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Human HSP90AA1 ORF mammalian expression plasmid, C-Flag tag

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Human HSP90AA1 cDNA Clone Product Information
RefSeq ORF Size:2199bp
cDNA Description:Full length Clone DNA of Homo sapiens heat shock protein 90kDa alpha (cytosolic), class A member 1 with C terminal Flag tag.
Gene Synonym:HSPN, LAP2, HSP86, HSPC1, HSPCA, Hsp89, Hsp90, HSP89A, HSP90A, HSP90N, HSPCAL1, HSPCAL4, FLJ31884, HSP90AA1
Restriction Site:KpnI + XbaI (6kb + 2.25kb)
Sequence Description:Identical with the Gene Bank Ref. ID sequence except for the point mutation: 1080 C>T not causing the amino acid variation.
Promoter:Enhanced CMV mammalian cell promoter
Application:Stable or Transient mammalian expression
Antibiotic in E.coli:Kanamycin
Antibiotic in mammalian cell:Hygromycin
Shipping_carrier:Each tube contains lyophilized plasmid.
Storage:The lyophilized plasmid can be stored at room temperature for three months.
Human HSP90AA1 Gene Plasmid Map
Human HSP90AA1 Gene cDNA Clone (full-length ORF Clone), expression ready, C-FLAG-tagged
Human HSP90AA1 Gene Expression validated Image
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The plasmid was transfected into 293H adherent cells with Sinofection reagent (Cat# STF01). After 48 h, Immunofluorescence staining of cells. Cells were fixed with 4% PFA, permeabilzed with 0.3% Triton X-100 in PBS, blocked with 10% serum, and incubated with Mouse anti-Flag Tag monoclonal antibody (CST#8146S) at 37℃ 1 hour. Then cells were stained with Goat Anti-mouse IgG secondary antibody. The fluorescent signal is detected by fluorescence microscope. Each expression experiment has negative control.
Human HSP90AA1 natural ORF mammalian expression plasmid, C-Flag tag
FLAG Tag Info

FLAG-tag, or FLAG octapeptide, is a polypeptide protein tag that can be added to a protein using recombinant DNA technology. It can be used for affinity chromatography, then used to separate recombinant, overexpressed protein from wild-type protein expressed by the host organism. It can also be used in the isolation of protein complexes with multiple subunits.

A FLAG-tag can be used in many different assays that require recognition by an antibody. If there is no antibody against the studied protein, adding a FLAG-tag to this protein allows one to follow the protein with an antibody against the FLAG sequence. Examples are cellular localization studies by immunofluorescence or detection by SDS PAGE protein electrophoresis.

The peptide sequence of the FLAG-tag from the N-terminus to the C-terminus is: DYKDDDDK (1012 Da). It can be used in conjunction with other affinity tags, for example a polyhistidine tag (His-tag), HA-tag or Myc-tag. It can be fused to the C-terminus or the N-terminus of a protein. Some commercially available antibodies (e.g., M1/4E11) recognize the epitope only when it is present at the N-terminus. However, other available antibodies (e.g., M2) are position-insensitive.

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Heat shock protein 90 (90 kDa heat-shock protein, HSP90) is a molecular chaperone involved in the trafficking of proteins in the cell. It is a remarkably versatile protein involved in the stress response and in normal homoeostatic control mechanisms. HSP90 interacts with 'client proteins', including protein kinases, transcription factors and others, and either facilitates their stabilization and activation or directs them for proteasomal degradation. By this means, HSP90 displays a multifaceted ability to influence signal transduction, chromatin remodelling and epigenetic regulation, development and morphological evolution. HSP90 operates as a dimer in a conformational cycle driven by ATP binding and hydrolysis at the N-terminus. Disruption of HSP90 leads to client protein degradation and often cell death. Under stressful conditions, HSP90 stabilizes its client proteins and provides protection to the cell against cellular stressors such as in cancer cells. Especially, several oncoproteins act as HSP90 client proteins and tumor cells require higher HSP90 activity than normal cells to maintain their malignancy. For this reason, Hsp90 has emerged as a promising target for anti-cancer drug development.

  • Pearl LH, et al. (2008) The Hsp90 molecular chaperone: an open and shut case for treatment. Biochem J. 410(3): 439-53.
  • Hahn JS. (2009) The Hsp90 chaperone machinery: from structure to drug development. BMB Rep. 42(10): 623-30.
  • Holzbeierlein JM, et al. (2010) Hsp90: a drug target? Curr Oncol Rep. 12(2): 95-101.
  • Trepel J, et al. (2010) Targeting the dynamic HSP90 complex in cancer. Nat Rev Cancer. 10(8): 537-49.
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    Catalog: HG11445-CF
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