产品介绍
GeneCopoeia提供慢病毒载体的ORF、启动子、shRNA、miRNA前体克隆和 miRNA抑制剂克隆,有丰富的融合标签供选择,例如IRES-eGFP、 Avitag®和HaloTag®等。生产过程有严格的质量控制,所有克隆经过全长测序,可用于即时表达。还提供优化的慢病毒包装质粒、细胞系、慢病毒浓缩试剂盒、 慢病毒颗粒以及慢病毒包装服务。 |
慢病毒载体
浏览 ORF/cDNA慢病毒载体, shRNA慢病毒载体, microRNA慢病毒载体, 启动子慢病毒载体。
ORF慢病毒表达载体(HIV) |
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shRNA慢病毒表达载体 |
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载体名称 | 启动子 | 筛选标记 | 报告基因 | 慢病毒骨架 |
psi-LVRH1GH | H1 | Hygromycin | eGFP | HIV |
psi-LVRH1GP | H1 | Puromycin | eGFP | HIV |
psi-LVRH1H | H1 | Hygromycin | N/A | HIV |
psi-LVRH1MH | H1 | Hygromycin | mCherry | HIV |
psi-LVRH1MP | H1 | Puromycin | mCherry | HIV |
psi-LVRH1P | H1 | Puromycin | N/A | HIV |
psi-LVRU6GH | U6 | Hygromycin | eGFP | HIV |
psi-LVRU6GP | U6 | Puromycin | eGFP | HIV |
psi-LVRU6H | U6 | Hygromycin | N/A | HIV |
psi-LVRU6MH | U6 | Hygromycin | mCherry | HIV |
psi-LVRU6MP | U6 | Puromycin | mCherry | HIV |
psi-LVRU6P | U6 | Puromycin | N/A | HIV |
psi-LVRInU6TGP | inducible U6 | Puromycin | eGFP | HIV |
microRNA前体慢病毒表达载体 |
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载体名称 | 报告基因 | 筛选标记 | 启动子 | 慢病毒骨架 |
pEZX-MR02 | mCherry | Puromycin | CMV | HIV |
pEZX-MR03 | eGFP | Puromycin | CMV | HIV |
microRNA抑制剂慢病毒表达载体 |
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载体名称 | 报告基因 | 筛选标记 | 启动子 | 慢病毒骨架 |
pEZX-AM03 | mCherry | Hygromycin | H1 | HIV |
pEZX-AM04 | mCherry | Hygromycin | U6 | HIV |
pEZX-AM04p | mCherry | Puromycin | U6 | HIV |
慢病毒载体的启动子报告克隆 |
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载体名称 | 报告基因 | 示踪基因 | 筛选标记 | 载体骨架 |
pEZX-LvPG04 | Gaussia luciferase (GLuc) | Secreted alkaline phosphatase (SEAP) | Puromycin | HIV |
pEZX-LvPG02 | Gaussia luciferase (GLuc) | N/A* | Puromycin | HIV |
pEZX-LvPF02 | eGFP | N/A* | Puromycin | HIV |
pEZX-LvPM02 | mCherry | N/A* | Puromycin | HIV |
pEZX-LvPM03 | tdTomato | N/A* | Puromycin | HIV |
Cas9 nuclease lentiviral expression clones
载体名称 | 启动子 | 报告基因 | 筛选标记 | 载体骨架 |
CP-LvC9NU-01 | CMV | N/A | Neomycin | HIV |
CP-LvC9NU-02 | CMV | eGFP | Neomycin | HIV |
CP-LvC9NU-08 | EF1α | N/A | Puromycin | HIV |
CP-LvC9NU-09 | EF1α | eGFP | Neomycin | HIV |
CP-LvC9NU-10 | EF1α | eGFP | Hygromycin | HIV |
订购
选择您需要的人或小鼠慢病毒骨架预制克隆。
慢病毒载体的编码基因克隆 |
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慢病毒载体的shRNA克隆 |
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慢病毒载体的miRNA前体及inhibitor克隆 |
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慢病毒载体的启动子克隆 |
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下载 |
Plasmid Prep Protocol for Lentiviral clones |
发表的文章
- Ho, H. et al (2013) RhoJ modulates melanoma invasion by altering actin cytoskeletal dynamics. Pigment Cell & Melanoma Research, Volume 26, Issue 2, pages 218–225, March 2013. [RhoJ, pEZX-Lv105].
- Su, H. et al (2013) Immediate expression of Cdh2 is essential for efficient neural differentiation of mouse induced pluripotent stem cells. Stem Cell Research, Volume 10, Issue 3, May 2013, Pages 338–348. [Nnat and Ptn, pReceiver-Lv156].
- Kim, S.J. et al (2013) Regulation of dendritic cell activation by microRNA let-7c and BLIMP1. Journal of Clinical Investigation, 2013 February 1; 123(2): 823–833. [mouse Blimp1, lentivirus vector].
- Zhu, S. et al (2013) Regulation of CXCR4-mediated invasion by DARPP-32 in gastric cancer cells. Molecular Cancer Research 11.1 (2013): 86-94. [Lentivirus expressing DARPP-32, short hairpin RNA (shRNA)-DARPP-32, or control shRNA].
- Georges, S. et al (2013) A Disintegrin And Metalloproteinase 12 produced by tumour cells accelerates osteosarcoma tumour progression and associated osteolysis. European Journal of Cancer, online 13 March 2013. [Mouse ADAM12 gene and negative control, catalog#’s EX-Mm24235-Lv105, EX-EGFP-Lv105].
- Shinojima, N. et al (2013) TGF-β Mediates Homing of Bone Marrow-Derived Human Mesenchymal Stem Cells to Glioma Stem Cells. Cancer research, doi: 10.1158/0008-5472.CAN-12-3086. [pEZ-Lv105-TGFβ].
- Al-Zoubi, M. et al (2013) Creating a tumor-resistant microenvironment: Cell-mediated delivery of TNFα completely prevents breast cancer tumor formation in vivo. Cell Cycle, Volume 12, Issue 3 February 1, 2013. [Empty vector, TNFα, TNFR-1A, TNFR-1B; catalog#'s EX-NEG-Lv105, EX-A0276-Lv105, EX-Z2785-Lv105, EX-A0254-Lv105].
- Kregel, S. et al (2013) Sox2 Is an Androgen Receptor-Repressed Gene That Promotes Castration-Resistant Prostate Cancer. PloS one, 8(1): e53701. doi:10.1371/journal.pone.0053701. [Lentiviral Sox2, AR, and Control vectors (pReceiver-Lv105)].
- Sanchez-Alvarez, R. at al (2013) Mitochondrial dysfunction in breast cancer cells prevents tumor growth: Understanding chemoprevention with metformin. Cell Cycle, Volume 12, Issue 1, January 1, 2013 Pages 172-182. [Lentiviral plasmids, packaging cells and reagents].