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 human synapsin 1 gene promoter, 25 ul each, functional titer of 1x10^8 TU/ml
$1,190.00
HSH-911189-100
Lentiviral human PPP1R15B shRNA (Synapsin) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,690.00
HSH-911189-10ug
Lentiviral human PPP1R15B shRNA (Synapsin) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, 10 ug each
$1,490.00
HSH-911189-25GFP
Lentiviral human PPP1R15B shRNA (Synapsin,GFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a GFP reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$1,190.00
HSH-911189-100GFP
Lentiviral human PPP1R15B shRNA (Synapsin,GFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a GFP reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,690.00
HSH-911189-10ugGFP
Lentiviral human PPP1R15B shRNA (Synapsin,GFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a GFP reporter, 10 ug each
$1,490.00
HSH-911189-25RFP
Lentiviral human PPP1R15B shRNA (Synapsin,RFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a RFP reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$1,190.00
HSH-911189-100RFP
Lentiviral human PPP1R15B shRNA (Synapsin,RFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a RFP reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,690.00
HSH-911189-10ugRFP
Lentiviral human PPP1R15B shRNA (Synapsin,RFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a RFP reporter, 10 ug each
$1,490.00
HSH-911189-25iRFP
Lentiviral human PPP1R15B shRNA (Synapsin,iRFP) (25)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a miRFP670 reporter, 25 ul each, functional titer of 1x10^8 TU/ml
$1,190.00
HSH-911189-100iRFP
Lentiviral human PPP1R15B shRNA (Synapsin,iRFP) (100)
Lentiviral particles for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a miRFP670 reporter, 4x25 ul each, functional titer of 1x10^8 TU/ml
$2,690.00
HSH-911189-10ugiRFP
Lentiviral human PPP1R15B shRNA (Synapsin,iRFP) plasmid
Lentiviral constructs for 3 unique target specific shRNA and 1 scramble shRNA driven by the human synapsin 1 gene promoter, with a miRFP670 reporter, 10 ug each
$1,490.00
Product Details
Target gene information
Gene symbol
PPP1R15B
Synonyms
CREP MSSGM2
Species
human
Gene ID
84919
Summary
This gene encodes a protein phosphatase I-interacting protein that promotes the dephosphorylation of eukaryotic translation initiation factor 2A to regulate translation under conditions of cellular stress. The transcribed messenger RNA contains two upstream open reading frames (ORFs) that repress translation of the main protein coding ORF under normal conditions, while the protein coding ORF is expressed at high levels in response to stress. Continual translation of the mRNA under conditions of eukaryotic translation initiation factor 2A inactivation is thought to create a feedback loop for reactivation of the gene during recovery from stress. In addition, it has been shown that this protein plays a role in membrane traffic that is independent of translation and that it is required for exocytosis from erythroleukemia cells. Allelic variants of this gene are associated with microcephaly, short stature, and impaired glucose metabolism. [provided by RefSeq, Feb 2016].
