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Human Whole Genome SequencingWhole Exome SequencingPlant and Animal Whole Genome SequencingPlant and Animal De novo SequencingDNA Methylation SequencingmRNA SequencingFull-Length Transcriptome SequencingWhole Transcriptome SequencingMetatranscriptome SequencingShotgun Metagenomics SequencingAmplicon SequencingWhole Plasmid Sequencing10X Single Cell Gene Expression10X Single Cell Immune Profiling10X Visium HD Spatial Gene ExpressionOlink ProteomicsUntargeted MetabolomicsAccredited & Validated Clinical Research Sequencing
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Copyright © 2026 Novogene Inc. All rights reserved.For Research Use Only. Not for Clinical Diagnostic Use.
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Novogene Europe
  • Novogene Europe
  • Genomics
    • Human Whole Genome Sequencing
    • Whole Exome Sequencing
    • Plant and Animal Whole Genome Sequencing
    • Plant and Animal De novo Sequencing
    • Microbial Whole Genome Sequencing
    • Microbial De novo Sequencing
    • Whole Plasmid SequencingOrder Online!
    Proteomics
    • Olink ProteomicsNew!
    Epigenomics
    • DNA Methylation SequencingUpdated!
    • Chromatin Immunoprecipitation Sequencing (ChIP-seq)
    • RNA Immunoprecipitation Sequencing (RIP-seq)
    Metabolomics
    • Untargeted MetabolomicsComing Soon!
    Transcriptomics
    • mRNA Sequencing
    • Small RNA Sequencing (sRNA‑seq)
    • Circular RNA Sequencing (circRNA-seq)
    • Total RNA Sequencing
    • Whole Transcriptome Sequencing
    • Full-Length Transcriptome Sequencing
    • Prokaryotic RNA Sequencing
    • Metatranscriptome Sequencing
    Metagenomics
    • Amplicon SequencingOrder Online!
    • Shotgun Metagenomics Sequencing
    Single Cell & Spatial Omics
    • 10X Single Cell Gene Expression
    • 10X Single Cell Immune Profiling
    • 10X Visium HD Spatial Gene Expression
    Premade Library
    • Sequencing Only on Illumina® Sequencer
    • Sequencing Only on Element SequencerNew!
    • Sequencing Only on PacBio Sequencer
    Translational Research
    • Accredited & Validated Clinical Research Sequencing
  • PromotionsPromotions
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    • Automated Delivery Platform (Falcon)
    • Bioinformatics Analysis Tool (NovoMagic)
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    • Plant and Animal Microbiome
    • Drug Discovery and Development
    • Rare and Complex Diseases
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    • Careers
    • Our Locations
  • Contact UsContact Us
    • Amplicon Sequencing
    • Whole Plasmid Sequencing

ServicesServices menu

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SupportSupport menu

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Services
Human Whole Genome SequencingWhole Exome SequencingPlant and Animal Whole Genome SequencingPlant and Animal De novo SequencingDNA Methylation SequencingmRNA SequencingFull-Length Transcriptome SequencingWhole Transcriptome SequencingMetatranscriptome SequencingShotgun Metagenomics SequencingAmplicon SequencingWhole Plasmid Sequencing10X Single Cell Gene Expression10X Single Cell Immune Profiling10X Visium HD Spatial Gene ExpressionOlink ProteomicsUntargeted MetabolomicsAccredited & Validated Clinical Research Sequencing
Resources
WebinarsCase StudyBlogBrochure
Support
PlatformBioinformatics Analysis Tool (NovoMagic)Customer Service System (CSS)Customer Support
Company
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Copyright © 2026 Novogene Inc. All rights reserved.For Research Use Only. Not for Clinical Diagnostic Use.
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Immuno-oncology Research

Omics-based approaches for investigating tumour–immune interactions, immune landscapes and treatment response research.

Overview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Overview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

How Omics Supports Immuno-oncology

Common Research Approaches

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

How Omics Supports Immuno-oncology

Common Research Approaches

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Supporting Immuno-oncology Research with Novogene Europe

Novogene Europe provides access to sequencing, single-cell, spatial and bioinformatics workflows to support immuno-oncology studies across tumour profiling, immune landscape analysis and tumour microenvironment research.


Depending on your study design, our team can help you consider suitable approaches for tumour tissue, blood-derived immune cells, cell models, preclinical samples or translational research cohorts.

Discuss Your Immuno-oncology Project

Share your samples and research goals, and our team can help identify suitable sequencing or multi-omics options.
Contact Us
(Discuss Your Immuno-oncology Project)
Contact Us
(Discuss Your Immuno-oncology Project)
Privacy PolicyCookie PolicyTerms
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Immuno-oncology Research

Omics-based approaches for investigating tumour–immune interactions, immune landscapes and treatment response research.

Overview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Overview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

Immuno-oncology research focuses on how the immune system recognises, responds to and is regulated by tumours. Sequencing and multi-omics technologies can help researchers investigate tumour–immune interactions, immune cell states, inflammatory signalling and mechanisms linked to immune escape or treatment response.


From bulk tumour profiling to single-cell and spatial analysis, omics-based approaches can support studies of the tumour immune microenvironment at multiple levels. These insights can help researchers explore immune infiltration, checkpoint-related pathways, antigen presentation, immune suppression and response-associated molecular features.


Novogene Europe supports immuno-oncology research with sequencing, single-cell, spatial and bioinformatics workflows for studies of tumour immune environments, therapy response, resistance mechanisms and biomarker discovery.

Preview

How Omics Supports Immuno-oncology

Common Research Approaches

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

How Omics Supports Immuno-oncology

Common Research Approaches

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Tumour–Immune Microenvironment Profiling

Characterise immune and stromal cell populations, inflammatory signalling and immune-suppressive features within complex tumour research samples.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Immunotherapy Response & Resistance

Study molecular patterns associated with response, non-response, immune escape and treatment-driven changes across research cohorts or models.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Single-cell Immune Landscape Analysis

Resolve immune cell subsets, activation states, exhaustion programmes and cellular heterogeneity within complex tumour microenvironments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Spatial Tumour–Immune Context

Explore how immune cells, tumour regions and stromal compartments are organised across tissue and local niche environments.

Supporting Immuno-oncology Research with Novogene Europe

Novogene Europe provides access to sequencing, single-cell, spatial and bioinformatics workflows to support immuno-oncology studies across tumour profiling, immune landscape analysis and tumour microenvironment research.


Depending on your study design, our team can help you consider suitable approaches for tumour tissue, blood-derived immune cells, cell models, preclinical samples or translational research cohorts.

Discuss Your Immuno-oncology Project

Share your samples and research goals, and our team can help identify suitable sequencing or multi-omics options.
Contact Us
(Discuss Your Immuno-oncology Project)
Contact Us
(Discuss Your Immuno-oncology Project)
Privacy PolicyCookie PolicyTerms