Your search keyword '"Zhou, Guolin"' showing total 9 results

1. Characterization of constitutive promoters for piggyBac transposon-mediated stable transgene expression in mesenchymal stem cells (MSCs).

Author

Wen S, Zhang H, Li Y, Wang N, Zhang W, Yang K, Wu N, Chen X, Deng F, Liao Z, Zhang J, Zhang Q, Yan Z, Liu W, Zhang Z, Ye J, Deng Y, Zhou G, Luu HH, Haydon RC, Shi LL, He TC, and Wei G

Subjects

Acetylation, Cell Line, DNA Methylation, Gene Silencing, Gene Transfer Techniques, Genes, Reporter, Genetic Vectors, HEK293 Cells, Histones metabolism, Homologous Recombination, Humans, DNA Transposable Elements, Gene Expression, Mesenchymal Stem Cells metabolism, Promoter Regions, Genetic, Transgenes

Abstract

Multipotent mesenchymal stem cells (MSCs) can undergo self-renewal and give rise to multi-lineages under given differentiation cues. It is frequently desirable to achieve a stable and high level of transgene expression in MSCs in order to elucidate possible molecular mechanisms through which MSC self-renewal and lineage commitment are regulated. Retroviral or lentiviral vector-mediated gene expression in MSCs usually decreases over time. Here, we choose to use the piggyBac transposon system and conduct a systematic comparison of six commonly-used constitutive promoters for their abilities to drive RFP or firefly luciferase expression in somatic HEK-293 cells and MSC iMEF cells. The analyzed promoters include three viral promoters (CMV, CMV-IVS, and SV40), one housekeeping gene promoter (UbC), and two composite promoters of viral and housekeeping gene promoters (hEFH and CAG-hEFH). CMV-derived promoters are shown to drive the highest transgene expression in HEK-293 cells, which is however significantly reduced in MSCs. Conversely, the composite promoter hEFH exhibits the highest transgene expression in MSCs whereas its promoter activity is modest in HEK-293 cells. The reduced transgene expression driven by CMV promoters in MSCs may be at least in part caused by DNA methylation, or to a lesser extent histone deacetlyation. However, the hEFH promoter is not significantly affected by these epigenetic modifications. Taken together, our results demonstrate that the hEFH composite promoter may be an ideal promoter to drive long-term and high level transgene expression using the piggyBac transposon vector in progenitor cells such as MSCs.

Published

2014

2. Generation of longer cDNA fragments from SAGE tags for gene identification.

Author

Chen JJ, Lee S, Zhou G, Rowley JD, and Wang SM

Subjects

Cloning, Molecular methods, DNA Primers chemistry, DNA Primers genetics, DNA Restriction Enzymes, Electrophoresis, Agar Gel, Eukaryotic Cells, Exons, Gene Amplification, Humans, DNA, Complementary genetics, Gene Expression genetics, Gene Expression Profiling methods, Genetic Markers genetics, Nucleic Acid Amplification Techniques methods, Sequence Analysis, DNA methods

Published

2003

3. Molecular Portraits of B Cell Lineage Commitment

Author

Müschen, Markus, Lee, Sanggyu, Zhou, Guolin, Feldhahn, Niklas, Barath, Varun Singh, Chen, Jianjun, Moers, Cordula, Krönke, Martin, Rowley, Janet D., and Wang, San Ming

Published

2002

4. The Pattern of Gene Expression in Human CD34 + Stem/Progenitor Cells

Author

Zhou, Guolin, Chen, Jianjun, Lee, Sanggyu, Clark, Terry, Rowley, Janet D., and Wang, San Ming

Published

2001

5. The Pattern of Gene Expression in Human CD15+ Myeloid Progenitor Cells

Author

Lee, Sanggyu, Zhou, Guolin, Clark, Terry, Chen, Jianjun, Rowley, Janet D., and Wang, San Ming

Published

2001

6. Gene Expression Profiles in Acute Myeloid Leukemia with Common Translocations Using SAGE

Author

Lee, Sanggyu, Chen, Jianjun, Zhou, Guolin, Shi, Run Zhang, Bouffard, Gerard G., Kocherginsky, Masha, Ge, Xijin, Sun, Miao, Jayathilaka, Nimanthi, Kim, Yeong Cheol, Emmanuel, Neelmini, Bohlander, Stefan K., Minden, Mark, Kline, Justin, Ozer, Ozden, Larson, Richard A., LeBeau, Michelle M., Green, Eric D., Trent, Jeffery, Karrisons, Theodore, Liu, Piu Paul, Wang, San Ming, and Rowley, Janet D.

Published

2006

7. A Simplified and Versatile System for the Simultaneous Expression of Multiple siRNAs in Mammalian Cells Using Gibson DNA Assembly.

Author

Deng, Fang, Chen, Xiang, Liao, Zhan, Yan, Zhengjian, Wang, Zhongliang, Deng, Youlin, Zhang, Qian, Zhang, Zhonglin, Ye, Jixing, Qiao, Min, Li, Ruifang, Denduluri, Sahitya, Wang, Jing, Wei, Qiang, Li, Melissa, Geng, Nisha, Zhao, Lianggong, Zhou, Guolin, Zhang, Penghui, and Luu, Hue H.

Subjects

GENE expression, SMALL interfering RNA, MAMMALS, DNA analysis, MESSENGER RNA, HAIRPIN (Genetics)

Abstract

RNA interference (RNAi) denotes sequence-specific mRNA degradation induced by short interfering double-stranded RNA (siRNA) and has become a revolutionary tool for functional annotation of mammalian genes, as well as for development of novel therapeutics. The practical applications of RNAi are usually achieved by expressing short hairpin RNAs (shRNAs) or siRNAs in cells. However, a major technical challenge is to simultaneously express multiple siRNAs to silence one or more genes. We previously developed pSOS system, in which siRNA duplexes are made from oligo templates driven by opposing U6 and H1 promoters. While effective, it is not equipped to express multiple siRNAs in a single vector. Gibson DNA Assembly (GDA) is an in vitro recombination system that has the capacity to assemble multiple overlapping DNA molecules in a single isothermal step. Here, we developed a GDA-based pSOK assembly system for constructing single vectors that express multiple siRNA sites. The assembly fragments were generated by PCR amplifications from the U6-H1 template vector pB2B. GDA assembly specificity was conferred by the overlapping unique siRNA sequences of insert fragments. To prove the technical feasibility, we constructed pSOK vectors that contain four siRNA sites and three siRNA sites targeting human and mouse β-catenin, respectively. The assembly reactions were efficient, and candidate clones were readily identified by PCR screening. Multiple β-catenin siRNAs effectively silenced endogenous β-catenin expression, inhibited Wnt3A-induced β-catenin/Tcf4 reporter activity and expression of Wnt/β-catenin downstream genes. Silencing β-catenin in mesenchymal stem cells inhibited Wnt3A-induced early osteogenic differentiation and significantly diminished synergistic osteogenic activity between BMP9 and Wnt3A in vitro and in vivo. These findings demonstrate that the GDA-based pSOK system has been proven simplistic, effective and versatile for simultaneous expression of multiple siRNAs. Thus, the reported pSOK system should be a valuable tool for gene function studies and development of novel therapeutics. [ABSTRACT FROM AUTHOR]

Published

2014

8. Characterization of Constitutive Promoters for piggyBac Transposon-Mediated Stable Transgene Expression in Mesenchymal Stem Cells (MSCs).

Author

Wen, Sheng, Zhang, Hongmei, Li, Yasha, Wang, Ning, Zhang, Wenwen, Yang, Ke, Wu, Ningning, Chen, Xian, Deng, Fang, Liao, Zhan, Zhang, Junhui, Zhang, Qian, Yan, Zhengjian, Liu, Wei, Zhang, Zhonglin, Ye, Jixing, Deng, Youlin, Zhou, Guolin, Luu, Hue H., and Haydon, Rex C.

Subjects

TRANSPOSONS, TRANSGENE expression, MESENCHYMAL stem cells, COMPARATIVE studies, CYTOLOGY, DEVELOPMENTAL biology, PHYSIOLOGY

Abstract

Multipotent mesenchymal stem cells (MSCs) can undergo self-renewal and give rise to multi-lineages under given differentiation cues. It is frequently desirable to achieve a stable and high level of transgene expression in MSCs in order to elucidate possible molecular mechanisms through which MSC self-renewal and lineage commitment are regulated. Retroviral or lentiviral vector-mediated gene expression in MSCs usually decreases over time. Here, we choose to use the piggyBac transposon system and conduct a systematic comparison of six commonly-used constitutive promoters for their abilities to drive RFP or firefly luciferase expression in somatic HEK-293 cells and MSC iMEF cells. The analyzed promoters include three viral promoters (CMV, CMV-IVS, and SV40), one housekeeping gene promoter (UbC), and two composite promoters of viral and housekeeping gene promoters (hEFH and CAG-hEFH). CMV-derived promoters are shown to drive the highest transgene expression in HEK-293 cells, which is however significantly reduced in MSCs. Conversely, the composite promoter hEFH exhibits the highest transgene expression in MSCs whereas its promoter activity is modest in HEK-293 cells. The reduced transgene expression driven by CMV promoters in MSCs may be at least in part caused by DNA methylation, or to a lesser extent histone deacetlyation. However, the hEFH promoter is not significantly affected by these epigenetic modifications. Taken together, our results demonstrate that the hEFH composite promoter may be an ideal promoter to drive long-term and high level transgene expression using the piggyBac transposon vector in progenitor cells such as MSCs. [ABSTRACT FROM AUTHOR]

Published

2014

9. Correct Identification of Genes from Serial Analysis of Gene Expression Tag Sequences

Author

Lee, Sanggyu, Clark, Terry, Chen, Jianjun, Zhou, Guolin, Scott, L. Ridgway, Rowley, Janet D., and Wang, San Ming

Subjects

*GENE expression, *GENOMICS

Abstract

SAGE (serial analysis of gene expression) is a remarkable technique for genome-wide analysis of gene expression. It is crucial to understand the extent to which SAGE can accurately indicate a gene or expressed sequence tag (EST) with a single tag. We analyzed the effect of the size of SAGE tag on gene identification. Our observation indicates that SAGE tags are in general not long enough to achieve the degree of uniqueness of identification originally envisaged. Our observations also indicate that the limitation of using SAGE tag to identify a gene can be overcome by converting SAGE tags into longer 3′ EST sequences with the generation of longer cDNA fragments from SAGE tages for gene identification (GLGI) method. [Copyright &y& Elsevier]

Published

2002