Your go-to solution for reliable
RNA in oncology workflows
Your go-to solution for reliable RNA in oncology workflows
Your go-to solution for reliable RNA in oncology workflows
Your go-to solution for reliable
RNA in oncology workflows
Your go-to solution for
reliable RNA in oncology
workflows
The Cambrian FFPE RNA Isolation Kit provides consistent yield and purity, ensuring reproducibility across cohorts.
The Cambrian FFPE RNA Isolation Kit provides consistent yield and purity, ensuring reproducibility across cohorts.
The Cambrian FFPE RNA Isolation Kit provides consistent yield and purity, ensuring reproducibility across cohorts.
The Cambrian FFPE RNA Isolation Kit provides consistent yield and purity, ensuring reproducibility across cohorts.
Available pack size:
Available pack size:
Available pack size:
50 reactions
50 reactions
50 reactions
Designed for the realities
of oncology workflows
Designed for the realities of oncology workflows
Designed for the realities
of oncology workflows
Designed for the realities
of oncology workflows
Designed for the realities
of oncology workflows
Consistent RNA quality
Consistent RNA quality
Consistent RNA quality
Consistent RNA quality
Single-cell transcriptomics
Single-cell transcriptomics
Single-cell transcriptomics
Single-cell transcriptomics
Gene expression profiling
Gene expression profiling
Gene expression profiling
Gene expression profiling
Fusion gene detection
Fusion gene detection
Fusion gene detection
Fusion gene detection
Therapeutic development
Therapeutic development
Therapeutic development
Therapeutic development
Liquid biopsy
Liquid biopsy
Liquid biopsy
Liquid biopsy
Molecular diagnostics
Molecular diagnostics
Molecular diagnostics
Molecular diagnostics
lncRNA and miRNA research
lncRNA and miRNA research
lncRNA and miRNA research
lncRNA and miRNA research
Optimized chemistry counteracts crosslinking and fragmentation, reducing assay failures and delivering RNA with the integrity required for sensitive downstream applications.
Optimized chemistry counteracts crosslinking and fragmentation, reducing assay failures and delivering RNA with the integrity required for sensitive downstream applications.
Optimized chemistry counteracts crosslinking and fragmentation, reducing assay failures and delivering RNA with the integrity required for sensitive downstream applications.
Maximum RNA recovery
Maximum RNA recovery
Maximum RNA recovery
Maximum RNA recovery
Magnetic bead–based purification delivers reproducible yields, even from small or over-fixed tissue sections.
Magnetic bead–based purification delivers reproducible yields, even from small or over-fixed tissue sections.
Magnetic bead–based purification delivers reproducible yields, even from small or over-fixed tissue sections.
DV200 >70%
DV200 >70%
DV200 >70%
DV200 >70%
Get high-integrity RNA for demanding sensitive applications.
Get high-integrity RNA for demanding sensitive applications.
Get high-integrity RNA for demanding sensitive applications.
Zero DNA contamination
Zero DNA contamination
Zero DNA contamination
Zero DNA contamination
Integrated DNase treatment safeguards downstream accuracy in expression profiling and biomarker studies.
Integrated DNase treatment safeguards downstream accuracy in expression profiling and biomarker studies.
Integrated DNase treatment safeguards downstream accuracy in expression profiling and biomarker studies.
No overnight lysis required
No overnight lysis required
No overnight lysis required
No overnight lysis required
Accelerated workflow with same-day processing of FFPE samples.
Accelerated workflow with same-day processing of FFPE samples.
Accelerated workflow with same-day processing of FFPE samples.
Performance preview
Performance preview
Performance preview
Performance preview
Performance preview
RNA yield and purity datasets
RNA yield and purity datasets
RNA yield and purity datasets
RNA yield and purity datasets
RNA yield and purity datasets
From just four 10 µm FFPE curls, the kit delivers ~5,00 ng of RNA (Qubit) with excellent purity (A260/280: 1.9–2.1 & A260/230: 1.5–2.0). The high yield and quality make it ideal for demanding applications such as BCR-ABL testing and RNA-seq, ensuring reliable results and seamless downstream compatibility.
From just four 10 µm FFPE curls, the kit delivers ~5,00 ng of RNA (Qubit) with excellent purity (A260/280: 1.9–2.1 & A260/230: 1.5–2.0). The high yield and quality make it ideal for demanding applications such as BCR-ABL testing and RNA-seq, ensuring reliable results and seamless downstream compatibility.
From just four 10 µm FFPE curls, the kit delivers ~5,00 ng of RNA (Qubit) with excellent purity (A260/280: 1.9–2.1 & A260/230: 1.5–2.0). The high yield and quality make it ideal for demanding applications such as BCR-ABL testing and RNA-seq, ensuring reliable results and seamless downstream compatibility.
From just four 10 µm FFPE curls, the kit delivers ~5,00 ng of RNA (Qubit) with excellent purity (A260/280: 1.9–2.1 & A260/230: 1.5–2.0). The high yield and quality make it ideal for demanding applications such as BCR-ABL testing and RNA-seq, ensuring reliable results and seamless downstream compatibility.
Yield (ng)
Yield (ng)
Yield (ng)
A260/A280
A260/A280
A260/A280
A260/A230
A260/A230
A260/A230
Sample number
Qubit yield (ng)
500
1000
5000
10000
8
7
6
5
4
3
2
1
0.0
0.5
1.0
1.5
2.0
2.5
Purity ratio
Sample number
Qubit yield (ng)
500
1000
5000
10000
8
7
6
5
4
3
2
1
0.0
0.5
1.0
1.5
2.0
2.5
Purity ratio
Sample number
Qubit yield (ng)
500
1000
5000
10000
8
7
6
5
4
3
2
1
0.0
0.5
1.0
1.5
2.0
2.5
Purity ratio
Sample number
Qubit yield (ng)
500
1000
5000
10000
8
7
6
5
4
3
2
1
0.0
0.5
1.0
1.5
2.0
2.5
Purity ratio
Sample number
Qubit yield (ng)
500
1000
5000
10000
8
7
6
5
4
3
2
1
0.0
0.5
1.0
1.5
2.0
2.5
Purity ratio
RIN & DV200 values
RIN & DV200 values
RIN & DV200 values
RIN & DV200 values
RIN & DV200 values
DV200, the percentage of RNA fragments longer than 200 nucleotides, is a key metric for RNA-seq suitability (Illumina). Even with low-quality FFPE blocks, our kit consistently delivers high RNA yields that meet sequencing input requirements. While both DV200 and RIN values depend on the intrinsic quality of FFPE samples, our kit ensures reliable performance, with RIN values typically ranging from 1.9 to 3.8.
DV200, the percentage of RNA fragments longer than 200 nucleotides, is a key metric for RNA-seq suitability (Illumina). Even with low-quality FFPE blocks, our kit consistently delivers high RNA yields that meet sequencing input requirements. While both DV200 and RIN values depend on the intrinsic quality of FFPE samples, our kit ensures reliable performance, with RIN values typically ranging from 1.9 to 3.8.
DV200, the percentage of RNA fragments longer than 200 nucleotides, is a key metric for RNA-seq suitability (Illumina). Even with low-quality FFPE blocks, our kit consistently delivers high RNA yields that meet sequencing input requirements. While both DV200 and RIN values depend on the intrinsic quality of FFPE samples, our kit ensures reliable performance, with RIN values typically ranging from 1.9 to 3.8.
DV200, the percentage of RNA fragments longer than 200 nucleotides, is a key metric for RNA-seq suitability (Illumina). Even with low-quality FFPE blocks, our kit consistently delivers high RNA yields that meet sequencing input requirements. While both DV200 and RIN values depend on the intrinsic quality of FFPE samples, our kit ensures reliable performance, with RIN values typically ranging from 1.9 to 3.8.
Sample number
Sample number
Sample number
1
1
1
2
2
2
3
3
3
4
4
4
5
5
5
6
6
6
7
7
7
8
8
8
RIN
RIN
RIN
3.8
3.8
3.8
3.1
3.1
3.1
3.2
3.2
3.2
2.1
2.1
2.1
1.7
1.7
1.7
2.1
2.1
2.1
1.8
1.8
1.8
2.6
2.6
2.6
DV200 (%)
DV200 (%)
DV200 (%)
85.47
85.47
85.47
73.09
73.09
73.09
83.59
83.59
83.59
60.23
60.23
60.23
40.7
40.7
40.7
32.1
32.1
32.1
34.58
34.58
34.58
58.91
58.91
58.91
Optimized for
critical downstream assays
Gene expression profiling
Tumor subtype classification
Immune profiling (e.g., HER2+ vs. triple-negative breast cancer)
Biomarker discovery & validation
Transcriptome studies
RNA fusions & splice variants
Retrospective clinical research
Optimized for critical downstream assays
Gene expression profiling
Tumor subtype classification
Immune profiling (e.g., HER2+ vs. triple-negative breast cancer)
Biomarker discovery & validation
Linking RNA signatures to prognosis
Therapy response
Disease progression
Transcriptome studies
Global expression profiling
Whole-transcriptome RNA-seq for personalized oncology
RNA fusions & splice variants
Detect clinically relevant gene fusions
Characterize splice isoforms linked to cancer biology
Retrospective clinical research
Mining archived FFPE archives for relapse, survival, and long-term outcome correlations
Optimized for critical downstream assays
Gene expression profiling
Tumor subtype classification
Immune profiling (e.g., HER2+ vs. triple-negative breast cancer)
Biomarker discovery & validation
Linking RNA signatures to prognosis
Therapy response
Disease progression
Transcriptome studies
Global expression profiling
Whole-transcriptome RNA-seq for personalized oncology
RNA fusions & splice variants
Detect clinically relevant gene fusions
Characterize splice isoforms linked to cancer biology
Retrospective clinical research
Mining archived FFPE archives for relapse, survival, and long-term outcome correlations
Optimized for
critical downstream assays
Gene expression profiling
Tumor subtype classification
Immune profiling (e.g., HER2+ vs. triple-negative breast cancer)
Biomarker discovery & validation
Transcriptome studies
RNA fusions & splice variants
Retrospective clinical research
Optimized for
critical downstream assays
Gene expression profiling
Tumor subtype classification
Immune profiling (e.g., HER2+ vs. triple-negative breast cancer)
Biomarker discovery & validation
Transcriptome studies
RNA fusions & splice variants
Retrospective clinical research
Automation-friendly
format
Automation-friendly
format
Automation-friendly
format
Automation-friendly
format
Automation-friendly format
Designed for adaptation on Manta, enabling high-throughput and reproducible RNA extraction for oncology and research workflows.
Designed for adaptation on Manta, enabling high-throughput and reproducible RNA extraction for oncology and research workflows.
Designed for adaptation on Manta, enabling high-throughput and reproducible RNA extraction for oncology and research workflows.
Designed for adaptation on Manta, enabling high-throughput and reproducible RNA extraction for oncology and research workflows.
Designed for adaptation on Manta, enabling high-throughput and reproducible RNA extraction for oncology and research workflows.
Technical specifications
Technical specifications
Technical specifications
Technical specifications
Technical specifications
FAQs
How does your kit perform on older or over-fixed FFPE blocks?
What RNA quality metrics can I expect?
Can I run this on my existing 96-well format automated systems?
How much RNA can I expect from a sample?
Is the kit RUO or IVD?
What customizations are available?
FAQs
FAQs
FAQs
How does your kit perform on older or over-fixed FFPE blocks?
What RNA quality metrics can I expect?
Can I run this on my existing 96-well format automated systems?
How much RNA can I expect from a sample?
Is the kit RUO or IVD?
What customizations are available?
FAQs
How does your kit perform on older or over-fixed FFPE blocks?
What RNA quality metrics can I expect?
Can I run this on my existing 96-well format automated systems?
How much RNA can I expect from a sample?
Is the kit RUO or IVD?
What customizations are available?
Simplify your workflows
Simplify your workflows
Simplify your workflows
Simplify your workflows
Recover high-integrity RNA for sensitive assays.
Recover high-integrity RNA for sensitive assays.
Recover high-integrity RNA for sensitive assays.
Recover high-integrity RNA for sensitive assays.
Recover high-integrity RNA for sensitive assays.