Your search keyword '"Weiyang Ying"' showing total 5 results

1. A shear-thinning, ROS-scavenging hydrogel combined with dental pulp stem cells promotes spinal cord repair by inhibiting ferroptosis

Author

Yibo Ying, Zhiyang Huang, Yurong Tu, Qiuji Wu, Zhaoyu Li, Yifan Zhang, Huilei Yu, Annian Zeng, Hanzhi Huang, Jiahui Ye, Weiyang Ying, Min Chen, Zhiyi Feng, Ziyue Xiang, Qingsong Ye, Sipin Zhu, and Zhouguang Wang

Subjects

Shear-thinning hydrogel, Dental pulp stem cells, Ferroptosis, ROS-Scavenging, Synaptic regulation, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Spinal cord injury (SCI) is a serious clinical disease. Due to the deformability and fragility of the spinal cord, overly rigid hydrogels cannot be used to treat SCI. Hence, we used TPA and Laponite to develop a hydrogel with shear-thinning ability. This hydrogel exhibits good deformation, allowing it to match the physical properties of the spinal cord; additionally, this hydrogel scavenges ROS well, allowing it to inhibit the lipid peroxidation caused by ferroptosis. According to the in vivo studies, the TPA@Laponite hydrogel could synergistically inhibit ferroptosis by improving vascular function and regulating iron metabolism. In addition, dental pulp stem cells (DPSCs) were introduced into the TPA@Laponite hydrogel to regulate the ratios of excitatory and inhibitory synapses. It was shown that this combination biomaterial effectively reduced muscle spasms and promoted recovery from SCI.

Published

2023

2. Genome-wide identification and characterization of OVATE family proteins in Betula luminifera reveals involvement of BlOFP3 and BlOFP5 genes in leaf development

Author

Priyanka Borah, Fei Ni, Weiyang Ying, Hebi Zhuang, Sun-Li Chong, Xian-Ge Hu, Jun Yang, Er-pei Lin, and Huahong Huang

Subjects

Betula luminifera, ovate family protein, expression analysis, protein-protein interaction, transmission electron microscopy, Plant culture, SB1-1110

Abstract

Ovate family proteins (OFP) are plant-specific transcription factors involved in regulating morphologies of the lateral organs, plant growth and development. However, the functional roles of OFP genes in Betula luminifera, an important timber tree species, are not well studied. In this study, we identified 20 BlOFP genes and analyzed their phylogenetic relationship, gene structure, conserved motifs, and cis-elements. Further, expression analysis indicates that BlOFP genes were up-regulated in leaves on the one-year-old branch compared to leaves on the current-year branch and bract, except BlOFP7, BlOFP11, BlOFP14 and BlOFP12. The overexpression of BlOFP3 and BlOFP5 in Arabidopsis thaliana not only resulted in a slower growth rate but also produced sawtooth shape, flatter and darker green rosette leaves. Further investigation showed that the leaf thickness of the transgenic plants was more than double that of the wild type, which was caused by the increasement in the number and size of palisade tissue cells. Furthermore, the expression analysis also indicated that the expressions of several genes related to leaf development were significantly changed in the transgene plants. These results suggested the significant roles of BlOFP3 and BlOFP5 in leaf development. Moreover, protein-protein interaction studies showed that BlOFP3 interacts with BlKNAT5, and BlOFP5 interacts with BlKNAT5, BlBLH6 and BlBLH7. In conclusion, our study demonstrates that BlOFP3 and BlOFP5 were involved in leaf shape and thickness regulation by forming a complex with BlKNAT5, BlBLH6 and BlBLH7. In addition, our study serves as a guide for future functional genomic studies of OFP genes of the B. luminifera.

Published

2022

3. Corrigendum: Hypoxia response element-directed expression of aFGF in neural stem cells promotes the recovery of spinal cord injury and attenuates SCI-induced apoptosis

Author

Yibo Ying, Yifan Zhang, Yurong Tu, Min Chen, Zhiyang Huang, Weiyang Ying, Qiuji Wu, Jiahui Ye, Ziyue Xiang, Xiangyang Wang, Zhouguang Wang, and Sipin Zhu

Subjects

spinal cord injury, acidic fibroblast growth factor, adeno-associated virus, neural stem cell, endoplasmic reticulum stress, apoptosis, Biology (General), QH301-705.5

Published

2022

4. A shear-thinning, ROS-scavenging hydrogel combined with dental pulp stem cells promotes spinal cord repair by inhibiting ferroptosis

Author

Yibo Ying, Zhiyang Huang, Yurong Tu, Qiuji Wu, Zhaoyu Li, Yifan Zhang, Huilei Yu, Annian Zeng, Hanzhi Huang, Jiahui Ye, Weiyang Ying, Min Chen, Zhiyi Feng, Ziyue Xiang, Qingsong Ye, Sipin Zhu, and Zhouguang Wang

Subjects

Biomaterials, Biomedical Engineering, Biotechnology

Abstract

Spinal cord injury (SCI) is a serious clinical disease. Due to the deformability and fragility of the spinal cord, overly rigid hydrogels cannot be used to treat SCI. Hence, we used TPA and Laponite to develop a hydrogel with shear-thinning ability. This hydrogel exhibits good deformation, allowing it to match the physical properties of the spinal cord; additionally, this hydrogel scavenges ROS well, allowing it to inhibit the lipid peroxidation caused by ferroptosis. According to the

Published

2022

5. Genome-wide identification and characterization of OVATE family proteins in Betula luminifera reveals involvement of BlOFP3 and BlOFP5 genes in leaf development.

Author

Borah, Priyanka, Fei Ni, Weiyang Ying, Hebi Zhuang, Sun-Li Chong, Xian-Ge Hu, Jun Yang, Er-pei Lin, and Huahong Huang

Subjects

LEAF development, BIRCH, GENES, PROTEIN-protein interactions, TRANSCRIPTION factors, ARABIDOPSIS thaliana

Abstract

Ovate family proteins (OFP) are plant-specific transcription factors involved in regulating morphologies of the lateral organs, plant growth and development. However, the functional roles of OFP genes in Betula luminifera, an important timber tree species, are not well studied. In this study, we identified 20 BlOFP genes and analyzed their phylogenetic relationship, gene structure, conserved motifs, and cis-elements. Further, expression analysis indicates that BlOFP genes were up-regulated in leaves on the one-year-old branch compared to leaves on the current-year branch and bract, except BlOFP7, BlOFP11, BlOFP14 and BlOFP12. The overexpression of BlOFP3 and BlOFP5 in Arabidopsis thaliana not only resulted in a slower growth rate but also produced sawtooth shape, flatter and darker green rosette leaves. Further investigation showed that the leaf thickness of the transgenic plants was more than double that of the wild type, which was caused by the increasement in the number and size of palisade tissue cells. Furthermore, the expression analysis also indicated that the expressions of several genes related to leaf development were significantly changed in the transgene plants. These results suggested the significant roles of BlOFP3 and BlOFP5 in leaf development. Moreover, protein-protein interaction studies showed that BlOFP3 interacts with BlKNAT5, and BlOFP5 interacts with BlKNAT5, BlBLH6 and BlBLH7. In conclusion, our study demonstrates that BlOFP3 and BlOFP5 were involved in leaf shape and thickness regulation by forming a complex with BlKNAT5, BlBLH6 and BlBLH7. In addition, our study serves as a guide for future functional genomic studies of OFP genes of the B. luminifera. [ABSTRACT FROM AUTHOR]

Published

2022