CytoSelect 96-Well Cell Transformation Assay (Cell Recovery Compatible, Fluorometric), Trial Size |
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| CBA-140-T | Cell Biolabs | 24 assays | EUR 456 |
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Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis. |
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Cell Biolabs Laboratories manufactures the vpk-140 t cell biolabs reagents distributed by Genprice. The Vpk-140 T Cell Biolabs reagent is RUO (Research Use Only) to test human serum or cell culture lab samples. To purchase these products, for the MSDS, Data Sheet, protocol, storage conditions/temperature or for the concentration, please contact Cell BioLabs. Other Vpk-140 products are available in stock. Specificity: Vpk-140 Category: T Group: Cell Biolabs
CytoSelect 24-Well Cell Invasion Assay (Basement Membrane, Fluorometric Format), Trial Size |
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| Cell Biolabs | 4 assays | EUR 322 |
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Description: The ability of malignant tumor cells to invade normal surrounding tissue contributes in large part to the morbidity and mortality of cancers. Cell invasion requires several distinct cellular functions including adhesion, motility, detachment, and extracellular matrix proteolysis. Our CytoSelect Cell Invasion Assays utilize precoated inserts to assay the invasive properties of tumor cells. Invasive cells can be quantified in 24-well plates on either a standard microplate reader or a fluorescence plate reader. Inserts are precoated on the top of the membrane with ECM matrix gel (basement membrane), a protein mix isolated from EHS tumor cells. |
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CytoSelect 24-Well Wound Healing Assay, Trial Size |
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| Cell Biolabs | 6 assays | EUR 357 |
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Description: Traditionally scratch assays have been used to study cell migration, cell proliferation and wound healing. However, these assays lack a consistently defined wound gap and can result in high inter-sample variation. Our CytoSelect 24-Well Wound Healing Assay provides a much more consistent method to measure cell migration across a wound field gap in vitro. Proprietary inserts generate a consistent 0.9mm wound gap between the cells. Cells may then be treated or monitored for proliferation or migration across the wound field by imaging samples at fixed time points or by time-lapse microscopy. |
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CytoSelect 96-Well Cell Transformation Assay (Soft Agar Colony Formation), Trial Size |
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| Cell Biolabs | 24 assays | EUR 386 |
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Description: Our CytoSelect 96-Well Cell Transformation Assay (Soft Agar Colony Formation) is suitable for measuring cell transformation where no downstream analysis is required. Cells are incubated in a semisolid agar medium for 7-8 days. The cells are then solubilized, lysed and detected using the included fluorescent dye in a fluorometric plate reader. |
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CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Colorimetric, Trial Size |
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| Cell Biolabs | 24 assays | EUR 432 |
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Description: CytoSelect 96-Well Cell Transformation Assays (Cell Recovery Compatible) provide a robust system for detecting transformed cells, screening cell transformation inhibitors, and determining in vitro drug sensitivity. A proprietary modified soft agar matrix allows you to either quantify cells using the included fluorescent dye, or recover the cells for further analysis. |
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CytoSelect 96-Well In Vitro Tumor Sensitivity Assay (Soft Agar Colony Formation), Trial Size |
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| Cell Biolabs | 24 assays | EUR 403 |
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Description: Traditionally, the soft agar colony formation assay has been used to monitor anchorage-independent growth. Cells proliferate for 3-4 weeks in a semisolid culture medium, followed by tedious manual counting of colonies. Our CytoSelect 96-Well In Vitro Tumor Sensitivity Assay provides a stringent, anchorage-independent model for chemosenstivity testing and screening of potential anticancer drugs. After just 6-8 days, cell colonies are quantified using a standard colorimetric microplate reader. |
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CytoSelect 96-Well Phagocytosis Assay(Zymosan Substrate), Trial Size |
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| Cell Biolabs | 20 assays | EUR 386 |
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Description: Phagocytosis can be assayed by measuring the engulfment of a cell "substrate". However, traditional assays require tedious cell counting under a microscope. Our CytoSelect 96-Well Phagocytosis Assay, Zymosan Substrate provides a more accurate, user-friendly, high-throughput alternative to the standard phagocytosis assay. The assay may be adapted for use with 24-well or 48-well plates. |
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96-Well Cellular Senescence Assay Kit (SA-?-gal Activity, Fluorometric Format), Trial Size |
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| Cell Biolabs | 24 assays | EUR 345 |
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Description: Our Cellular Senescence Activity Assay provides an efficient method to measure Senescence Associated (SA) ß-galactosidase activity. SA-ß-Gal catalyzes the hydrolysis of X-gal, which produces a blue color in senescent cells. Quantify senescence using a fluorescence plate reader. |
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ViraSafe Lentiviral Packaging System, Ecotropic |
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| VPK-205 | Cell Biolabs | 1 kit | EUR 891 |
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Description: Our ViraSafe Lentiviral Packaging Systems contain three packaging plasmids for co-transfection with your own third generation lentiviral expression construct. If you need an expression vector as well as the packaging plasmids, consider our ViraSafe Lentiviral Expression Complete Systems. Our Ecotropic Packaging System assembles lentiviruses with an ecotropic envelope protein which will readily infect only mouse and rat cells via receptor-mediated binding, providing an additional level of safety. However, ecotropic viruses are not as stable upon freezing and will not survive ultracentrifugation procedure |
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ViraSafe Lentiviral Packaging System, Pantropic |
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| VPK-206 | Cell Biolabs | 1 kit | EUR 891 |
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Description: Our ViraSafe Lentiviral Packaging Systems contain three packaging plasmids for co-transfection with your own third generation lentiviral expression construct. If you need an expression vector as well as the packaging plasmids, consider our ViraSafe Lentiviral Expression Complete Systems. The Pantropic Packaging System assembles VSVG-pseudotyped lentiviruses which can easily infect virtually any cells regardless of their species of origin. |
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pSMPUW Universal Lentiviral Expression Vector (Promoterless) |
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| VPK-211 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest and a gene-specific promoter into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293T or 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-Puro Lentiviral Expression Vector |
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| VPK-212 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-Neo Lentiviral Expression Vector |
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| VPK-213 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-Hygro Lentiviral Expression Vector |
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| VPK-214 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-IRES-Puro Lentiviral Expression Vector |
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| VPK-215 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-IRES-Neo Lentiviral Expression Vector |
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| VPK-216 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-IRES-Hygro Lentiviral Expression Vector |
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| VPK-217 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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pSMPUW-IRES-Blasticidin Lentiviral Expression Vector |
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| VPK-219 | Cell Biolabs | 10 µg | EUR 624 |
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Description: Clone your gene of interest into this Lentiviral Expression Vector, then co-transfect along with lentiviral packaging vectors into a packaging cell line such as 293LTV. This expression vector is compatible with any 2nd or 3rd generation lentiviral packaging system, but due to its design it is best matched with our ViraSafe packaging vectors to produce the highest viral titer. |
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RAPAd® Universal Adenoviral Expression System |
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| VPK-250 | Cell Biolabs | 1 kit | EUR 1036 |
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Description: Making an adenovirus with traditional recombinant methods takes 2-3 months and requires tedious plaque recombination. More recent technologies have shortened this time somewhat, but still produce relatively high amounts of wild type (replication-competent) plaques, levels of which increase with serial amplification. The RAPAd® Adenoviral Expression Systems produce recombinant adenovirus with substantially reduced wild-type virus, while considerably shortening the production time to 2-3 weeks. Serial amplification of adenovirus produced using the RAPAd® system does not significantly increase replication-competent adenovirus levels. The system uses a backbone vector from which the 5' ITR, packaging signal and E1 sequences have been removed. The RAPAd® Universal Adenoviral Expression System (# VPK-250) contains a promoterless shuttle vector to allow you to insert the promoter of your choice along with your gene of interest to maximize gene expression. |
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RAPAd® RSV Adenoviral Expression System |
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| VPK-251 | Cell Biolabs | 1 kit | EUR 1036 |
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Description: Making an adenovirus with traditional recombinant methods takes 2-3 months and requires tedious plaque recombination. More recent technologies have shortened this time somewhat, but still produce relatively high amounts of wild type (replication-competent) plaques, levels of which increase with serial amplification. The RAPAd® Adenoviral Expression Systems produce recombinant adenovirus with substantially reduced wild-type virus, while considerably shortening the production time to 2-3 weeks. Serial amplification of adenovirus produced using the RAPAd® system does not significantly increase replication-competent adenovirus levels. The system uses a backbone vector from which the 5' ITR, packaging signal and E1 sequences have been removed. |
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RAPAd® CMV Adenoviral Expression System |
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| VPK-252 | Cell Biolabs | 1 kit | EUR 1036 |
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Description: Making an adenovirus with traditional recombinant methods takes 2-3 months and requires tedious plaque recombination. More recent technologies have shortened this time somewhat, but still produce relatively high amounts of wild type (replication-competent) plaques, levels of which increase with serial amplification. The RAPAd® Adenoviral Expression Systems produce recombinant adenovirus with substantially reduced wild-type virus, while considerably shortening the production time to 2-3 weeks. Serial amplification of adenovirus produced using the RAPAd® system does not significantly increase replication-competent adenovirus levels. The system uses a backbone vector from which the 5' ITR, packaging signal and E1 sequences have been removed. |
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RAPAd® miRNA Adenoviral Expression System |
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| VPK-253 | Cell Biolabs | 1 kit | EUR 1036 |
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Description: Making an adenovirus with traditional recombinant methods takes 2-3 months and requires tedious plaque recombination. More recent technologies have shortened this time somewhat, but still produce relatively high amounts of wild type (replication-competent) plaques, levels of which increase with serial amplification. The RAPAd® Adenoviral Expression Systems produce recombinant adenovirus with substantially reduced wild-type virus, while considerably shortening the production time to 2-3 weeks. Serial amplification of adenovirus produced using the RAPAd® system does not significantly increase replication-competent adenovirus levels. The system uses a backbone vector from which the 5' ITR, packaging signal and E1 sequences have been removed. |
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RAPAd® CMV Adenoviral Bicistronic Expression System (GFP) |
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| VPK-254 | Cell Biolabs | 1 kit | EUR 1036 |
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Description: Making an adenovirus with traditional recombinant methods takes 2-3 months and requires tedious plaque recombination. More recent technologies have shortened this time somewhat, but still produce relatively high amounts of wild type (replication-competent) plaques, levels of which increase with serial amplification. The RAPAd® Adenoviral Expression Systems produce recombinant adenovirus with substantially reduced wild-type virus, while considerably shortening the production time to 2-3 weeks. Serial amplification of adenovirus produced using the RAPAd® system does not significantly increase replication-competent adenovirus levels. The system uses a backbone vector from which the 5' ITR, packaging signal and E1 sequences have been removed. |
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Platinum Retroviral Expression System, Ecotropic |
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| VPK-300 | Cell Biolabs | 1 kit | EUR 1169 |
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Description: Retroviral vectors are useful for delivering genes of interest into a target cells where integration into the genome is desired. However, traditional retroviral expression technologies result in low viral titers, making gene expression studies challenging. Platinum Retroviral Expression Systems incorporate superior packaging cell lines and vector technologies to produce high-titer virus with a single plasmid transfection. This system includes our exclusive Platinum-E Packaging cell line, which contains the gag and pol genes and an ecotropic envelope protein for viral packaging. Simply clone your gene of interest into the vector provided and transfect into the packaging cells. |
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Platinum Retroviral Expression System, Amphotropic |
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| VPK-301 | Cell Biolabs | 1 kit | EUR 1169 |
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Description: Retroviral vectors are useful for delivering genes of interest into a target cells where integration into the genome is desired. However, traditional retroviral expression technologies result in low viral titers, making gene expression studies challenging. Platinum Retroviral Expression Systems incorporate superior packaging cell lines and vector technologies to produce high-titer virus with a single plasmid transfection. This system includes our exclusive Platinum-A Packaging cell line, which contains the gag and pol genes and an amphotropic envelope protein for viral packaging. Simply clone your gene of interest into the vector provided and transfect into the packaging cells. |
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