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ANXA9 Lentiviral Vector (Human) (CMV) (pLenti-GIII-CMV-GFP-2A-Puro)

Anxa9 lentiviral vector (human) (cmv) (plenti-giii-cmv-gfp-2a-puro) Catalog: LV076791 | Size: 1.0 µg DNA | Price: €387.23 Supplier: ABM lentivectors ASK
DNA lentivector for transduction information: Lentiveral packaging plasmid DNA for non-viral plasmid transfection and direct use in plasmid expression. This DNA can alos be used for packaging into Lentiviral particles for high efficiency transduction and stably integrated expressions. GENTAUR suggests to use our ABM packaging mix LV003 of second generation virusses or the LV053, our 3rd Generation Packaging mixture. pLenti lentiviral plasmids DNAs are stored in 10milliMolar Tris/HCI with 1mM EDTA at a pH of 8 at -25 C. Vectors with selection markers like kanamycin, puromycin or cumate are available. Lentiviral technical files: <a href="https://www.abmgood.com/UbC-Lentivirus-System.html" target="_blank" title="https://www.abmgood.com/UbC-Lentivirus-System.html"><i class="fa fa-external-link" aria-hidden="true"></i></a> Lentivirus references: <a href="http://compbio.dfci.harvard.edu/compbio/research/labprotocols/contentBlocks/0/contentBlock_files/file15/Lentivirus_Production_and_Transfection_Protocol.pdf" target="_blank" title="http://compbio.dfci.harvard.edu/compbio/research/labprotocols/contentBlocks/0/contentBlock_files/file15/Lentivirus_Production_and_Transfection_Protocol.pdf"><i class="fa fa-external-link" aria-hidden="true"></i></a>

ANXA9 gene: annexin A9

ANX31

Summary

The annexins are a family of calcium-dependent phospholipid-binding proteins. Members of the annexin family contain 4 internal repeat domains, each of which includes a type II calcium-binding site. The calcium-binding sites are required for annexins to aggregate and cooperatively bind anionic phospholipids and extracellular matrix proteins. This gene encodes a divergent member of the annexin protein family in which all four homologous type II calcium-binding sites in the conserved tetrad core contain amino acid substitutions that ablate their function. However, structural analysis suggests that the conserved putative ion channel formed by the tetrad core is intact. [provided by RefSeq, Jul 2008]

Organism: human (Homo sapiens)