Your search keyword '"Yu, Chulang"' showing total 6 results

1. Transcriptome sequencing analysis and WGCNA reveal the internal molecular mechanism that triggers programmed cell death in rice mutant zj-lm.

Author

Zhou, Yuhang, Chen, Xinyu, Yu, Chulang, Ye, Shenghai, Liang, Weifang, Lu, Jianfei, Wang, Chengyu, Shen, Ying, Wang, Xuming, Zhou, Jie, Zhao, Mingwei, Yan, Chengqi, Zheng, Bingsong, Chen, Jianping, and Yang, Yong

Published

2023

2. Microwave-Assisted Chitosan-Functionalized Graphene Oxide as Controlled Intracellular Drug Delivery Nanosystem for Synergistic Antitumour Activity.

Author

Shu, Mengjun, Gao, Feng, Zeng, Min, Yu, Chulang, Wang, Xue, Huang, Renhua, Yang, Jianhua, Su, Yanjie, Hu, Nantao, Zhou, Zhihua, Liu, Ke, Yang, Zhi, Tan, Hongtao, and Xu, Lin

Subjects

GRAPHENE oxide, CONTROLLED drugs, TRASTUZUMAB, CELL death, CELL cycle, DOXORUBICIN, NANOMEDICINE

Abstract

To achieve better antitumour efficacy, it is urgent to improve anticancer drug delivery efficiency in targeting cancer cells. In this work, chitosan-functionalized graphene oxide (ChrGO) nanosheets were fabricated via microwave-assisted reduction, which were employed to the intracellular delivery nanosystem for anticancer drug agent in breast cancer cells. Drug loading and release research indicated that adriamycin can be efficiently loaded on and released from the ChrGO nanosheets. Less drug release during delivery and better biocompatibility of ChrGO/adriamycin significantly improve its safety and therapeutic efficacy in HER2-overexpressing BT-474 cells. Furthermore, ChrGO/adriamycin in combination with trastuzumab exhibited synergistic antitumour activity in BT-474 cells, which demonstrated superior therapeutic efficacy compared with each drug alone. Cells treated with trastuzumab (5 μg/mL) or equivalent ChrGO/adriamycin (5 μg/mL) each elicited 54.5% and 59.5% cell death, respectively, while the combination treatment with trastuzumab and ChrGO/adriamycin resulted in a dramatic 88.5% cell death. The dual-targeted therapy displayed higher apoptosis, indicating superior therapeutic efficacy due to the presence of different mechanisms of action. The combined treatment of ChrGO/adriamycin and trastuzumab in BT-474 cells induced cell cycle arrest and apoptosis, which ultimately led to the death of augmented cancer cells. This work has provided a facile microwave-assisted fabrication of ChrGO as a controlled and targeted intracellular drug delivery nanosystem, which is expected to be a novel promising therapy for treating HER2-overexpressing breast cancer cells. [ABSTRACT FROM AUTHOR]

Published

2021

3. Characterization of a Novel NBS-LRR Gene Involved in Bacterial Blight Resistance in Rice.

Author

Wang, Xuming, Chen, Juan, Yang, Yong, Zhou, Jie, Qiu, Yan, Yu, Chulang, Cheng, Ye, Yan, Chengqi, and Chen, Jianping

Subjects

REPEATED sequence (Genetics), LEUCINE, DRUG resistance in microorganisms, RICE blast disease, PLANT diseases, GREEN fluorescent protein, PLANT regulators, SYNTHASES, TERPENES

Abstract

Nucleotide-binding site leucine-rich repeat (NB-LRR) genes play important roles in plant disease resistance. Due to its similarity to Rp1 in maize ( Zea mays), a novel NB-LRR gene was isolated from rice and designated as OsRP1L1 ( Oryza sativa Rp1-like 1). Analysis of expression of a super green fluorescent protein ( sGFP) fusion gene revealed that the OsRP1L1 protein localizes to the nucleolus. Expression patterns suggested that OsRP1L1 was involved in responses to several plant growth regulators (PGRs) and environmental stresses. To explore its function in bacterial blight (BB) resistance, OsRP1L1 was cloned and overexpressed in a susceptible japonica rice cultivar. Overexpression of OsRP1L1 moderately elevated the resistance of plants to Xanthomonas oryzae pv. oryzae strains PXO86 and PXO341. Transcriptome analysis showed that plants overexpressing OsRP1L1 had small changes in their transcriptome, with 26 genes showing statistically significant changes of more than two-fold. The most up-regulated transcripts-a DIN1-like gene and a terpene synthase ( TPS) gene-were up-regulated 7.9- and 7.6-fold, respectively. It was also noted that seven of the up-regulated genes have also reportedly been induced by overexpression of OsbZIP46, which has been identified recently as a player in ABA sensing. All these findings suggest that OsRP1L1 plays an important role in rice BB resistance, and may be useful as a genetic resource for engineering disease resistance in plants. [ABSTRACT FROM AUTHOR]

Published

2013

4. Two-step method for constructing Arabidopsis artificial microRNA vectors.

Author

Wang, Xuming, Yang, Yong, Zhou, Jie, Yu, Chulang, Cheng, Ye, Yan, Chengqi, and Chen, Jianping

Subjects

MICRORNA, TRANSGENIC plants, GENETIC regulation, PLANT genetic engineering, MATHEMATICAL optimization

Abstract

Artificial microRNA (amiRNA) technology is used for gene silencing in Arabidopsis. We describe a method for constructing amiRNA vectors that requires only one PCR and one ligation reaction. Vectors produced by this method are the same as those from the method of Schwab et al. (Plant Cell , 18:1121-1133). Transgenic plants created by this method can therefore be tested in the same way or compared with existing transgenic material without the risk of alteration to the amiRNA skeleton. With optimized parameters, 36-42 % colonies had the insertion in the expected orientation and 85-95 % of these had the correct sequence. Using this method, a transient gene knock-down analysis in Arabidopsis could be completed in 4-5 days. [ABSTRACT FROM AUTHOR]

Published

2012

5. Evaluation of High-Resolution Melting for Gene Mapping in Rice.

Author

Li, Jinshan, Wang, Xuming, Dong, Ruixian, Yang, Yong, Zhou, Jie, Yu, Chulang, Cheng, Ye, Yan, Chengqi, and Chen, Jianping

Subjects

PLANT gene mapping, RICE genetics, NUCLEOTIDE sequence, GENETIC markers, GENETIC polymorphisms, ELECTROPHORESIS, POLYMERASE chain reaction

Abstract

In this study, high-resolution melting (HRM) analysis was evaluated for gene mapping in rice with sequence-tagged site (STS) and simple sequence repeat (SSR) markers. A total of 103 out of 353 normal STS and SSR markers revealed polymorphic melting curves among the parental genotypes, and 12 of these were successfully used to genotype the F mapping population for HRM analysis. Additional electrophoresis findings demonstrated that HRM genotyping matched with traditional electrophoresis results. To optimize the HRM-marker screening efficiency, different HRM reaction conditions were evaluated. A 5-μl touchdown-polymerase chain reaction (PCR) system provided no significant improvement in screening efficiency but in a 10-μl touchdown-PCR system, the marker screening efficiency increased by 75%. Twenty-one markers were obtained for mapping purposes under the optimized reaction conditions. This study indicates that HRM analysis can speed up the gene mapping progress in rice, while saving a lot of manpower. [ABSTRACT FROM AUTHOR]

Published

2011

6. A Highly Efficient Method for Construction of Rice Artificial MicroRNA Vectors.

Author

Wang, Xuming, Yang, Yong, Yu, Chulang, Zhou, Jie, Cheng, Ye, Yan, Chengqi, and Chen, Jianping

Abstract

ificial microRNA (amiRNA) has become a powerful tool for gene silencing in plants. A new method for easy and rapid construction of rice artificial miRNA vector is described. The procedure involved modification of the pCAMBIA1300-UR vector by insertion of a 'vector modification fragment'. This was prepared from the precursor of Os- amiR528 by eliminating the central miRNA-containing region while simultaneously creating an AfeI restriction site. The fragment was then introduced to the destination vector to produce a multipurpose 'Highly Efficient gene Silencing Compatible vector' (HESC vector). AfeI was used to produce linearized HESC vectors, and a blunt end PCR product that included amiRNA sequence was cloned into this site by a single ligation reaction to create the completed amiRNA vector. Tests showed that the method was highly efficient, and greatly reduced the time needed for vector construction and resulted in a DNA sequence identical to that of the current method, making it particularly suitable for use in a systems biology approach to functional genomic research. [ABSTRACT FROM AUTHOR]

Published

2010