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Your search keyword '"WANG, Q.-Y."' showing total 5 results
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5 results on '"WANG, Q.-Y."'

1. Descriptor Selection Improvements for Quantitative Structure-Activity Relationships.

Author

Xia, L-Y, Wang, Q-Y, Cao, Z, Liang, Y, Xia, L-Y, Wang, Q-Y, Cao, Z, and Liang, Y

Abstract

Molecular descriptor selection is an essential procedure to improve a predictive quantitative structure-activity relationship (QSAR) model. However, within the QSAR model, there are a number of redundant, noisy and irrelevant descriptors. In this study, we propose a novel descriptor selection framework using self-paced learning (SPL) via sparse logistic regression (LR) with Logsum penalty (SPL-Logsum), which can simultaneously adaptively identify the simple and complex samples and avoid over-fitting. SPL is inspired by the learning process of humans or animals gradually learned from simple and complex samples to train models, and the Logsum penalized LR helps to select a small subset of significant molecular descriptors for improving the QSAR models. Experimental results on some simulations and three public QSAR datasets show that our proposed SPL-Logsum framework outperforms other existing sparse methods regarding the area under the curve, sensitivity, specificity, accuracy, and P-values.

Published
2019

2. Integrative analyses of transcriptome sequencing identify novel functional lncRNAs in esophageal squamous cell carcinoma.

Author

Li, C-Q, Li, C-Q, Huang, G-W, Wu, Z-Y, Xu, Y-J, Li, X-C, Xue, Y-J, Zhu, Y, Zhao, J-M, Li, M, Zhang, J, Wu, J-Y, Lei, F, Wang, Q-Y, Li, S, Zheng, C-P, Ai, B, Tang, Z-D, Feng, C-C, Liao, L-D, Wang, S-H, Shen, J-H, Liu, Y-J, Bai, X-F, He, J-Z, Cao, H-H, Wu, B-L, Wang, M-R, Lin, D-C, Koeffler, HP, Wang, L-D, Li, X, Li, E-M, Xu, L-Y, Li, C-Q, Li, C-Q, Huang, G-W, Wu, Z-Y, Xu, Y-J, Li, X-C, Xue, Y-J, Zhu, Y, Zhao, J-M, Li, M, Zhang, J, Wu, J-Y, Lei, F, Wang, Q-Y, Li, S, Zheng, C-P, Ai, B, Tang, Z-D, Feng, C-C, Liao, L-D, Wang, S-H, Shen, J-H, Liu, Y-J, Bai, X-F, He, J-Z, Cao, H-H, Wu, B-L, Wang, M-R, Lin, D-C, Koeffler, HP, Wang, L-D, Li, X, Li, E-M, and Xu, L-Y

Abstract

Long non-coding RNAs (lncRNAs) have a critical role in cancer initiation and progression, and thus may mediate oncogenic or tumor suppressing effects, as well as be a new class of cancer therapeutic targets. We performed high-throughput sequencing of RNA (RNA-seq) to investigate the expression level of lncRNAs and protein-coding genes in 30 esophageal samples, comprised of 15 esophageal squamous cell carcinoma (ESCC) samples and their 15 paired non-tumor tissues. We further developed an integrative bioinformatics method, denoted URW-LPE, to identify key functional lncRNAs that regulate expression of downstream protein-coding genes in ESCC. A number of known onco-lncRNA and many putative novel ones were effectively identified by URW-LPE. Importantly, we identified lncRNA625 as a novel regulator of ESCC cell proliferation, invasion and migration. ESCC patients with high lncRNA625 expression had significantly shorter survival time than those with low expression. LncRNA625 also showed specific prognostic value for patients with metastatic ESCC. Finally, we identified E1A-binding protein p300 (EP300) as a downstream executor of lncRNA625-induced transcriptional responses. These findings establish a catalog of novel cancer-associated functional lncRNAs, which will promote our understanding of lncRNA-mediated regulation in this malignancy.

Published
2017

3. Integrative analyses of transcriptome sequencing identify novel functional lncRNAs in esophageal squamous cell carcinoma.

Author

Li, C-Q, Li, C-Q, Huang, G-W, Wu, Z-Y, Xu, Y-J, Li, X-C, Xue, Y-J, Zhu, Y, Zhao, J-M, Li, M, Zhang, J, Wu, J-Y, Lei, F, Wang, Q-Y, Li, S, Zheng, C-P, Ai, B, Tang, Z-D, Feng, C-C, Liao, L-D, Wang, S-H, Shen, J-H, Liu, Y-J, Bai, X-F, He, J-Z, Cao, H-H, Wu, B-L, Wang, M-R, Lin, D-C, Koeffler, HP, Wang, L-D, Li, X, Li, E-M, Xu, L-Y, Li, C-Q, Li, C-Q, Huang, G-W, Wu, Z-Y, Xu, Y-J, Li, X-C, Xue, Y-J, Zhu, Y, Zhao, J-M, Li, M, Zhang, J, Wu, J-Y, Lei, F, Wang, Q-Y, Li, S, Zheng, C-P, Ai, B, Tang, Z-D, Feng, C-C, Liao, L-D, Wang, S-H, Shen, J-H, Liu, Y-J, Bai, X-F, He, J-Z, Cao, H-H, Wu, B-L, Wang, M-R, Lin, D-C, Koeffler, HP, Wang, L-D, Li, X, Li, E-M, and Xu, L-Y

Abstract

Long non-coding RNAs (lncRNAs) have a critical role in cancer initiation and progression, and thus may mediate oncogenic or tumor suppressing effects, as well as be a new class of cancer therapeutic targets. We performed high-throughput sequencing of RNA (RNA-seq) to investigate the expression level of lncRNAs and protein-coding genes in 30 esophageal samples, comprised of 15 esophageal squamous cell carcinoma (ESCC) samples and their 15 paired non-tumor tissues. We further developed an integrative bioinformatics method, denoted URW-LPE, to identify key functional lncRNAs that regulate expression of downstream protein-coding genes in ESCC. A number of known onco-lncRNA and many putative novel ones were effectively identified by URW-LPE. Importantly, we identified lncRNA625 as a novel regulator of ESCC cell proliferation, invasion and migration. ESCC patients with high lncRNA625 expression had significantly shorter survival time than those with low expression. LncRNA625 also showed specific prognostic value for patients with metastatic ESCC. Finally, we identified E1A-binding protein p300 (EP300) as a downstream executor of lncRNA625-induced transcriptional responses. These findings establish a catalog of novel cancer-associated functional lncRNAs, which will promote our understanding of lncRNA-mediated regulation in this malignancy.

Published
2017

5. Multimode transmission in complementary plasmonic structures at terahertz frequencies

Author

Zhang, Z. X., Chan, K. T., Cui, Y. X., He, Sailing, Wang, C. L., Xing, Q. R., Wang, Q. Y., Zhang, Z. X., Chan, K. T., Cui, Y. X., He, Sailing, Wang, C. L., Xing, Q. R., and Wang, Q. Y.

Abstract

A three-dimensional subwavelength structure with periodic complementary metal patterns operating in the terahertz range has been proposed and fabricated. The device clearly exhibits three transmission modes under normal incidence, where experimental results obtained by terahertz time domain spectroscopy and simulated results agree very well with each other. The multimode transmission characteristics are found to arise from both localized coupling of fields between the interacting layers and propagating surface waves due to Bloch excitations on the surface of the periodic structure., QC 20100525

Published
2010
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