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Magnetic beads for
molecular workflows

Magnetic beads for
molecular workflows

Magnetic beads for
molecular workflows

Magnetic beads for
molecular workflows

Magnetic beads for molecular workflows

Powering next-gen diagnostics, kits, and automated workflows

Powering next-gen diagnostics, kits, and automated workflows

Powering next-gen diagnostics, kits, and automated workflows

Powering next-gen diagnostics, kits, and automated workflows

Request a sample

Request a sample

Request a sample

Request a sample

Request a sample

Developed for diagnostic demands

Developed for diagnostic demands

Developed for diagnostic demands

Developed for diagnostic demands

Developed for diagnostic demands

Cambrian’s magnetic bead technologies are engineered to power a wide range of molecular workflows. Manufactured in our Bangalore facility, each batch is QC-validated and can be customized to meet your specific application needs.

Cambrian’s magnetic bead technologies are engineered to power a wide range of molecular workflows. Manufactured in our Bangalore facility, each batch is QC-validated and can be customized to meet your specific application needs.

Cambrian’s magnetic bead technologies are engineered to power a wide range of molecular workflows. Manufactured in our Bangalore facility, each batch is QC-validated and can be customized to meet your specific application needs.

Cambrian’s magnetic bead technologies are engineered to power a wide range of molecular workflows. Manufactured in our Bangalore facility, each batch is QC-validated and can be customized to meet your specific application needs.

Cambrian’s magnetic bead technologies are engineered to power a wide range of molecular workflows. Manufactured in our Bangalore facility, each batch is QC-validated and can be customized to meet your specific application needs.

Precision surface
chemistry

Precision surface
chemistry

Precision surface
chemistry

Precision surface chemistry

Batch
consistency

Batch
consistency

Batch
consistency

Batch consistency

Application-specific
customization

Application-specific
customization

Application-specific
customization

Application-specific customization

Which works for your workflow?

Which works for your workflow?

Which works for your workflow?

Which works for your workflow?

CamSelect NGS

Beads for library
preparation

CamSelect NGS

Beads for library
preparation

CamSelect NGS

Beads for library
preparation

CamSelect NGS

Beads for library
preparation

CamSelect NGS

Beads for library
preparation

CamOxyl Beads

Carboxylated
magnetic beads

CamOxyl Beads

Carboxylated
magnetic beads

CamOxyl Beads

Carboxylated
magnetic beads

CamOxyl Beads

Carboxylated
magnetic beads

CamOxyl Beads

Carboxylated
magnetic beads

CamBeads Si

Silica-coated
magnetic beads

CamBeads Si

Silica-coated
magnetic beads

CamBeads Si

Silica-coated
magnetic beads

CamBeads Si

Silica-coated
magnetic beads

CamBeads Si

Silica-coated
magnetic beads

CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS enables library preparation for NGS workflows. It uses magnetic beads with polymers and salts, and selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables library preparation for NGS workflows. It uses magnetic beads with polymers and salts, and selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables library preparation for NGS workflows. It uses magnetic beads with polymers and salts, and selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables library preparation for NGS workflows. It uses magnetic beads with polymers and salts, and selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables library preparation for NGS workflows. It uses magnetic beads with polymers and salts, and selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

DNA size selection

DNA size selection

DNA size selection

DNA size selection

DNA size selection

PCR cleanup

PCR cleanup

PCR cleanup

PCR cleanup

PCR cleanup

Technical specifications for CamSelect NGS

Technical specifications for CamSelect NGS

Technical specifications for CamSelect NGS

Technical specifications for CamSelect NGS

Technical specifications for CamSelect NGS

Performance preview

Performance preview

Performance preview

Performance preview

Performance preview

Get more details

Get more details

Get more details

CamSelect NGS efficiently cleans up DNA and RNA fragments post-PCR, removing excess dNTPs and reaction components. With recovery rates up to 90%, it offers fast, column-free, magnetic stand–based purification.

CamSelect NGS efficiently cleans up DNA and RNA fragments post-PCR, removing excess dNTPs and reaction components. With recovery rates up to 90%, it offers fast, column-free, magnetic stand–based purification.

CamSelect NGS efficiently cleans up DNA and RNA fragments post-PCR, removing excess dNTPs and reaction components. With recovery rates up to 90%, it offers fast, column-free, magnetic stand–based purification.

CamSelect NGS efficiently cleans up DNA and RNA fragments post-PCR, removing excess dNTPs and reaction components. With recovery rates up to 90%, it offers fast, column-free, magnetic stand–based purification.

CamSelect NGS efficiently cleans up DNA and RNA fragments post-PCR, removing excess dNTPs and reaction components. With recovery rates up to 90%, it offers fast, column-free, magnetic stand–based purification.

Fig. 1.1 presents normalized recovery of three PCR fragments, comparing Cambrian with Ampure XP. Cambrian demonstrates higher recovery across all fragment sizes, indicating improved compatibility.

Fig. 1.1 presents normalized recovery of three PCR fragments, comparing Cambrian with Ampure XP. Cambrian demonstrates higher recovery across all fragment sizes, indicating improved compatibility.

Fig. 1.1 presents normalized recovery of three PCR fragments, comparing Cambrian with Ampure XP. Cambrian demonstrates higher recovery across all fragment sizes, indicating improved compatibility.

Fig. 1.1 presents normalized recovery of three PCR fragments, comparing Cambrian with Ampure XP. Cambrian demonstrates higher recovery across all fragment sizes, indicating improved compatibility.

Fig. 1.2 shows CamSelect NGS recovery across six replicates for a 300 bp PCR product, demonstrating high reproducibility.

Fig. 1.2 shows CamSelect NGS recovery across six replicates for a 300 bp PCR product, demonstrating high reproducibility.

Fig. 1.2 shows CamSelect NGS recovery across six replicates for a 300 bp PCR product, demonstrating high reproducibility.

Fig. 1.2 shows CamSelect NGS recovery across six replicates for a 300 bp PCR product, demonstrating high reproducibility.

Fig. 1.3 shows CamSelect NGS recovery across six replicates for a 600 bp PCR product, confirming consistent reproducibility.

Fig. 1.3 shows CamSelect NGS recovery across six replicates for a 600 bp PCR product, confirming consistent reproducibility.

Fig. 1.3 shows CamSelect NGS recovery across six replicates for a 600 bp PCR product, confirming consistent reproducibility.

Fig. 1.3 shows CamSelect NGS recovery across six replicates for a 600 bp PCR product, confirming consistent reproducibility.

Get more details

Get more details

Get more details

CamOxyl beads

CamOxyl beads

CamOxyl beads

CamOxyl beads

CamOxyl beads

CamOxyl beads are ferric oxide cores coated with carboxyl-functionalized silane groups, engineered for efficient and selective nucleic acid binding. The beads leverage hydrophobic interactions facilitated by chaotropic agents, salts, crowding agents, and alcohols in the binding buffer. CamOxyl beads are versatile and widely used across molecular biology workflows, including:

CamOxyl beads are ferric oxide cores coated with carboxyl-functionalized silane groups, engineered for efficient and selective nucleic acid binding. The beads leverage hydrophobic interactions facilitated by chaotropic agents, salts, crowding agents, and alcohols in the binding buffer. CamOxyl beads are versatile and widely used across molecular biology workflows, including:

CamOxyl beads are ferric oxide cores coated with carboxyl-functionalized silane groups, engineered for efficient and selective nucleic acid binding. The beads leverage hydrophobic interactions facilitated by chaotropic agents, salts, crowding agents, and alcohols in the binding buffer. CamOxyl beads are versatile and widely used across molecular biology workflows, including:

CamOxyl beads are ferric oxide cores coated with carboxyl-functionalized silane groups, engineered for efficient and selective nucleic acid binding. The beads leverage hydrophobic interactions facilitated by chaotropic agents, salts, crowding agents, and alcohols in the binding buffer. CamOxyl beads are versatile and widely used across molecular biology workflows, including:

CamOxyl beads are ferric oxide cores coated with carboxyl-functionalized silane groups, engineered for efficient and selective nucleic acid binding. The beads leverage hydrophobic interactions facilitated by chaotropic agents, salts, crowding agents, and alcohols in the binding buffer. CamOxyl beads are versatile and widely used across molecular biology workflows, including:

Nucleic Acid
Extraction

Nucleic Acid
Extraction

Nucleic Acid
Extraction

Nucleic Acid
Extraction

Nucleic Acid
Extraction

Protein
conjugation

Protein
conjugation

DNA and RNA
co-purification

DNA and RNA
co-purification

Microbiome
studies

Microbiome
studies

Microbiome
studies

Microbiome
studies

Microbiome
studies

Technical specifications for CamOxyl beads

Technical specifications for CamOxyl beads

Technical specifications for CamOxyl beads

Technical specifications for CamOxyl beads

Technical specifications for CamOxyl beads

Consistency you can count on

Consistency you can count on

Consistency you can count on

Consistency you can count on

Consistency you can count on

Compared to a popular spin-column kit, our solution delivers significantly higher RNA recovery with cleaner extracts.

Compared to a popular spin-column kit, our solution delivers significantly higher RNA recovery with cleaner extracts.

Compared to a popular spin-column kit, our solution delivers significantly higher RNA recovery with cleaner extracts.

Compared to a popular spin-column kit, our solution delivers significantly higher RNA recovery with cleaner extracts.

Compared to a popular spin-column kit, our solution delivers significantly higher RNA recovery with cleaner extracts.

RNA yield and purity were measured using Cambrian’s Blood RNA Isolation Kit on the Manta platform with Camoxyl beads. The graphs below show Qubit-based yield quantification and spectrophotometric purity ratios (A260/280, A260/230), ensuring accurate and reproducible assessment.

RNA yield and purity were measured using Cambrian’s Blood RNA Isolation Kit on the Manta platform with Camoxyl beads. The graphs below show Qubit-based yield quantification and spectrophotometric purity ratios (A260/280, A260/230), ensuring accurate and reproducible assessment.

RNA yield and purity were measured using Cambrian’s Blood RNA Isolation Kit on the Manta platform with Camoxyl beads. The graphs below show Qubit-based yield quantification and spectrophotometric purity ratios (A260/280, A260/230), ensuring accurate and reproducible assessment.

RNA yield and purity were measured using Cambrian’s Blood RNA Isolation Kit on the Manta platform with Camoxyl beads. The graphs below show Qubit-based yield quantification and spectrophotometric purity ratios (A260/280, A260/230), ensuring accurate and reproducible assessment.

RNA yield and purity were measured using Cambrian’s Blood RNA Isolation Kit on the Manta platform with Camoxyl beads. The graphs below show Qubit-based yield quantification and spectrophotometric purity ratios (A260/280, A260/230), ensuring accurate and reproducible assessment.

Sample number

Total RNA yield (µg)

0

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8

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1

Sample number

Total RNA yield (µg)

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2

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8

7

6

5

4

3

2

1

Sample number

Total RNA yield (µg)

0

2

4

6

8

10

8

7

6

5

4

3

2

1

Sample number

Total RNA yield (µg)

0

2

4

6

8

10

8

7

6

5

4

3

2

1

Sample number

Total RNA yield (µg)

0

2

4

6

8

10

8

7

6

5

4

3

2

1

Total RNA Yield (µg) comparison between Cambrian Bioworks and Supplier A

Total RNA Yield (µg) comparison between Cambrian Bioworks and Supplier A

Total RNA Yield (µg) comparison between Cambrian Bioworks and Supplier A

Total RNA Yield (µg) comparison between Cambrian Bioworks and Supplier A

Number of samples

Purity

0.0

0.5

1.0

1.5

2.0

2.5

8

6

4

2

Number of samples

Purity

0.0

0.5

1.0

1.5

2.0

2.5

8

6

4

2

Number of samples

Purity

0.0

0.5

1.0

1.5

2.0

2.5

8

6

4

2

Number of samples

Purity

0.0

0.5

1.0

1.5

2.0

2.5

8

6

4

2

Number of samples

Purity

0.0

0.5

1.0

1.5

2.0

2.5

8

6

4

2

RNA purity (A260/280) comparison between Cambrian Bioworks and Supplier A

RNA purity (A260/280) comparison between Cambrian Bioworks and Supplier A

RNA purity (A260/280) comparison between Cambrian Bioworks and Supplier A

RNA purity (A260/280) comparison between Cambrian Bioworks and Supplier A

CamBeads-Si

CamBeads-Si

CamBeads-Si

CamBeads-Si

CamBeads-Si

CamBead-Si beads are ferric oxide cores coated with a uniform layer of functionalized silane. This surface enables strong and selective binding of nucleic acids through hydrophobic interactions and salt bridge formation, using alcohol and minimal salt in the binding buffer. It is ideal for a range of molecular workflows, including:

CamBead-Si beads are ferric oxide cores coated with a uniform layer of functionalized silane. This surface enables strong and selective binding of nucleic acids through hydrophobic interactions and salt bridge formation, using alcohol and minimal salt in the binding buffer. It is ideal for a range of molecular workflows, including:

CamBead-Si beads are ferric oxide cores coated with a uniform layer of functionalized silane. This surface enables strong and selective binding of nucleic acids through hydrophobic interactions and salt bridge formation, using alcohol and minimal salt in the binding buffer. It is ideal for a range of molecular workflows, including:

CamBead-Si beads are ferric oxide cores coated with a uniform layer of functionalized silane. This surface enables strong and selective binding of nucleic acids through hydrophobic interactions and salt bridge formation, using alcohol and minimal salt in the binding buffer. It is ideal for a range of molecular workflows, including:

CamBead-Si beads are ferric oxide cores coated with a uniform layer of functionalized silane. This surface enables strong and selective binding of nucleic acids through hydrophobic interactions and salt bridge formation, using alcohol and minimal salt in the binding buffer. It is ideal for a range of molecular workflows, including:

Genomic DNA
Extraction

Genomic DNA
Extraction

Genomic DNA
Extraction

Genomic DNA
Extraction

Genomic DNA
Extraction

cfDNA Recovery

cfDNA
Recovery

cfDNA Recovery

Viral RNA
extraction

Viral RNA
extraction

Viral RNA
extraction

Environmental DNA
extraction

Environmental DNA
extraction

Environmental DNA
extraction

Technical specifications for CamBeads-Si

Technical specifications for CamBeads-Si

Technical specifications for CamBeads-Si

Technical specifications for CamBeads-Si

Technical specifications for CamBeads-Si

Customization & support

Customization & support

Customization & support

Customization & support

Working on a specific workflow? We partner with labs to trial, test, and refine bead formulations that fit your needs. From early evaluations to reliable supply, we’re here to support your build-out.

Working on a specific workflow? We partner with labs to trial, test, and refine bead formulations that fit your needs. From early evaluations to reliable supply, we’re here to support your build-out.

Streamline your nucleic acid extraction with a magnetic stand that’s designed for consistency, speed, and ease of use.

Working on a specific workflow? We partner with labs to trial, test, and refine bead formulations that fit your needs. From early evaluations to reliable supply, we’re here to support your build-out.

Whether you’re just getting started or scaling up, our team can help you build the ideal setup.

Buy now

Buy now

Buy now

Buy now

Buy now