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ioSensory Neurons: Human iPSC-Derived Neurons for Reliable Pain Research
Discover ioSensory Neurons, precision reprogrammed human iPSC-derived nociceptors from bit.bio. Don’t settle for non-human in vitro models or long, complex differentiation protocols that require toxic reagents. Start running reliable nociception assays with ioSensory Neurons today.

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Promising Target Antigens for Cell Therapy of Solid Tumors
Sino Biological provides a comprehensive range of reagents and services to support the development of CAR-T therapies targeting solid tumors.

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Alissa Clinical Informatics Platform: Solutions for Translational Research
From raw data to report, simplify your NGS and CGH data analysis and variant interpretation with integrated bioinformatics for your translational research.

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Reveal More With the PacBio Revio System’s Exceptionally Accurate Long-Read Sequencing
The Revio system adds affordability, high throughput, and ease of use to a foundation of long
reads, exceptional accuracy, and direct methylation detection. Get reads that are tens of
kilobases in length with >Q30 scores and complete phased genomes for <$1,000, all with 50%
fewer consumables.
reads, exceptional accuracy, and direct methylation detection. Get reads that are tens of
kilobases in length with >Q30 scores and complete phased genomes for <$1,000, all with 50%
fewer consumables.

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One - Stop Research Support for CAR - NK Therapy
CARNK cell therapies are novel therapeutic options developed with the aim to overcome some limitations of CART cell therapies, such as therapy induced side effects.

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Xenium In Situ: High-Performance In Situ From the Single-Cell Leader
The Xenium difference: Revealing the previously unseen
Xenium In Situ combines the power of single molecule RNA detection with powerful optics, data acquisition, and decoding technology to rapidly detect 100s–1,000s of RNA targets at subcellular resolution across entire fresh frozen or FFPE tissue sections. This powerful combination enables cell typing and localization in functional biological context while also providing new insights into cellular communication.
Xenium In Situ combines the power of single molecule RNA detection with powerful optics, data acquisition, and decoding technology to rapidly detect 100s–1,000s of RNA targets at subcellular resolution across entire fresh frozen or FFPE tissue sections. This powerful combination enables cell typing and localization in functional biological context while also providing new insights into cellular communication.

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VIA Extractor™ Tissue Disaggregator
Recent technological advancements have made single-cell multi omics (genomics, proteomics, metabolomics) an increasingly powerful tool for diagnosis, treatment response prediction and treatment selection for cancer. The process begins with disaggregation of a fresh or frozen sample into a single-cell suspension, followed by preparation of a single-cell next-generation sequencing (NGS) library, then data analysis. Find out more...

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PhenoImager HT
The PhenoImager HT is the premier and most highly cited digital pathology imager for spatial phenotyping. Featuring whole-slide multispectral scanning, this system can be easily integrated into high-throughput workflows that need to accommodate for scalability.

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PhenoImager Fusion
The PhenoImager™ Fusion system enables whole-slide, multispectral imaging (MSI) at single-cell resolution at unprecedented speed and is ideal for standard throughput, high-plex applications.

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PhenoCycler-Fusion System
Scale Your Discovery Studies with the Fastest Single-Cell Spatial Biology Solution
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