EXCEED THE SPACE PROVIDED. Microbes responsible for infectious disease outbreaks – from either natural, e.g., multidrug-resistant Staphylococcus aureus, or bioterrorism, e.g.,anthrax, causes – are typically virulent forms of a single species.
Population genomics, which is the study of intraspecific variations of a single microbial species, is therefore a key to uncovering virulence factors and disease-causing mechanisms, as well as tracking the sources of microbial disease. The Evolutionary Informatics Lab at Hunter College is a vital partner in a multi- institutional team of comparative genomics of Borrelia burgdorferi, the Lyme disease agent.
We are responsible for the bioinformatics system development and evolutionary statistical analysis, including experimental design, data processing and warehousing, and evolutionary analysis. Through evolutionary statistical analysis our lab discovered a surprisingly high amount of genetic exchange and plasmid transfer in B. burgdorferi. To continue our success in characterizing the population structure of pathogenic bacteria based on comparative genomics, I propose a 5-years project to develop a bioinformatics infrastructure dedicated to the analysis of population variations of pathogenic microbes.
Pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E07A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Porcine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E07A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Porcine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E07A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Porcine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Dog Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E08A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Canine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Dog Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E08A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Canine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Dog Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E08A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Canine Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A43800 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E06A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E06A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E06A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Goat Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Human Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A0116 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Human Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E01A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Human Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Human Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E01A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Human Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Sheep Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A96093 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E03A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E03A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E03A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Mouse Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A17621 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Canine Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A61235 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A26368 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E04A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E04A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E04A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Rabbit Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Bovine Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A78664 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A69947 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E09A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E09A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E09A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Monkey Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Porcine Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A52517 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Guinea Pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A35082 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Chicken Adeno Associated Virus type 2 Antibody (AAV2-Ab) Elisa kit |
E01A87390 |
BlueGene |
96T |
EUR 700 |
Description: ELISA |
Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E05A0397-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E05A0397-48 |
BlueGene |
1 plate of 48 wells |
EUR 624 |
|
Description: A competitive ELISA for quantitative measurement of Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) ELISA kit |
E05A0397-96 |
BlueGene |
1 plate of 96 wells |
EUR 822 |
|
Description: A competitive ELISA for quantitative measurement of Guinea pig Adeno Associated Virus type 2 Antibody (AAV2-Ab) in samples from blood, plasma, serum, cell culture supernatant and other biological fluids. This is a high quality ELISA kit developped for optimal performance with samples from the particular species. |
AAV-293 Cell Line |
CL-0019 |
Elabscience Biotech |
1×10⁶ cells/vial |
EUR 420 |
|
Description: Homo sapiens, Human |
AAV-293 Cells Complete Medium |
CM-0019-125mL4 |
Elabscience Biotech |
125 mL×4 |
EUR 98 |
Description: Complete Growth Medium |
AAV-293 Cells Complete Medium |
CM-0019 |
Elabscience Biotech |
125mL×4 |
EUR 98 |
|
Description: Cell lines complete growth medium |
saCas9 Nuclease AAV Virus (AAV10) |
K217 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV11) |
K218 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
AAV-1 Helper Free Packaging System |
VPK-401 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-1 Helper Free Expression System |
VPK-410-SER1 |
Cell Biolabs |
1 kit |
EUR 1055 |
saCas9 Nuclease AAV Virus (AAV4) |
K211 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV5) |
K212 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV1) |
K208 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV2) |
K209 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV3) |
K210 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV6) |
K213 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV7) |
K214 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV8) |
K215 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
saCas9 Nuclease AAV Virus (AAV9) |
K216 |
ABM |
2 x 250 µl, 1 x 10^9 GC/ml, Titer: 1 x 10^9 GC/ml |
EUR 375 |
Description: This AAV vector expresses the Cas9 orthologue from Staphylococcus Aureus (saCas9). saCas9 is ~1 kb shorter than spCas9, allowing it to be efficiently packaged in AAV Virus. Furthermore, the saCas9 enzyme recognizes a longer PAM sequence than spCas9, and thus has greater editing specificity.AAV has low immunogenicity and broad host range, making it an ideal choice for both in vivo and in vitro applications. Use this saCas9-expressing AAV virus with a target-specific saCas9-compatible sgRNA for highly specific and efficient genome editing. |
AAV1 ELISA Kit |
55R-PROPRAAV1 |
Fitzgerald |
96 tests |
EUR 1153 |
Description: ELISA kit for detection of AAV1 in the research laboratory |
AAV5 ELISA Kit |
55R-PROPRAAV5 |
Fitzgerald |
96 tests |
EUR 1176 |
Description: ELISA kit for detection of AAV5 in the research laboratory |
AAV1 SaCas9 |
78479 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 1 (AAV1) exhibits high homology with other AAV serotypes. AAV1 efficiently transduces muscle tissue, as determined by a region of the capsid protein VP1 (amino acids 350 to 430) which functions as a major determinant of tissue tropism._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV2 SaCas9 |
78480 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 2 (AAV2) is the best characterized AAV serotype. Nearly all recombinant AAV serotypes utilize the AAV2 inverted terminal repeats (ITRs). AAV2 requires the expression of Heparan Sulfate Proteoglycan (HSPG) on the surface of host for cells for binding and internalization. Of nearly all the discovered AAV serotypes, AAV2 has the best transduction efficiency in cell culture and is the best tool for in vitro studies._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. The protein contains a C-terminus HA tag. |
AAV3 SaCas9 |
78481 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 3 (AAV3) shares 82% sequence homology with AAV2, and like AAV2, requires the Heparan Sulfate Proteoglycan (HSPG) receptor for cell attachment. AAV3 vectors transduce human liver cancer cells extremely efficiently because AAV3 utilizes the human Hepatocyte Growth Factor Receptor (hHGFR) as a co-receptor for viral entry, which is highly expressed in these cells. Both the extracellular and intracellular kinase domains of hHGFR are required for AAV3-mediated transgene expression._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV5 SaCas9 |
78483 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 5 (AAV5) differs from other parvovirus serotypes according to serological and DNA hybridization data, and AAV5 also uses different inverted terminal repeats (ITRs) compared to other AAV serotypes. AAV5 is the most efficient vector for transducing sensory neurons and is good at mediating gene transfer into human and murine airway epithelia. In addition, AAV5 vectors show a higher tropism for both mouse and human dendritic cells than AAV1, AAV2, AAV7, or AAV8._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV6 SaCas9 |
78484 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 6 (AAV6) appears to be related to AAV1 by sequence analysis and shows the best transduction efficiency in pancreatic beta-cells compared to other AAV serotypes. AAV6 vectors are also particularly effective in the transduction of human prostate, breast, and liver cancer cells._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV8 SaCas9 |
78485 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 8 (AAV8) was isolated from rhesus monkey tissue, and the AAV8 rep and cap nucleotide sequences have 88% homology with AAV7 and 82% with AAV2. AAV8 exhibits greater transduction efficiency in the liver than other AAV serotypes. AAV8 and 9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV9 SaCas9 |
78486 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 9 (AAV9) is one of the most promising serotypes for gene therapy applications. AAV9 transduces a wide range of tissue types, including cardiac and skeletal muscle, and liver, pancreas, and eye tissue. AAV8 and AAV9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy. AAV9 has significantly lower seroprevalence in the human population than other AAV serotypes, making AAV9 a desirable candidate for therapeutic applications._x000D_Cas9 is an endonuclease enzyme that introduces a double stranded break into the DNA when recruited to a specific DNA sequence by the sgRNA (single guide RNA). This double stranded break is repaired in mammalian cells either through Non-Homologous End Joining or Homologous Recombination. Non-Homologous End Joining often results in the deletion or insertion of several base pairs at the cut site, which, when resulting in a frameshift, causes the functional inactivation of the gene._x000D_SaCas9 (Staphylococcus aureus CRISPR-associated protein 9) has demonstrated high cutting efficiency in mammalian cells, and its smaller size makes it ideal for packaging into AAV. SaCas9 recognizes a longer protospacer adjacent motif (PAM) site, 5'-NNGRRT-3', than the more traditional SpCas9 (Streptococcus pyogenes CRISPR-associated protein 9). These AAV particles constitutively express SaCas9 under the control of a CMV promoter. |
AAV-1 Helper Free Promoterless Expression System |
VPK-411-SER1 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV1 ZsGreen |
78443 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 1 (AAV1) exhibits high homology with other AAV serotypes. AAV1 efficiently transduces muscle tissue, as determined by a region of the capsid protein VP1 (amino acids 350 to 430) which functions as a major determinant of tissue tropism._x000D_These AAV1 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and AAV1 transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV2 ZsGreen |
78444 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 2 (AAV2) is the best characterized AAV serotype. Nearly all recombinant AAV serotypes utilize the AAV2 inverted terminal repeats (ITRs). AAV2 requires the expression of Heparan Sulfate Proteoglycan (HSPG) on the surface of host cells for cell binding and internalization. Of nearly all the discovered AAV serotypes, AAV2 has the best transduction efficiency in cell culture and is the best tool for in vitro studies._x000D_These AAV2 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV3 ZsGreen |
78445 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 3 (AAV3) shares 82% sequence homology with AAV2, and like AAV2, requires Heparan Sulfate Proteoglycan (HSPG) for cellular attachment. AAV3 vectors transduce human liver cancer cells extremely efficiently because AAV3 utilizes the human Hepatocyte Growth Factor Receptor (hHGFR) as a co-receptor for viral entry, which is highly expressed in these cells. Both the extracellular domain and the intracellular kinase domain of hHGFR are required for AAV3-mediated transgene expression._x000D_These AAV3 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and AAV3 transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV4 ZsGreen |
78446 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 4 (AAV4) contains an expanded p5 promoter region compared to either AAV2 or AAV3. The AAV4 Rep gene product shows greater than 90% homology with the Rep products of AAV2 and AAV3. AAV4 can transduce human, monkey, and rat cells, and efficiently transduces type B astrocytes in the subventricular zone and glia overlying the rostral migratory stream neural tube._x000D_These AAV particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and AAV transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV5 ZsGreen |
78447 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 5 (AAV5) differs from other parvovirus serotypes according to serological and DNA hybridization data, and AAV5 also uses different inverted terminal repeats (ITRs) compared to other AAV serotypes. AAV5 is the most efficient vector for transducing sensory neurons and is good at mediating gene transfer to human and murine airway epithelia. In addition, AAV5 vectors show a higher tropism for mouse and human dendritic cells than AAV1, AAV2, AAV7, or AAV8._x000D_These AAV5 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV6 ZsGreen |
78448 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 6 (AAV6) appears to be related to AAV1 by sequence analysis and shows the best transduction efficiency in pancreatic beta-cells._x000D_These AAV6 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and AAV6 transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV8 ZsGreen |
78449 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 8 (AAV8) was first isolated from rhesus monkey tissue, and the AAV8 rep and cap nucleotide sequences have 88% homology with AAV7 and 82% with AAV2. AAV8 exhibits greater transduction efficiency in the liver than other AAV serotypes._x000D_These AAV8 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
AAV9 ZsGreen |
78450 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 9 (AAV9) is one of the most promising serotypes for gene therapy applications. AAV9 transduces a wide range of tissue types, including cardiac and skeletal muscles, liver, pancreas, and eye tissue. AAV9 has significantly lower seroprevalence in the human population than other AAV serotypes, making AAV9 a desirable candidate for therapeutic applications._x000D_These AAV9 particles constitutively express ZsGreen under a CMV promoter. ZsGreen is a human codon-optimized variant of the green fluorescent protein isolated from reef coral (Zoanthus sp). It has been engineered for higher expression in mammalian cells and is up to four times brighter than enhanced GFP (eGFP). ZsGreen expression and transduction efficiency can easily be verified and optimized by fluorescence microscopy or flow cytometry. ZsGreen has an excitation wavelength of 493 nm and an emission wavelength of 505 nm. |
Adeno-associated virus 2 (isolate Srivastava/1982) (AAV-2) Rep 68 Protein, His Tag |
RE8-A5243 |
ACROBIOSYSTEMS |
20ug |
EUR 2493.1 |
|
Description: Adeno-associated virus 2 (isolate Srivastava/1982) (AAV-2) Rep 68, His Tag (RE8-A5243) is expressed from human 293 cells (HEK293). It contains AA Met 1 - Leu 536 (Accession # P03132-1). |
AAV-1 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER1 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-1 Helper Free Bicistronic Expression System (GFP) |
VPK-418-SER1 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV9 antibody |
10-2852 |
Fitzgerald |
50 ug |
EUR 957 |
|
Description: Mouse monoclonal AAV9 antibody |
AAV8 antibody |
10R-2418S |
Fitzgerald |
50 ug |
EUR 778 |
|
Description: Mouse monoclonal AAV8 antibody |
AAV4 antibody |
10R-2443 |
Fitzgerald |
50 ug |
EUR 894 |
|
Description: Mouse monoclonal AAV 4 antibody |
AAV5 antibody |
10R-2444 |
Fitzgerald |
50 ug |
EUR 884 |
|
Description: Mouse monoclonal AAV 5 antibody |
AAV4 antibody |
10R-2470 |
Fitzgerald |
5 mL |
EUR 486 |
Description: Mouse monoclonal AAV 4 antibody |
AAV5 antibody |
10R-2471 |
Fitzgerald |
5 mL |
EUR 486 |
Description: Mouse monoclonal AAV 5 antibody |
AAV5 antibody |
10R-2472 |
Fitzgerald |
5 mL |
EUR 486 |
Description: Mouse monoclonal AAV 5 antibody |
AAV1 antibody |
10R-2473 |
Fitzgerald |
5 mL |
EUR 550.8 |
Description: Mouse monoclonal AAV1 antibody |
AAV6 antibody |
10R-2480 |
Fitzgerald |
5 mL |
EUR 549.6 |
Description: Mouse monoclonal AAV6 antibody |
AAV8 antibody |
10R-2481 |
Fitzgerald |
5 mL |
EUR 687 |
|
Description: Mouse monoclonal AAV8 antibody |
AAV8/9 antibody |
10R-2482 |
Fitzgerald |
5 mL |
EUR 686 |
|
Description: Mouse monoclonal AAV8/9 antibody |
AAV9 antibody |
10R-2483 |
Fitzgerald |
5 mL |
EUR 636 |
|
Description: Mouse monoclonal AAV9 antibody |
AAV9 antibody |
10R-2483S |
Fitzgerald |
50 ug |
EUR 957 |
|
Description: Mouse monoclonal AAV9 antibody |
AAV8 antibody |
10R-3126 |
Fitzgerald |
100 uL |
EUR 974.4 |
Description: Mouse monoclonal AAV8 antibody |
AAV2 antibody |
10R-A111a |
Fitzgerald |
50 ug |
EUR 917 |
|
Description: Mouse monoclonal AAV2 antibody |
AAV2 antibody |
10R-A140a |
Fitzgerald |
50 ug |
EUR 1069 |
|
Description: Mouse monoclonal AAV2 antibody |
AAV5 antibody |
20R-2587 |
Fitzgerald |
250 uL |
EUR 908 |
|
Description: Rabbit polyclonal AAV 5 antibody |
AAV5 antibody |
70R-AR002 |
Fitzgerald |
100 ug |
EUR 280 |
|
Description: Affinity purified Rabbit polyclonal AAV5 antibody |
AAV4 antibody |
70R-AR018 |
Fitzgerald |
100 ug |
EUR 280 |
|
Description: Affinity purified Rabbit polyclonal AAV4 antibody |
AAV-1 Helper Free Bicistronic Expression System (Puro) |
VPK-415-SER1 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-1 Helper Free Bicistronic Expression System (Hygro) |
VPK-417-SER1 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV1 Luciferase |
78452 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 1 (AAV1) exhibits high homology with other AAV serotypes. AAV1 efficiently transduces muscle tissue, as determined by a region of the capsid protein VP1 (amino acids 350 to 430) which functions as a major determinant of tissue tropism._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase under the control of a CMV promoter. |
AAV2 Luciferase |
78453 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 2 (AAV2) is the best characterized AAV serotype. Nearly all recombinant AAV serotypes utilize the AAV2 inverted terminal repeats (ITRs). AAV2 requires the expression of Heparan Sulfate Proteoglycan (HSPG) on the surface of host for cells for binding and internalization. Of nearly all the discovered AAV serotypes, AAV2 has the best transduction efficiency in cell culture and is the best tool for in vitro studies._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase under the control of a CMV promoter. |
AAV3 Luciferase |
78454 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 3 (AAV3) shares 82% sequence homology with AAV2, and like AAV2, requires the Heparan Sulfate Proteoglycan (HSPG) receptor for cell attachment. AAV3 vectors transduce human liver cancer cells extremely efficiently because AAV3 utilizes the human Hepatocyte Growth Factor Receptor (hHGFR) as a co-receptor for viral entry, which is highly expressed in these cells. Both the extracellular and intracellular kinase domains of hHGFR are required for AAV3-mediated transgene expression._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase gene under the control of a CMV promoter. AAV transduction efficiency can easily be verified by measurement of luciferase activity. |
AAV5 Luciferase |
78456 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 5 (AAV5) differs from other parvovirus serotypes according to serological and DNA hybridization data, and AAV5 also uses different inverted terminal repeats (ITRs) compared to other AAV serotypes. AAV5 is the most efficient vector for transducing sensory neurons and is effective at mediating gene transfer into human and murine airway epithelia. In addition, AAV5 vectors show a higher tropism for both mouse and human dendritic cells than AAV1, AAV2, AAV7, or AAV8._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase gene under the control of a CMV promoter. AAV transduction efficiency can easily be verified by measurement of luciferase activity. |
AAV6 Luciferase |
78457 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 6 (AAV6) appears to be related to AAV1 by sequence analysis and shows the best transduction efficiency in pancreatic beta-cells compared to other AAV serotypes. AAV6 vectors are also particularly effective in the transduction of human prostate, breast, and liver cancer cells._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase gene under the control of a CMV promoter. AAV transduction efficiency can easily be verified by measurement of luciferase activity. |
AAV8 Luciferase |
78458 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 8 (AAV8) was isolated from rhesus monkey tissue, and the AAV8 rep and cap nucleotide sequences have 88% homology with AAV7 and 82% with AAV2. AAV8 exhibits greater transduction efficiency in the liver than other AAV serotypes. AAV8 and 9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase gene under the control of a CMV promoter. AAV transduction efficiency can easily be verified by measurement of luciferase activity. |
AAV9 Luciferase |
78459 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 9 (AAV9) is one of the most promising serotypes for gene therapy applications. AAV9 transduces a wide range of tissue types, including cardiac and skeletal muscle, liver, pancreas, and eye tissue. AAV8 and AAV9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy. AAV9 has significantly lower seroprevalence in the human population than other AAV serotypes, making AAV9 a desirable candidate for therapeutic applications. _x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase gene under the control of a CMV promoter. AAV transduction efficiency can easily be verified by measurement of luciferase activity. |
AAV1 Empty Capsids |
DAGC255L |
Creative Diagnostics |
10 µL, 30 µL |
Ask for price |
|
Description: Recombinant |
AAV5 Empty Capsids |
DAGC257L |
Creative Diagnostics |
10 µL, 30 µL |
Ask for price |
|
Description: Recombinant |
AAV6 Empty Capsids |
DAGC258L |
Creative Diagnostics |
10 µL, 30 µL |
Ask for price |
|
Description: Recombinant |
AAV8 Empty Capsids |
DAGC259L |
Creative Diagnostics |
10 µL, 30 µL |
Ask for price |
|
Description: Recombinant |
AAV1 Null Control Virus |
AAV-351 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 1. |
AAV2 Null Control Virus |
AAV-352 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 2. |
AAV3 Null Control Virus |
AAV-353 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 3. |
AAV4 Null Control Virus |
AAV-354 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 4. |
AAV5 Null Control Virus |
AAV-355 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 5. |
AAV6 Null Control Virus |
AAV-356 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Null (empty) control virus of AAV serotype 6. |
AAV1-GFP Control Virus |
AAV-301 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 1. |
AAV2-GFP Control Virus |
AAV-302 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 2. |
AAV3-GFP Control Virus |
AAV-303 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 3. |
AAV4-GFP Control Virus |
AAV-304 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 4. |
AAV5-GFP Control Virus |
AAV-305 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 5. |
AAV6-GFP Control Virus |
AAV-306 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: GFP control virus of AAV serotype 6. |
AAV2-Cre Control Virus |
AAV-310 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 2. |
AAV1-Cre Control Virus |
AAV-311 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 1. |
AAV3-Cre Control Virus |
AAV-313 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 3. |
AAV4-Cre Control Virus |
AAV-314 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 4. |
AAV5-Cre Control Virus |
AAV-315 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 5. |
AAV6-Cre Control Virus |
AAV-316 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Cre control virus of AAV serotype 6. |
AAV2-Luc Control Virus |
AAV-320 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 2. |
AAV1-Luc Control Virus |
AAV-321 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 1. |
AAV3-Luc Control Virus |
AAV-323 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 3. |
AAV4-Luc Control Virus |
AAV-324 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 4. |
AAV5-Luc Control Virus |
AAV-325 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 5. |
AAV6-Luc Control Virus |
AAV-326 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: Luciferase control virus of AAV serotype 6. |
AAV8 Titration ELISA Kit |
DEIAAV8 |
Creative Diagnostics |
96T |
EUR 624 |
Description: cell culture supernatants, purified virus preparations |
AAV9 Titration ELISA Kit |
DEIAAV9 |
Creative Diagnostics |
96T |
EUR 624 |
Description: cell culture supernatants, purified virus preparations |
Purified AAV-6 Antibody |
10R-2480AP |
Fitzgerald |
50 ug |
EUR 811 |
|
Description: Purified Anti-AAV-6 Monoclonal Antibody |
AAV1 Luciferase-eGFP |
78461 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 1 (AAV1) exhibits high homology with other AAV serotypes. AAV1 efficiently transduces muscle tissue, as determined by a region of the capsid protein VP1 (amino acids 350 to 430) which functions as a major determinant of tissue tropism._x000D_These AAV1 particles constitutively express the firefly (Photinus pyralis) luciferase and eGFP genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and eGFP as two separate proteins. |
AAV2 Luciferase-eGFP |
78462 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 2 (AAV2) is the best characterized AAV serotype. Nearly all recombinant AAV serotypes utilize the AAV2 inverted terminal repeats (ITRs). AAV2 requires the expression of Heparan Sulfate Proteoglycan (HSPG) on the surface of host cells for binding and internalization. Of nearly all the discovered AAV serotypes, AAV2 has the best transduction efficiency in cell culture and is the best tool for in vitro studies._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and eGFP genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript and expression of luciferase and eGFP as two separate proteins. |
AAV3 Luciferase-eGFP |
78463 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 3 (AAV3) shares 82% sequence homology with AAV2, and like AAV2, requires Heparan Sulfate Proteoglycan (HSPG) for cellular attachment. AAV3 vectors transduce human liver cancer cells extremely efficiently because AAV3 utilizes the human Hepatocyte Growth Factor Receptor (hHGFR) as a co-receptor for viral entry, which is highly expressed in these cells. Both the extracellular domain and the intracellular kinase domain of hHGFR are required for AAV3-mediated transgene expression. _x000D_These AAV3 particles constitutively express the firefly (Photinus pyralis) luciferase and eGFP genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and eGFP as two separate proteins. |
AAV5 Luciferase-eGFP |
78465 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 5 (AAV5) differs from other parvovirus serotypes according to serological and DNA hybridization data, and AAV5 also uses different inverted terminal repeats (ITRs) compared to other AAV serotypes. AAV5 is the most efficient vector for transducing sensory neurons and is good at mediating gene transfer into human and murine airway epithelia. In addition, AAV5 vectors show a higher tropism for both mouse and human dendritic cells than AAV1, AAV2, AAV7, or AAV8._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and enhanced Green Fluorescent Protein (eGFP) genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and eGFP as two separate proteins. |
AAV6 Luciferase-eGFP |
78466 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 6 (AAV6) appears to be related to AAV1 by sequence analysis and shows the highest transduction efficiency in pancreatic beta-cells compared to other AAV serotypes._x000D_These AAV6 particles constitutively express the firefly (Photinus pyralis) luciferase and enhanced Green Fluorescent Protein (eGFP) genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and eGFP as two separate proteins. |
AAV8 Luciferase-eGFP |
78467 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 8 (AAV8) was first isolated from rhesus monkey tissue, and the AAV8 rep and cap nucleotide sequences have 88% homology with AAV7 and 82% with AAV2. AAV8 exhibits greater transduction efficiency in the liver than other AAV serotypes. AAV8 and 9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy._x000D_These AAV8 particles constitutively express the firefly (Photinus pyralis) luciferase and enhanced Green Fluorescent Protein (eGFP) genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and eGFP as two separate proteins. |
AAV9 Luciferase-eGFP |
78468 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 9 (AAV9) is one of the most promising serotypes for gene therapy applications. AAV9 transduces a wide range of tissue types, including cardiac and skeletal muscle, liver, pancreas, and eye tissue. AAV8 and AAV9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy. AAV9 has significantly lower seroprevalence in the human population than other AAV serotypes, making it a desirable candidate for therapeutic applications._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and enhanced Green Fluorescent Protein (eGFP) genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript and expression of luciferase and eGFP as two separate proteins. |
AAV1-LacZ Control Virus |
AAV-341 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 1. |
AAV2-LacZ Control Virus |
AAV-342 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 2. |
AAV3-LacZ Control Virus |
AAV-343 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 3. |
AAV4-LacZ Control Virus |
AAV-344 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 4. |
AAV5-LacZ Control Virus |
AAV-345 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 5. |
AAV6-LacZ Control Virus |
AAV-346 |
Cell Biolabs |
50 ?L |
EUR 1221.6 |
Description: LacZ control virus of AAV serotype 6. |
AAV-1 Helper Free Bicistronic Expression System (Blasticidin) |
VPK-419-SER1 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV5 Titration ELISA Kit (Fast) |
AAV-A005H |
ACROBIOSYSTEMS |
96tests |
EUR 706.2 |
|
Description: AAV5 Titration ELISA Kit(Fast) is based on ELISA sandwich method and designed to detect and quantitative determine of AAV5 capsid titration in AAV gene therapy product preparation processing. It contains AAV5 empty capsids and a pair of antibodies against AAV5. Results are obtained by four parameter logistic curve that were parallel to the standard curves obtained. The verification results indicate that this kit can be used for the quantitative determination of AAV5 capsid titration. |
AAV1 Luciferase-mCherry |
78470 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 1 (AAV1) exhibits high homology with other AAV serotypes. AAV1 efficiently transduces muscle tissue, as determined by a region of the capsid protein VP1 (amino acids 350 to 430) which functions as a major determinant of tissue tropism._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and mCherry as two separate proteins. |
AAV2 Luciferase-mCherry |
78471 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 2 (AAV2) is the best characterized AAV serotype. Nearly all recombinant AAV serotypes utilize the AAV2 inverted terminal repeats (ITRs). AAV2 requires the expression of Heparan Sulfate Proteoglycan (HSPG) on the surface of host cells for binding and internalization. Of nearly all the discovered AAV serotypes, AAV2 has the best transduction efficiency in cell culture and is the best tool for in vitro studies._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and mCherry as two separate proteins. |
AAV3 Luciferase-mCherry |
78472 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 3 (AAV3) shares 82% sequence homology with AAV2, and like AAV2, requires the Heparan Sulfate Proteoglycan (HSPG) receptor for cell attachment. AAV3 vectors transduce human liver cancer cells extremely efficiently because AAV3 utilizes the human Hepatocyte Growth Factor Receptor (hHGFR) as a co-receptor for viral entry, which is highly expressed in these cells. Both the extracellular and intracellular kinase domains of hHGFR are required for AAV3-mediated transgene expression._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and mCherry as two separate proteins. |
AAV5 Luciferase-mCherry |
78474 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus Serotype 5 (AAV5) differs from other parvovirus serotypes according to serological and DNA hybridization data, and AAV5 also uses different inverted terminal repeats (ITRs) compared to other AAV serotypes. AAV5 is the most efficient vector for transducing sensory neurons and is good at mediating gene transfer into human and murine airway epithelia. In addition, AAV5 vectors show a higher tropism for both mouse and human dendritic cells than AAV1, AAV2, AAV7, or AAV8._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript, and expression of luciferase and mCherry as two separate proteins. |
AAV6 Luciferase-mCherry |
78475 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 6 (AAV6) appears to be related to AAV1 by sequence analysis and shows the best transduction efficiency in pancreatic beta-cells compared to other AAV serotypes._x000D_These AAV6 particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript and expression of luciferase and mCherry as two separate proteins. |
AAV8 Luciferase-mCherry |
78476 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 8 (AAV8) was isolated from rhesus monkey tissue, and the AAV8 rep and cap nucleotide sequences have 88% homology with AAV7 and 82% with AAV2. AAV8 exhibits greater transduction efficiency in the liver than other AAV serotypes. AAV8 and 9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript and expression of luciferase and mCherry as two separate proteins. |
AAV9 Luciferase-mCherry |
78477 |
BPS Bioscience |
50 µl x 2 |
EUR 545 |
Description: Adeno-Associated Virus serotype 9 (AAV9) is one of the most promising serotypes for gene therapy applications. AAV9 transduces a wide range of tissue types, including cardiac and skeletal muscle, liver, pancreas, and eye tissue. AAV8 and AAV9 have recently been used to correct disease-causing mutations and improve muscle function in mouse models of Duchenne muscular dystrophy. AAV9 has significantly lower seroprevalence in the human population than other AAV serotypes, making AAV9 a desirable candidate for therapeutic applications._x000D_These AAV particles constitutively express the firefly (Photinus pyralis) luciferase and mCherry genes connected via a T2A linker, under the control of a CMV promoter. The T2A self-cleaving peptide (derived from Thosea asigna virus 2A) leads to the efficient cleavage of the transcript and expression of luciferase and mCherry as two separate proteins. |
AAV2 VP1, Recombinant Protein |
VP1-A5143 |
ACROBIOSYSTEMS |
500ug |
EUR 321 |
|
Description: AAV2 VP1, Recombinant Protein (VP1-A5143) is expressed from E. coli cells. It contains AA Met1 - Leu735 (Accession # P03135-1). |
AAV2 VP2, Recombinant Protein |
VP2-A5143 |
ACROBIOSYSTEMS |
50ug |
EUR 2140 |
|
Description: AAV2 VP2, Recombinant Protein (VP2-A5143) is expressed from E. coli cells. It contains AA Met1 - Leu598 (Accession # P03135-2). |
AAV2 VP3, Recombinant Protein |
VP3-A5145 |
ACROBIOSYSTEMS |
500ug |
EUR 321 |
|
Description: AAV2 VP3, Recombinant Protein (VP3-A5145) is expressed from E. coli cells. It contains AA Met1 - Leu598 (Accession # P03135-3). |
AAV5 (intact particle) antibody |
10R-2445 |
Fitzgerald |
50 ug |
EUR 1081 |
|
Description: Mouse monoclonal AAV 5 (intact particle) antibody |
AAV1 (intact particle) antibody |
10R-2446 |
Fitzgerald |
50 ug |
EUR 884 |
|
Description: Mouse monoclonal AAV 1 (intact particle) antibody |
AAV5 (intact particle) antibody |
10R-2494 |
Fitzgerald |
500 ul |
EUR 1101.6 |
Description: Mouse monoclonal AAV 5 (intact particle) antibody |
AAV-2 Helper Free Packaging System |
VPK-402 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-3 Helper Free Packaging System |
VPK-403 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-4 Helper Free Packaging System |
VPK-404 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-5 Helper Free Packaging System |
VPK-405 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-6 Helper Free Packaging System |
VPK-406 |
Cell Biolabs |
1 kit |
EUR 815 |
AAV-2 Helper Free Expression System |
VPK-410-SER2 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-3 Helper Free Expression System |
VPK-410-SER3 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-4 Helper Free Expression System |
VPK-410-SER4 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-5 Helper Free Expression System |
VPK-410-SER5 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-6 Helper Free Expression System |
VPK-410-SER6 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAVancedTM Concentration Reagent (100 ml aliquot) |
AAV100A-1 |
SBI |
100 ml |
EUR 462 |
AAVancedTM Concentration Reagent (250 ml aliquot) |
AAV110A-1 |
SBI |
250 ml |
EUR 928 |
Rat Adeno-Associated Virus 6(AAV6) ELISA Kit |
NSL0015r |
Sunlong |
96 Tests |
EUR 498 |
|
Human Adeno-Associated Virus 2 (AAV2) ELISA Kit |
abx050302-100g |
Abbexa |
100 µg |
Ask for price |
Human Adeno-Associated Virus 2 (AAV2) ELISA Kit |
abx050302-200g |
Abbexa |
200 µg |
Ask for price |
Human Adeno-Associated Virus 2 (AAV2) ELISA Kit |
abx050302-50g |
Abbexa |
50 µg |
EUR 493.75 |
Human Adeno-Associated Virus 9 (AAV9) ELISA Kit |
abx050303-100g |
Abbexa |
100 µg |
Ask for price |
Human Adeno-Associated Virus 9 (AAV9) ELISA Kit |
abx050303-10g |
Abbexa |
10 µg |
EUR 493.75 |
Human Adeno-Associated Virus 9 (AAV9) ELISA Kit |
abx050303-50g |
Abbexa |
50 µg |
Ask for price |
pAAVK-EF1α -MCS AAVanced Cloning and Expression Vector |
AAV502A-1 |
SBI |
10 ug |
EUR 614 |
Anti- Adeno Associated Virus 5 (AAV-5) aa530-541 Antibody |
GWB-F8E71A |
GenWay Biotech |
0.1 mg |
Ask for price |
AAV-2 Helper Free Promoterless Expression System |
VPK-411-SER2 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-3 Helper Free Promoterless Expression System |
VPK-411-SER3 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-4 Helper Free Promoterless Expression System |
VPK-411-SER4 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-5 Helper Free Promoterless Expression System |
VPK-411-SER5 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-6 Helper Free Promoterless Expression System |
VPK-411-SER6 |
Cell Biolabs |
1 kit |
EUR 1055 |
AAV-2 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER2 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-3 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER3 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-4 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER4 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-5 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER5 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-6 Helper Free Bicistronic Expression System (Neo) |
VPK-416-SER6 |
Cell Biolabs |
1 kit |
EUR 1486.8 |
Description: The AAV Helper Free System produces recombinant AAV containing your gene of interest without the need to use a helper adenovirus. The adenoviral genes required for proper AAV packaging are provided in the pHelper plasmid (E2A, E4 and VA RNA) or in the 293 packaging cells (E1). |
AAV-2 Helper Free Bicistronic Expression System (GFP) |
VPK-418-SER2 |
Cell Biolabs |
1 kit |
EUR 1055 |
We have two specific aims in this proposal. First, we will develop a novel statistical framework – non-housekeeping multilocus sequencing typing (NH-MLST) – of analyzing the bacterial intraspecific variations in a phylogenetic context, with the goal of detecting genes responsible for adaptive evolution in bacteria. Second, we will develop a computational infrastructure dedicated to the comparative genomics of closely related bacteria.
As comparative microbial sequencing becomes a standard approach for discovering virulence factors and tracing microbial outbreaks, the proposed project will provide a robust evolutionary analytical framework and an efficient computational system for comparative microbial genomics.