Showing 1-50 of 21 Per page: 50 100
Name Art no Species Reactivity Application Conjugation Size Price
298-29112
Sample Collection
100 mL
298-29111
Sample Collection
25 mL
298-63700
Sample Collection
50 Devices
298-RU49000
Sample Collection
50 Units
298-RU46100
Sample Collection
50 Devices
298-38100
Sample Collection
25
298-38200
Sample Collection
25
298-RU53800
Sample Collection
50 Units
298-65400
Sample Collection
50 Devices
298-45670
Sample Collection
50 Devices
298-38000
Sample Collection
25
298-44800
Sample Collection
25 Preps
298-49000
Sample Collection
50 Units
298-45690
Sample Collection
50 Units
298-18122
Sample Collection
50 Tubes
298-18118
Sample Collection
50 Tubes
298-35700
Sample Collection
50 Devices
298-45660
Sample Collection
50 Tubes
298-68800
Sample Collection
50 units
298-27650
Sample Collection
12 Tubes
298-18113
Sample Collection
50 Tubes

Sample Collection and Preservation – Critical Starting Points in Your Research!

In the current ‘omics’ era, there seems to be no limit to the number of ways we can investigate our favorite organism or cell type. We can study genomes, transcriptomes, epigenomes, metabolomes, proteomes, kinomes, and more. Parallel advances in flow cytometry and other immunological techniques make it possible for us to simultaneously detect and profile new and characterized cell surface markers in robust multiplex setups.

DNA/RNA Shield™ for Next-Generation DNA & RNA Sample Preservation

Nowadays, the sky is the limit when it comes to the number of ways we can investigate our favorite organism or cell type. ‘Omics’ approaches such as genomics, transcriptomics, epigenomics, metagenomics, and metatranscriptomics have the power to generate massive amounts of valuable information that can help us to better understand biological processes, develop new diagnostic tools, and find new ways to treat diseases.

Sample Collection and Preservation – Critical Starting Points in Your Research!

In the current ‘omics’ era, there seems to be no limit to the number of ways we can investigate our favorite organism or cell type. We can study genomes, transcriptomes, epigenomes, metabolomes, proteomes, kinomes, and more. Parallel advances in flow cytometry and other immunological techniques make it possible for us to simultaneously detect and profile new and characterized cell surface markers in robust multiplex setups.