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Exosome Spatial Omics Service

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In organisms, cells must interact and combine in three-dimensional tissues. The position of each cell is as important as its inherent properties, determining the function of the tissue or the dysfunction of the disease. Therefore, even when studying the structure of simple organisms or single tissues, it is necessary not only to decipher the molecular profiles of thousands of cells, but also to understand how and what the spatial environment affects. Creative Biostructure provides advanced exosome spatial omics services to accurately locate and visualize the distribution of exosomes in tissues.

The Significance of Exosome Spatial Omics Analysis

Spatial omics, emerging after single-cell sequencing, addresses the spatial distribution of cells, which is a gap in single-cell sequencing. This technology examines cell positional relationships in tissues to understand their impact on diseases, focusing on proteins, mRNA, and their modifications. Despite its high costs and time-consuming nature, it offers fresh insights into areas such as animal development, brain structure, and tumor microenvironment characteristics linked to patient outcomes.

Exosomes, nanoscale vesicles secreted by cells, have been studied for their content and roles in physiological and pathological processes. They facilitate intercellular communication by carrying proteins and nucleic acids, crossing cell membranes, and influencing recipient cell functions. However, their distribution and effects on target cells are not well understood. By integrating spatial omics with exosome injections in experimental models, we can gain a deeper understanding of exosome behavior, shedding light on their potential in disease progression, therapeutic response, and drug delivery.

Illustration showing spatial omics technology and multiplexed imaging methods for tissue analysis with detailed molecular visualization.Figure 1. Spatial omics and multiplexed imaging. (Lewis S M, et al., 2021)

Our Comprehensive Service Portfolio for Exosome Spatial Omics

Creative Biostructure provides advanced exosome spatial omics services to accurately locate and visualize the distribution of exosomes in tissues. By combining spatial transcriptomics and spatial proteomics, we are able to reveal the interaction of exosomes with specific cell types and their impact on the local microenvironment.

Advanced Technologies

Category Technology Specifications Applications
Spatial Transcriptomics smFISH
  • 100nm resolution
  • Single molecule detection
  • Multiplexed detection
  • RNA localization
  • Gene expression mapping
  • Transcript quantification
MERFISH
  • Up to 10,000 RNA species
  • Error-robust detection
  • 3D capability
  • Spatial transcriptomics
  • Cell type mapping
  • RNA interaction studies
Imaging Systems Super-resolution Microscopy
  • 20nm lateral resolution
  • Multi-channel imaging
  • Live cell imaging capability
  • Exosome tracking
  • Protein localization
  • Molecular interaction studies
Light-sheet Microscopy
  • 3D tissue imaging
  • Rapid acquisition
  • Low phototoxicity
  • Whole tissue analysis
  • Dynamic tracking
  • Large sample imaging
Mass Spectrometry MALDI Imaging
  • Spatial proteomics
  • Label-free detection
  • High mass accuracy
  • Protein mapping
  • Biomarker discovery
  • Metabolite analysis
Nano-HPLC-MS/MS
  • Deep proteome coverage
  • Quantitative analysis
  • High sensitivity
  • Protein identification
  • PTM analysis
  • Quantitative proteomics

Analytical Capabilities

Analysis Type Features Outputs Applications
Spatial Statistics
  • Neighborhood analysis
  • Spatial correlation
  • Domain identification
  • Interaction maps
  • Correlation matrices
  • Domain classifications
  • Cell-cell interactions
  • Tissue organization
  • Microenvironment analysis
Machine Learning
  • Deep learning algorithm
  • Pattern recognition
  • Automated classification
  • Predictive model
  • Feature maps
  • Classification results
  • Pattern identification
  • Phenotype prediction
  • Automated analysis
Multi-Omics Integration
  • Cross-platform integration
  • Network analysis
  • Pathway mapping
  • Integrated datasets
  • Network maps
  • Pathway diagrams
  • Systems biology
  • Mechanism discovery
  • Biomarker identification
Data Visualization
  • 3D reconstruction
  • Interactive plotting
  • Custom reporting
  • 3D models
  • Interactive dashboards
  • Publication figures
  • Data presentation
  • Result interpretation
  • Publication support

Our Workflow of Exosome Spatial Omics Service

  1. Project Planning and Design: Tailored experimental design incorporating client objectives, sample specifications, and analytical requirements to ensure optimal research outcomes.
  2. Exosome Extraction and Experiment: State-of-the-art exosome isolation and characterization of exosomes using ultracentrifugation, size-exclusion chromatography, and advanced validation techniques.
  3. Sample Collection and Processing: Standardized protocols for tissue preservation, sectioning, and preparation to maintain spatial integrity and molecular quality for downstream analysis.
  4. Spatial Omics Analysis: Integration of multiple spatial omics platforms to simultaneously analyze RNA transcripts, proteins, and other biomolecules while preserving spatial information.
  5. Data Analysis and Mapping: Advanced bioinformatics processing utilizing machine learning algorithms and statistical tools to generate comprehensive spatial-molecular maps.
  6. Project Report Compilation: Detailed documentation of methods, results, and interpretations, including high-resolution visualizations and statistical analyses in publication-ready format.

Flowchart depicting six key steps of Creative Biostructure's exosome spatial omics workflow from project planning to final report delivery.Figure 2. Our exosome spatial omics service workflow. (Creative Biostructure)

Do You Have Other Research Needs? Click Here to Contact Us and Discuss Your Project!

Why Choose Creative Biostructure?

  • Rich project experience: many years of exosome research experience, with many successful cases.
  • Multimodal analysis: combining transcriptome and proteome for comprehensive analysis.
  • Professional data analysis: senior bioinformatics team, accurate interpretation of data.
  • Customized service: tailor-made research plan according to customer needs.

Frequently Asked Questions

  • How is your data analysis capability?

    Our senior bioinformatics team has extensive experience in data analysis and can efficiently process and interpret spatial omics data, providing one-stop services from raw data to advanced statistical analysis.

  • What types of samples are compatible with your service?

    Our platform accommodates various sample types including fresh-frozen tissues, FFPE samples, and specially preserved tissue sections. Each sample type requires specific preparation protocols which our team will guide you through.

  • Can you analyze multiple tissue regions simultaneously?

    Yes, our platform allows for multiplexed analysis of different tissue regions while maintaining spatial context and resolution.

Creative Biostructure offers premium services in the field of exosome research, leveraging our expertise to tailor solutions that align with your specific requirements. For more information or to obtain a comprehensive pricing breakdown, please contact us.

Ordering Process

Ordering Process

References

  1. Lewis S M, Asselin-Labat M L, Nguyen Q, et al. Spatial omics and multiplexed imaging to explore cancer biology. Nature Methods. 2021. 18(9): 997-1012.
  2. Lin S, Zhao F, Wu Z, et al. Streamlining spatial omics data analysis with Pysod. Nature Protocols. 2024, 19(3): 831-895.
  3. Palla G, Spitzer H, Klein M, et al. Squidpy: a scalable framework for spatial omics analysis. Nature Methods. 2022. 19(2): 171-178.
  4. Xu C, Jin X, Wei S, et al. DeepST: identifying spatial domains in spatial transcriptomics by deep learning. Nucleic Acids Research. 2022. 50(22): e131-e131.
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