Human Anti centriole and centrosome antibody IgG ELISA kit |
E01A0698-192T |
BlueGene |
192 tests |
EUR 1524 |
|
Description: A competitive ELISA for quantitative measurement of Human Anti centriole and centrosome antibody IgG 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 IgG antibody Laboratories manufactures the sta347 cell biolabs reagents distributed by Genprice. The Sta347 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 Sta347 products are available in stock. Specificity: Sta347 Category: Cell Group: Biolabs
Human true insulin,TI ELISA Kit |
SunredBio |
96 tests |
EUR 528 |
|
Description: A quantitative ELISA kit for measuring Human in samples from biological fluids. |
Human true insulin,TI ELISA Kit |
ChemNorm |
96T |
EUR 567.6 |
Biolabs information
NIH3T3/GFP Cell Line |
AKR-214 |
Cell Biolabs |
1 vial |
EUR 686.4 |
Description: NIH3T3/GFP Cell Line stably expresses GFP and otherwise exhibits the same characteristics of the parental cell line. |
NIH3T3/Cas9 Cell Line |
AKR-5104 |
Cell Biolabs |
1 vial |
EUR 686.4 |
CytoSelect Cell Transformation Assay (Cell Recovery Compatible), Colorimetric, Trial Size |
CBA-135-T |
Cell Biolabs |
24 assays |
EUR 518.4 |
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. |
MCF-7/Luc Cell Line |
AKR-234 |
Cell Biolabs |
1 vial |
EUR 686.4 |
Description: MCF-7/Luc Cell Line stably expresses luciferase and otherwise exhibits the same characteristics of the parental cell line. |
SKOV-3/Luc Cell Line |
AKR-232 |
Cell Biolabs |
1 vial |
EUR 686.4 |
Description: SKOV-3/Luc Cell Line stably expresses luciferase and otherwise exhibits the same characteristics of the parental cell line. |
OVCAR-5/RFP Cell Line |
AKR-254 |
Cell Biolabs |
1 vial |
EUR 686.4 |
Description: OVCAR-5/RFP Cell Line stably expresses RFP and otherwise exhibits the same characteristics of the parental cell line. |
CytoSelect 96-Well Cell Transformation Assay (Cell Recovery Compatible, Fluorometric), Trial Size |
CBA-140-T |
Cell Biolabs |
24 assays |
EUR 547.2 |
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. |
Collagen-based Cell Contraction Assay |
CBA-201 |
Cell Biolabs |
24 assays |
EUR 582 |
Description: Cell Biolabs? Collagen-based Contraction Assay Kit provides a simple system to assess cell contractivity in vitro and screen cell contraction mediators. Each kit provides sufficient quantities to perform up to 24 assays in a 24-well plate. The kit can be also used in culturing cells in 3D collagen matrix. |
CytoSelect MTT Cell Proliferation Assay |
CBA-252 |
Cell Biolabs |
960 assays |
EUR 490.8 |
Description: Cell Biolabs? CytoSelect MTT Cell Proliferation Assay provides a colorimetric format for measuring and monitoring cell proliferation. The kit contains sufficient reagents for the evaluation of 960 assays in 96-well plates or 192 assays in 24-well plates. Cells can be plated and then treated with compounds or agents that affect proliferation. Cells are then detected with the proliferation reagent, which is converted in live cells from the yellow tetrazole MTT to the purple formazan form by a cellular reductase (Figure 1). An increase in cell proliferation is accompanied by an increased signal, while a decrease in cell proliferation (and signal) can indicate the toxic effects of compounds or suboptimal culture conditions. The assay principles are basic and can be applied to most eukaryotic cell lines, including adherent and non-adherent cells and certain tissues. This cell proliferation reagent can be used to detect proliferation in bacteria, yeast, fungi, protozoa as well as cultured mammalian and piscine cells. |
Radius 24-Well Cell Migration Assay |
CBA-125 |
Cell Biolabs |
24 assays |
EUR 602.4 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 24-Well Cell Migration Assay |
CBA-125-5 |
Cell Biolabs |
5 x 24 assays |
EUR 2362.8 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 96-Well Cell Migration Assay |
CBA-126 |
Cell Biolabs |
96 assays |
EUR 686.4 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 96-Well Cell Migration Assay |
CBA-126-5 |
Cell Biolabs |
5 x 96 assays |
EUR 2697.6 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 384-Well Cell Migration Assay |
CBA-127 |
Cell Biolabs |
384 assays |
EUR 721.2 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 384-Well Cell Migration Assay |
CBA-127-5 |
Cell Biolabs |
5 x 384 wells |
EUR 2802 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 48-Well Cell Migration Assay |
CBA-5037 |
Cell Biolabs |
48 assays |
EUR 622.8 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |
Radius 48-Well Cell Migration Assay |
CBA-5037-5 |
Cell Biolabs |
5 x 48 assays |
EUR 2454 |
Description: The Radius Cell Migration Assay provides a unique alternative to conventional cell migration assays using the Boyden chamber. Unlike Boyden chamber assays which may only be analyzed at endpoint, the Radius assay uses a proprietary cell culture plate containing a carefully-defined biocompatible hydrogel (Radius gel) spot centralized at the bottom of each well. When cells are seeded in the well, they will attach everywhere except on the Radius gel, creating a cell-free zone. Following cell seeding the Radius gel is removed, allowing migratory cells to move across the area and close the gap. |