accurate approach for sexing pre-implantation embryos and can be efficiently used for the pre-selection of sex. [ABSTRACT FROM AUTHOR]

Published

2019