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-213309-100
Lentiviral human CRYGA 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-213309-10ug
Lentiviral human CRYGA 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-213309-25GFP
Lentiviral human CRYGA 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-213309-100GFP
Lentiviral human CRYGA 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-213309-10ugGFP
Lentiviral human CRYGA 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-213309-25RFP
Lentiviral human CRYGA 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-213309-100RFP
Lentiviral human CRYGA 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-213309-10ugRFP
Lentiviral human CRYGA 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-213309-25iRFP
Lentiviral human CRYGA 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-213309-100iRFP
Lentiviral human CRYGA 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-213309-10ugiRFP
Lentiviral human CRYGA 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
CRYGA
Synonyms
CRY-g-A CRYG1 CRYG5
Species
human
Gene ID
1418
Summary
Crystallins are separated into two classes: taxon-specific, or enzyme, and ubiquitous. The latter class constitutes the major proteins of vertebrate eye lens and maintains the transparency and refractive index of the lens. Since lens central fiber cells lose their nuclei during development, these crystallins are made and then retained throughout life, making them extremely stable proteins. Mammalian lens crystallins are divided into alpha, beta, and gamma families; beta and gamma crystallins are also considered as a superfamily. Alpha and beta families are further divided into acidic and basic groups. Seven protein regions exist in crystallins: four homologous motifs, a connecting peptide, and N- and C-terminal extensions. Gamma-crystallins are a homogeneous group of highly symmetrical, monomeric proteins typically lacking connecting peptides and terminal extensions. They are differentially regulated after early development. Four gamma-crystallin genes (gamma-A through gamma-D) and three pseudogenes (gamma-E, gamma-F, gamma-G) are tandemly organized in a genomic segment as a gene cluster. Whether due to aging or mutations in specific genes, gamma-crystallins have been involved in cataract formation. [provided by RefSeq, Jul 2008].
