Lentiviral particles or plasmids for 3 unique target specific shRNA and 1 scramble shRNA, RT-PCR primer mix for target specific gene and a housekeeping gene
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, 25 ul each, functional titer of 1x10^8 TU/ml
$980.00
HSH-225879-100
Lentiviral human PSMC2 shRNA (UBC) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,190.00
HSH-225879-10ug
Lentiviral human PSMC2 shRNA (UBC) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, 10 ug each
$1,290.00
HSH-225879-25GFP
Lentiviral human PSMC2 shRNA (UBC,GFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a GFP reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$980.00
HSH-225879-100GFP
Lentiviral human PSMC2 shRNA (UBC,GFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a GFP reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,190.00
HSH-225879-10ugGFP
Lentiviral human PSMC2 shRNA (UBC,GFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a GFP reporter, 10 ug each
$1,290.00
HSH-225879-25RFP
Lentiviral human PSMC2 shRNA (UBC,RFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a RFP reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$980.00
HSH-225879-100RFP
Lentiviral human PSMC2 shRNA (UBC,RFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a RFP reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,190.00
HSH-225879-10ugRFP
Lentiviral human PSMC2 shRNA (UBC,RFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a RFP reporter, 10 ug each
$1,290.00
HSH-225879-25iRFP
Lentiviral human PSMC2 shRNA (UBC,iRFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a miRFP670 reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$980.00
HSH-225879-100iRFP
Lentiviral human PSMC2 shRNA (UBC,iRFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a miRFP670 reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,190.00
HSH-225879-10ugiRFP
Lentiviral human PSMC2 shRNA (UBC,iRFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the UBC promoter, with a miRFP670 reporter, 10 ug each
$1,290.00
Product Details
Target gene information
Gene symbol
PSMC2
Synonyms
MSS1 Nbla10058 S7
Species
human
Gene ID
5701
Summary
The 26S proteasome is a multicatalytic proteinase complex with a highly ordered structure composed of 2 complexes, a 20S core and a 19S regulator. The 20S core is composed of 4 rings of 28 non-identical subunits; 2 rings are composed of 7 alpha subunits and 2 rings are composed of 7 beta subunits. The 19S regulator is composed of a base, which contains 6 ATPase subunits and 2 non-ATPase subunits, and a lid, which contains up to 10 non-ATPase subunits. Proteasomes are distributed throughout eukaryotic cells at a high concentration and cleave peptides in an ATP/ubiquitin-dependent process in a non-lysosomal pathway. An essential function of a modified proteasome, the immunoproteasome, is the processing of class I MHC peptides. This gene encodes one of the ATPase subunits, a member of the triple-A family of ATPases which have a chaperone-like activity. This subunit has been shown to interact with several of the basal transcription factors so, in addition to participation in proteasome functions, this subunit may participate in the regulation of transcription. This subunit may also compete with PSMC3 for binding to the HIV tat protein to regulate the interaction between the viral protein and the transcription complex. Alternative splicing results in multiple transcript variants encoding distinct isoforms. [provided by RefSeq, Mar 2011].
