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CellCelector Flex – High-Throughput Image-Based Single-Cell Cloning

With the CellCelector Flex single cell and colony picking platform, you can now effectively assess and verify your clones before deciding which ones to choose. In less than one week, you will obtain monoclonal, viable, and productive colonies from your pool of single cells. Instead of relying on large quantities of plates to produce a winner you can now use actual data to reliably predict the future of your clones. This saves consumable and media costs, incubator space, and most of all valuable time by avoiding missteps, a second cloning round, and unnecessary procedures
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XiltriX Monitoring-as-a-Service: Keeping a Pulse on Lab Operations

As life science monitoring service providers for 30+ years, our team will address all of your equipment, environmental, and facility monitoring needs with 24/7 support to safeguard critical scientific assets.

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Xenium In Situ

Ductal carcinoma in situ (DCIS), cancer cell growth that starts in the milk ducts, is the most common form of breast cancer. However, why some DCIS progress to invasive carcinoma but others remain innocuous is still unclear. In a recent study, three groundbreaking technologies—Chromium Single Cell, Visium Spatial, and Xenium In Situ—were used to achieve a deeper understanding into the biology of a single, breast cancer patient-derived, FFPE tissue block.
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ModDetect™: Detect PS Modifications Independent of Sequence or Location

The first of its kind, Rockland’s ModDetect™ Anti-PS Panel consists of specialty antibody reagents developed to detect phosphorothioate (PS) modifications independent of the sequence or location of the modification, making them useful for oligonucleotide therapeutic development, mRNA vaccine development, or research of genetic diseases or gene expression.
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Visium Spatial Gene Expression: Map Transcriptomes Within Tissue Context

With tools like Visium Spatial Gene Expression, researchers can access a multidimensional profile of the biology of a complex tissue section, measuring and mapping spatial gene expression while maintaining a clear view of the morphological context of the tissue.
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ioMicroglia™ – Consistent iPSC-Derived Microglia, Ready in 10 Days!

Discover ioMicroglia from bit.bio – human iPSC-derived microglia that are consistent, co-culture compatible and ready for experimentation in just 10 days. Limited early access vials are available now. Register your interest today.
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Vericheck ddPCR HEK293 Residual DNA Quantification Kit

The Vericheck ddPCR HEK293 Residual DNA Quantification Kit brings the specificity in testing for HEK293 DNA contamination. The precision and reproducibility of this kit allows for an absolute measurement of residual HEK293 DNA using Droplet Digital PCR.

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QX600 Droplet Digital PCR System

The QX600 Droplet Digital PCR System (ddPCR™) offers advanced six-color multiplexing and absolute quantification of nucleic acid, while delivering the best-in-class performance you have come to expect from Bio-Rad’s ddPCR systems.
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timsTOF HT: Expand the capabilities of high-throughput, 4D-Proteomics™

The timsTOF HT, a novel 4th-generation TIMS (trapped ion mobility separation) XR cell and 14bit digitizer for even greater dynamic range, enhanced peptide coverage and more accurate quantitation, particularly in unbiased 4D plasma and tissue proteomics and epiproteomics.
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nanoElute® 2: Next Generation 4D-Proteomics™

Premium liquid chromatography-mass spectrometry data quality relies on the robust nanoElute® 2 separation system. Discover the next generation system that provides you with the highest chromatographic resolution resulting in exceptional peptide identification and quantification.
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