2nd Generation Packaging Mix

Cat. No.
LV003
Unit
200 µl
Price
$293.00

Cat. No. LV003
Name 2nd Generation Packaging Mix
Unit 200 µl
Description

abm’s Second Generation lentivirus packaging plasmid mix offers a high-safety, high-efficiency solution for lentivirus production. This system requires three plasmids for viral particle production:

1) Transfer Plasmid containing your gene of interest.
2) Packaging Plasmid containing structural proteins Gag, Pol, Tat, Rev.
3) Envelope Plasmid containing transmembrane glycoprotein VSV-G.

The ready-to-use 2nd Generation Packaging Mix combines optimized Packaging and Envelope Plasmids for high viral titers, enhanced biosafety and reliable gene delivery performance.

Product Mix Component Vector Map
pLenti-P2A Click to view
pLenti-P2B Click to view
Applications

Storage Condition -20°C or below.
Promotions

Bundle up, save more!  These cost-saving bundles combine our best-selling Lentivirus Packaging Mix with reagents for transfection, virus titration and transduction!
Material Citation If use of this material results in a scientific publication, please cite the material in the following manner: Applied Biological Materials Inc, Cat. No. LV003
Datasheet
  • Jin, Q et al. "Decreased Tumor Progression and Invasion by a Novel Anti-Cell Motility Target for Human Colorectal Carcinoma Cells" PLoS ONE 8(6):e66439 (2013). DOI: doi:10.1371/journal.pone.0066439.
  • Pae, EK;Kim, G;, et al. "Insulin production hampered by intermittent hypoxia via impaired zinc homeostasis" PLoS ONE 9-2:e90192 (2014). PubMed: 24587273.
  • Jin, Q;Liu, G;Domeier, PP;Ding, W;Mulder, KM;, et al. "Decreased tumor progression and invasion by a novel anti-cell motility target for human colorectal carcinoma cells" PLoS ONE 8-6:e66439 (2013). PubMed: 23755307.
  • Taylor, HE et al. "The Innate Immune Factor Apolipoprotein L1 Restricts HIV-1 Infection" J. Virol. 1:592-603 (2014). DOI: 10.1128/JVI.02828-13. PubMed: 24173214. Application: Viral Packaging.
  • Morgan, S. "PKA as the Effector of Beta-2-Adrenoreceptor Signaling Regulating Airway Smooth Muscle Relaxation" Thesis : (2013). Application: Viral Packaging.
  • Li, FY et al. "Second messenger role for Mg2+ revealed by human T-cell immunodeficiency" Nature 475:471 - 6 (2011). DOI: 10.1038/nature10246. PubMed: 21796205. Application: Transfection.
  • George, R et al. "A SHORT INTERFERING RNA MOLECULAR BEACON FOR THE ATTENUATION OF MYCOBACTERIAL INFECTION" American Journal of Biochemistry and Biotechnology 10:40-49 (2014). DOI: 10.3844/ajbbsp.2014.40.49. Application: Viral Packaging.
  • Pae, E. K. et al. "Insulin Production Hampered by Intermittent Hypoxia Via Impared Zinc Homeostasis " PLoS One 2:e90192 (2014). DOI: 10.1371/journal.pone.0090192. PubMed: 24587273. Application: Lentivirus Production .
  • Zhang, J et al. "The construction and proliferative effects of a lentiviral vector capable of stably overexpressing SPINK1 gene in human pancreatic cancer AsPC-1 cell line" Tumour Biol. :1-9 (2015). PubMed: 26586397.
  • Morgan, SJ et al. "β-Agonist-mediated relaxation of airway smooth muscle is protein kinase A-dependent" J Biol Chem 289(33):23065-74 (2014). DOI: 10.1074/jbc.M114.557652. PubMed: 24973219.
  • Juang, YL et al. "PRRX2 as a novel TGF-β-induced factor enhances invasion and migration in mammary epithelial cell and correlates with poor prognosis in breast cancer" Mol Carcinog : (2016). DOI: 10.1002/mc.22465. PubMed: 26824226.
  • Nangami, et al. "Fetuin-A (alpha 2HS glycoprotein) modulates growth, motility, invasion, and senescence in high-grade astrocytomas" Cancer Medicine : (2016). DOI: 10.1002/cam4.940. Application: Knockdown of Cell Line.
  • Juang, YL et al. "PRRX2 as a novel TGF-β-induced factor enhances invasion and migration in mammary epithelial cell and correlates with poor prognosis in breast cancer" Molecular Carcinogenesis 55.12:2247–2259 (2016). DOI: 10.1002/mc.22465. Application: Packaging.
  • Zhang, et al. "The construction and proliferative effects of a lentiviral vector capable of stably overexpressing SPINK1 gene in human pancreatic cancer AsPC-1 cell line" Tumour Biology 37.5:5847 (2016). DOI: 10.1007/s13277-015-4405-z. Application: Generation of lentiviral vectors.
  • Geekiyanage, H et al. "MiR-31 and miR-128 regulates poliovirus receptor-related 4" Mol Oncol 9:1387-1403 (2016). DOI: 10.1016/j.molonc.2016.07.007.
  • Cho, I. S., Gupta, P., Mostafazadeh, N., Wong, S. W., Saichellappa, S., Lenzini, S., Peng, Z., & Shin, J. (2022). Deterministic Single Cell Encapsulation in Asymmetric Microenvironments to Direct Cell Polarity. Advanced Science, 10(3). https://doi.org/10.1002/advs.202206014
  • Li, H., Kanamori, Y., & Moroishi, T. (2024). Cell attachment defines sensitivity to cold stress via the Hippo pathway. Biochemical and Biophysical Research Communications, 730, 150373. https://doi.org/10.1016/j.bbrc.2024.150373
  • Wang, L., Huang, M., Zhang, S., Yang, Y., & Huang, B. (2023). NFATc2 promotes lactate and M2 macrophage polarization through USP17 in lung adenocarcinoma. https://doi.org/10.21203/rs.3.rs-3412110/v1
  • Janneh, A. H., Kassir, M. F., Atilgan, F. C., Lee, H. G., Sheridan, M., Oleinik, N., ... & Ogretmen, B. (2022). Crosstalk between pro-survival sphingolipid metabolism and complement signaling induces inflammasome-mediated tumor metastasis. Cell Reports, 41(10), 111742. https://doi.org/10.1016/j.celrep.2022.111742
  • Lenzini, S., Bargi, R., Chung, G., & Shin, J.-W. (2020). Matrix mechanics and water permeation regulate extracellular vesicle transport. Nature Nanotechnology, 15(3), 217–223. https://doi.org/10.1038/s41565-020-0636-2
  • Zhou, N., Tian, Y., Wu, H., Cao, Y., Li, R., Zou, K., Xu, W., & Lu, L. (2022). Protective Effect of Resveratrol on Immortalized Duck Intestinal Epithelial Cells Exposed to H2O2. Molecules, 27(11), 3542. https://doi.org/10.3390/molecules27113542
  • Zhou, N., Tian, Y., Wu, H., Cao, Y., Li, R., Zou, K., Xu, W., & Lu, L. (2022). Protective Effect of Resveratrol on Immortalized Duck Intestinal Epithelial Cells Exposed to H2O2. Molecules, 27(11), 3542. https://doi.org/10.3390/molecules27113542
  • He, P., Jiang, F., Wu, L.-F., Zhou, X., Lei, S.-F., & Deng, F.-Y. (2021). Why SNP rs3755955 is associated with human bone mineral density? A molecular and cellular study in bone cells. Molecular and Cellular Biochemistry, 477(2), 455–468. https://doi.org/10.1007/s11010-021-04292-1
  • Habib, K., Bishayee, K., Kang, J., Sadra, A., & Huh, S.-O. (2022). RNA Binding Protein Rbms1 Enables Neuronal Differentiation and Radial Migration during Neocortical Development by Binding and Stabilizing the RNA Message for Efr3a. Molecules and Cells, 45(8), 588–602. https://doi.org/10.14348/molcells.2022.0044
  • Papes, F., Camargo, A. P., de Souza, J. S., Carvalho, V. M. A., Szeto, R. A., LaMontagne, E., Teixeira, J. R., Avansini, S. H., Sánchez-Sánchez, S. M., Nakahara, T. S., Santo, C. N., Wu, W., Yao, H., Araújo, B. M. P., Velho, P. E. N. F., Haddad, G. G., & Muotri, A. R. (2022). Transcription Factor 4 loss-of-function is associated with deficits in progenitor proliferation and cortical neuron content. Nature Communications, 13(1). https://doi.org/10.1038/s41467-022-29942-w
  • Wang, Z., Snyder, M., Kenison, J. E., Yang, K., Lara, B., Lydell, E., Bennani, K., Novikov, O., Federico, A., Monti, S., & Sherr, D. H. (2020). How the AHR Became Important in Cancer: The Role of Chronically Active AHR in Cancer Aggression. International Journal of Molecular Sciences, 22(1), 387. https://doi.org/10.3390/ijms22010387
  • Pinto, C., Slavic-Obradovic, K., Fürweger, D., Thaler, B., Souabni, A., Carotta, S., Aichinger, M., Reiser, U., Impagnatiello, M. A., & Tirapu, I. (2023). Tumor microenvironment mimicking 3D models unveil the multifaceted effects of SMAC mimetics. IScience, 26(4), 106381. https://doi.org/10.1016/j.isci.2023.106381
  • HU, N., ZHANG, S., JIN, A., GUO, L., QU, Z., & WANG, J. (2022). SPINK1 contributes to proliferation and clonal formation of HT29 cells through Beclin1 associated enhanced autophagy. Oncology Research, 30(2), 89–97. https://doi.org/10.32604/or.2022.027058
  • Zhang, S., Lv, C., Niu, Y., Li, C., Li, X., Shang, Y., Zhang, Y., Zhang, Y., Zhang, Y., & Zeng, Y. (2023). RBM3 suppresses stemness remodeling of prostate cancer in bone microenvironment by modulating N6-methyladenosine on CTNNB1 mRNA. Cell Death & Disease, 14(2). https://doi.org/10.1038/s41419-023-05627-0
  • Zhu, S., Al-Mathkour, M., Cao, L., Khalafi, S., Chen, Z., Poveda, J., Peng, D., Lu, H., Soutto, M., Hu, T., McDonald, O. G., Zaika, A., & El-Rifai, W. (2023). CDK1 bridges NF-κB and β-catenin signaling in response to H. pylori infection in gastric tumorigenesis. Cell Reports, 42(1), 112005. https://doi.org/10.1016/j.celrep.2023.112005
  • Suzuki, H., Nagase, S., Saito, C., Takatsuka, A., Nagata, M., Honda, K., Kaneda, Y., Nishiya, Y., Honda, T., Ishizaka, T., Nakamura, K., Nakada, T., Abe, Y., & Agatsuma, T. (2024). Data from Raludotatug Deruxtecan, a CDH6-Targeting Antibody–Drug Conjugate with a DNA Topoisomerase I Inhibitor DXd, Is Efficacious in Human Ovarian and Kidney Cancer Models. https://doi.org/10.1158/1535-7163.c.7104454.v1
  • Cao, L., Lin, G., Fan, D., Weng, K., Chen, Y., Wang, J., Li, P., Zheng, C., Huang, C., & Xie, J. (2024). NUAK1 activates STAT5/GLI1/SOX2 signaling to enhance cancer cell expansion and drives chemoresistance in gastric cancer. Cell Reports, 43(7), 114446. https://doi.org/10.1016/j.celrep.2024.114446
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