Single Cell Isolation
SeekGene is a biotechnology company that specializes in the development of cutting-edge solutions for single-cell analysis. Their products are designed to facilitate various research applications, including cancer research, immunology, cell development, viral infection studies, drug discovery, and target screening. SeekGene’s technology, including the SeekOneDD System, enables single-cell partitioning, capturing, labeling, library construction, and subsequent data analysis, providing researchers with comprehensive tools to advance their scientific investigations. The company’s commitment to innovation and high-quality research tools has positioned it as a leading provider in the biotechnology industry.
The SeekOneDigital droplet system is a sophisticated tool that enables the partitioning and analysis of individual cells using droplet technology. Here is a simple guide on how to use the system:
- Sample preparation: Prepare your cell samples for analysis. Ensure that the cells are ready to be loaded into the droplet system.
- System setup: Ensure that the droplet system is properly configured and all necessary components are in place.
- Loading the samples: Load the cell samples into the droplet system following the instructions provided with the device. Be sure to follow proper sample handling practices to avoid cross-contamination.
- Initiating the process: Once the samples are loaded, initiate the analysis process following the instructions of the associated software. Be sure to closely monitor the process for any potential issues.
- Data analysis: Once the process is complete, retrieve the data generated by the droplet system. Use appropriate analysis software to interpret the results and extract relevant information about individual cells.
Make sure to follow the specific instructions provided with the SeekOneDigital system for optimal use and accurate results. If you encounter difficulties or have any questions, feel free to contact SeekGene’s technical support service for additional assistance.
The Xenium Analyzer is a powerful new instrument for single cell spatial biology research. It offers a number of advantages over other platforms, including:
- Industry-leading throughput: The Xenium Analyzer can analyze up to 400 mm² of tissue in less than 50 hours, making it up to 7x faster than other platforms.
- Best-in-class resolution: The Xenium Analyzer can achieve transcript XY-localization precision of < 30 nm and Z-localization precision of < 100 nm, providing researchers with unprecedented insights into the spatial organization of gene expression.
- On-instrument data analysis: The Xenium Analyzer features onboard analysis software that performs high-powered computation on-instrument. This means that researchers can have access to their data immediately after a run completes, without having to transfer it to a separate computer.
In addition to its technical specifications, the Xenium Analyzer is also designed to be user-friendly. The sample preparation workflow is simple and straightforward, and the instrument is easy to operate.
The Xenium Analyzer is a valuable tool for researchers who are interested in studying the spatial organization of gene expression in tissues. It is particularly well-suited for studies of cancer, immunology, and developmental biology.
Here are some examples of how the Xenium Analyzer is being used in research today:
- Researchers are using the Xenium Analyzer to study the spatial heterogeneity of tumor microenvironments, in order to identify new therapeutic targets.
- Researchers are using the Xenium Analyzer to track the development of immune cells in lymphoid tissues, in order to understand how the immune system responds to infection and disease.
- Researchers are using the Xenium Analyzer to study the spatial organization of gene expression in developing embryos, in order to understand how different cell types and tissues are specified.
The Xenium Analyzer is a powerful new tool that is transforming the field of single cell spatial biology. It is enabling researchers to make new discoveries about the spatial organization of gene expression in tissues, and to develop new insights into the biology of health and disease.
Instrument |
Xenium Analyzer |
---|---|
Dimensions (W x D x H) |
52.5” x 27” x 31” (59” with door open) 133.3 cm x 68.5 cm x 78.7 cm (149.8 cm with door open) |
Resolution |
Transcript XY-localization precision < 30 nm and Z-localization precision< 100 nm Pixel size = ~0.2 µm/pixel |
Number of slides per run |
2 slides |