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CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS

Beads for library preparation workflows

Beads for library preparation workflows

Beads for library preparation workflows

Beads for library preparation workflows

Beads for library preparation workflows

CamSelect magnetic beads for DNA size selection and PCR clean-up in library preparation for next-generation sequencing workflows
CamSelect magnetic beads for DNA size selection and PCR clean-up in library preparation for next-generation sequencing workflows
CamSelect magnetic beads for DNA size selection and PCR clean-up in library preparation for next-generation sequencing workflows
CamSelect magnetic beads for DNA size selection and PCR clean-up in library preparation for next-generation sequencing workflows

Buy now (25 mL)

Buy now (25 mL)

Buy now (25 mL)

Buy now (25 mL)

Buy now (25 mL)

Buy now (75 mL)

Buy now (75 mL)

Buy now (75 mL)

Buy now (75 mL)

Buy now (75 mL)

Engineered for DNA precision

Engineered for DNA precision

Engineered for DNA precision

Engineered for DNA
precision

Engineered for DNA precision

CamSelect NGS enables efficient size selection and PCR clean-up, ensuring high-purity DNA for downstream applications.


Using magnetic beads with polymers and salts, it selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables efficient size selection and PCR clean-up, ensuring high-purity DNA for downstream applications.


Using magnetic beads with polymers and salts, it selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables efficient size selection and PCR clean-up, ensuring high-purity DNA for downstream applications.


Using magnetic beads with polymers and salts, it selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables efficient size selection and PCR clean-up, ensuring high-purity DNA for downstream applications.


Using magnetic beads with polymers and salts, it selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

CamSelect NGS enables efficient size selection and PCR clean-up, ensuring high-purity DNA for downstream applications.


Using magnetic beads with polymers and salts, it selectively binds DNA above a set size threshold. The reversible binding process delivers precise isolation and preparation of target fragments.

Consistent results

Consistent results

ISO 13485–manufactured with ultra-uniform Camoxyl™ beads for up to 90% DNA recovery across volumes and fragment sizes.

ISO 13485–manufactured with ultra-uniform Camoxyl™ beads for up to 90% DNA recovery across volumes and fragment sizes.

Assured supply

Assured supply

Assured supply

Made in India in an ISO 13485 certified facility with guaranteed dispatch within 5 business days.

Made in India in an ISO 13485 certified facility with guaranteed dispatch within 5 business days.

Made in India in an ISO 13485 certified facility with guaranteed dispatch within 5 business days.

Fast and scalable

Fast and scalable

Fast and scalable

Optimized for 96/384-well formats with no centrifugation, rapid bead capture, and seamless use in both manual and automated liquid handling workflows.

Optimized for 96/384-well formats with no centrifugation, rapid bead capture, and seamless use in both manual and automated liquid handling workflows.

Optimized for 96/384-well formats with no centrifugation, rapid bead capture, and seamless use in both manual and automated liquid handling workflows.

Consistent results

ISO 13485–manufactured with ultra-uniform Camoxyl™ beads for up to 90% DNA recovery across volumes and fragment sizes.

Cost-effective

Cost-effective

Cost-effective

Reduce costs while maintaining high recovery rates and consistent performance.

Reduce costs while maintaining high recovery rates and consistent performance.

Reduce costs while maintaining high recovery rates and consistent performance.

Seamless integration

Seamless integration

Seamless integration

Works with existing protocols and automation scripts without any changes or revalidation.

Works with existing protocols and automation scripts without any changes or revalidation.

Works with existing protocols and automation scripts without any changes or revalidation.

Reliable recovery

Reliable recovery

Reliable recovery

Reliable recovery

Reliable recovery

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.

The figures below illustrate the recovery and reproducibility performance of CamSelect in PCR fragment analysis:

The figures below illustrate the recovery and reproducibility performance of CamSelect in PCR fragment analysis:

The figures below illustrate the recovery and reproducibility performance of CamSelect in PCR fragment analysis:

The figures below illustrate the recovery and reproducibility performance of CamSelect in PCR fragment analysis:

The figures below illustrate the recovery and reproducibility performance of CamSelect in PCR fragment analysis:

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

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

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

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

Fig. 1.1 presents normalized recovery of three PCR fragments, comparing Camselect NGS with Ampure XP. Camselect 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. 1.2 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.

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

Size selection efficiency

Size selection efficiency

Size selection efficiency

Size selection efficiency

Size selection efficiency

Genomic DNA was extracted from whole blood using Manta, sheared with Covaris, and quantified at 4 ng/μl by Qubit. For size selection, 50 μl of this sheared DNA was analyzed on an Agilent TapeStation, with quantification confirmed by Qubit.

Genomic DNA was extracted from whole blood using Manta, sheared with Covaris, and quantified at 4 ng/μl by Qubit. For size selection, 50 μl of this sheared DNA was analyzed on an Agilent TapeStation, with quantification confirmed by Qubit.

Genomic DNA was extracted from whole blood using Manta, sheared with Covaris, and quantified at 4 ng/μl by Qubit. For size selection, 50 μl of this sheared DNA was analyzed on an Agilent TapeStation, with quantification confirmed by Qubit.

Genomic DNA was extracted from whole blood using Manta, sheared with Covaris, and quantified at 4 ng/μl by Qubit. For size selection, 50 μl of this sheared DNA was analyzed on an Agilent TapeStation, with quantification confirmed by Qubit.

Genomic DNA was extracted from whole blood using Manta, sheared with Covaris, and quantified at 4 ng/μl by Qubit. For size selection, 50 μl of this sheared DNA was analyzed on an Agilent TapeStation, with quantification confirmed by Qubit.

CamSelect NGS was used at various sample to bead ratios to result in size specific fragment selection.

CamSelect NGS was used at various sample to bead ratios to result in size specific fragment selection.

CamSelect NGS was used at various sample to bead ratios to result in size specific fragment selection.

0.8x

0.8x

0.8x

1.0x

1.0x

1.0x

1.5x

1.5x

1.5x

2.0x

2.0x

2.0x

Sheared DNA

Sheared DNA

Sheared DNA

Target fragment
size

Target fragment
size

Target fragment
size

100 bp - 1500 bp

100 bp - 1500 bp

100 bp - 1500 bp

≥ 200 bp

≥ 200 bp

≥ 200 bp

≥ 200 bp

≥ 500 bp

≥ 500 bp

≥ 500 bp

≥ 500 bp

≥ 700 bp

≥ 700 bp

≥ 700 bp

≥ 700 bp

Recommended
reagent volume

Recommended
reagent volume

Recommended
reagent volume

1.8x

1.8x

1.8x

1.8x

0.8x

0.8x

0.8x

0.8x

0.4x

0.4x

0.4x

0.4x

0.35x

0.35x

0.35x

0.35x

Benchmark comparison

Benchmark comparison

Benchmark comparison

Benchmark comparison

Size selection was performed on DNA elutes at 1x ratio and the analysis was conducted on the TapeStation Analyzer. The yellow curve indicates CamSelect NGS and the blue curve represents competitor SPRI beads (AmpureXP)

Size selection was performed on DNA elutes at 1x ratio and the analysis was conducted on the TapeStation Analyzer. The yellow curve indicates CamSelect NGS and the blue curve represents competitor SPRI beads (AmpureXP)

Size selection was performed on DNA elutes at 1x ratio and the analysis was conducted on the TapeStation Analyzer. The yellow curve indicates CamSelect NGS and the blue curve represents competitor SPRI beads (AmpureXP)

Size selection was performed on DNA elutes at 1x ratio and the analysis was conducted on the TapeStation Analyzer. The yellow curve indicates CamSelect NGS and the blue curve represents competitor SPRI beads (AmpureXP)

Size selection was performed on DNA elutes at 1x ratio and the analysis was conducted on the TapeStation Analyzer. The yellow curve indicates CamSelect NGS and the blue curve represents competitor SPRI beads (AmpureXP)

SPRI beads

SPRI beads

SPRI beads

SPRI beads

CamSelect NGS

CamSelect NGS

CamSelect NGS

CamSelect NGS

Seamless integration with
leading sequencing platforms

Seamless integration with
leading sequencing platforms

Seamless integration with leading sequencing platforms

Seamless integration with
leading sequencing platforms

Seamless integration with leading sequencing platforms

Ion Torrent

CamSelect beads streamline DNA preparation, ensuring seamless integration with Ion Torrent for high-quality sequencing data.

Ion Torrent

CamSelect beads streamline DNA preparation, ensuring seamless integration with Ion Torrent for high-quality sequencing data.

Ion Torrent

CamSelect beads streamline DNA preparation, ensuring seamless integration with Ion Torrent for high-quality sequencing data.

Ion Torrent

CamSelect beads streamline DNA preparation, ensuring seamless integration with Ion Torrent for high-quality sequencing data.

Ion Torrent

CamSelect beads streamline DNA preparation, ensuring seamless integration with Ion Torrent for high-quality sequencing data.

Illumina

Designed for Illumina’s short-read workflows, CamSelect simplifies size selection and PCR clean-up for optimal sequencing results.

Illumina

Designed for Illumina’s short-read workflows, CamSelect simplifies size selection and PCR clean-up for optimal sequencing results.

Illumina

Designed for Illumina’s short-read workflows, CamSelect simplifies size selection and PCR clean-up for optimal sequencing results.

Illumina

Designed for Illumina’s short-read workflows, CamSelect simplifies size selection and PCR clean-up for optimal sequencing results.

Illumina

Designed for Illumina’s short-read workflows, CamSelect simplifies size selection and PCR clean-up for optimal sequencing results.

Oxford Nanopore

CamSelect NGS enables precise size selection of DNA for long-read sequencing on ONT platforms.

Oxford Nanopore

CamSelect NGS enables precise size selection of DNA for long-read sequencing on ONT platforms.

Oxford Nanopore

CamSelect NGS enables precise size selection of DNA for long-read sequencing on ONT platforms.

Oxford Nanopore

CamSelect NGS enables precise size selection of DNA for long-read sequencing on ONT platforms.

Oxford Nanopore

CamSelect NGS enables precise size selection of DNA for long-read sequencing on ONT platforms.

Optimized for your workflows

Optimized for your workflows

Optimized for your workflows

Optimized for your workflows

Optimized for your workflows

CamSelect NGS beads are designed to meet the rigorous demands of clinical, research, and biopharma sequencing environments.

CamSelect NGS beads are designed to meet the rigorous demands of clinical, research, and biopharma sequencing environments.

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

CamSelect NGS beads are designed to meet the rigorous demands of clinical, research, and biopharma sequencing environments.

CamSelect NGS beads are designed to meet the rigorous demands of clinical, research, and biopharma sequencing environments.

Typical NGS workflows (Library prep, size selection, cleanup)

Typical NGS workflows (Library prep, size selection, cleanup)

Typical NGS workflows (Library prep, size selection, cleanup)

Typical NGS workflows (Library prep, size selection, cleanup)

Typical NGS workflows (Library prep, size selection, cleanup)

Single cell & multiomics workflows

Single cell & multiomics workflows

Single cell & multiomics workflows

Single cell & multiomics workflows

Single cell & multiomics workflows

Genomic DNA / FFPE applications

Genomic DNA / FFPE applications

Genomic DNA / FFPE applications

Genomic DNA / FFPE applications

Genomic DNA / FFPE applications

Target enrichment & amplicon sequencing

Target enrichment & amplicon sequencing

Target enrichment & amplicon sequencing

Target enrichment & amplicon sequencing

Target enrichment & amplicon sequencing

Long-read sequencing (ONT, PacBio)

Long-read sequencing (ONT, PacBio)

Long-read sequencing (ONT, PacBio)

Long-read sequencing (ONT, PacBio)

Long-read sequencing (ONT, PacBio)

Workflow overview

Workflow overview

Workflow overview

Workflow overview

Workflow overview

Illumina NGS Library Prep

Illumina NGS Library Prep

Illumina NGS Library Prep

Illumina NGS Library Prep

NovaSeq

NovaSeq

NovaSeq

NovaSeq

NovaSeq

NextSeq

NextSeq

NextSeq

NextSeq

NextSeq

MiSeq

MiSeq

MiSeq

MiSeq

MiSeq

CamSelect NGS removes excess primers and unwanted fragments after PCR, ensuring cleaner libraries. In dual-index workflows, it’s also used post-indexing PCR to improve purity before sequencing.

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

CamSelect NGS removes excess primers and unwanted fragments after PCR, ensuring cleaner libraries. In dual-index workflows, it’s also used post-indexing PCR to improve purity before sequencing.

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

DNA extraction

DNA extraction

DNA extraction

DNA extraction

DNA extraction

PCR Amplification

PCR amplification

PCR amplification

Clean-up

Clean-up

Clean-up

PCR amplification

Clean-up

PCR amplification

Clean-up

Library QC

Library QC

Library QC

Library QC

Library QC

Normalization & pooling

Normalization & pooling

Normalization & pooling

Normalization & pooling

Normalization & pooling

Sequencing

Sequencing

Sequencing

Sequencing

Sequencing

Target Enrichment

Target Enrichment

Target Enrichment

Target Enrichment

Agilent SureSelect

Agilent SureSelect

Agilent SureSelect

Agilent SureSelect

Agilent SureSelect

IDT xGen

IDT xGen

IDT xGen

IDT xGen

IDT xGen

Twist

Twist

Twist

Twist

Twist

CamSelect NGS clean-up removes oligo contamination, excess primers, and short artifacts, delivering higher yield, greater purity, and more reliable sequencing in target enrichment workflows.

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

CamSelect NGS clean-up removes oligo contamination, excess primers, and short artifacts, delivering higher yield, greater purity, and more reliable sequencing in target enrichment workflows.

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

DNA extraction

DNA extraction

DNA extraction

DNA extraction

DNA extraction

Library preparation

Library preparation

Library preparation

Library preparation

Library preparation

Hybrid capture

Hybrid capture

Hybrid capture

Hybrid capture

Hybrid capture

NGS clean-up

NGS clean-up

NGS clean-up

NGS clean-up

NGS clean-up

QC and sequencing

QC and sequencing

QC and sequencing

QC and sequencing

QC and sequencing

Trusted by experts in the lab

Trusted by experts in the lab

Trusted by
experts in the lab

Trusted by
experts in the lab

Trusted by
experts in the lab

Genotypic integrates CamSelect into DNA and library clean-up workflows for large-scale targeted and whole genome sequencing projects.

Genotypic integrates CamSelect into DNA and library clean-up workflows for large-scale targeted and whole genome sequencing projects.

Genotypic integrates CamSelect into DNA and library clean-up workflows for large-scale targeted and whole genome sequencing projects.

Genotypic integrates CamSelect into DNA and library clean-up workflows for large-scale targeted and whole genome sequencing projects.

Genotypic integrates CamSelect into DNA and library clean-up workflows for large-scale targeted and whole genome sequencing projects.

Strand uses CamSelect in their Illumina Whole Exome Sequencing workflows to get high recovery, precise clean-up, and fast separation in a high-throughput clinical genomics setup.

Strand uses CamSelect in their Illumina Whole Exome Sequencing workflows to get high recovery, precise clean-up, and fast separation in a high-throughput clinical genomics setup.

Strand uses CamSelect in their Illumina Whole Exome Sequencing workflows to get high recovery, precise clean-up, and fast separation in a high-throughput clinical genomics setup.

Strand uses CamSelect in their Illumina Whole Exome Sequencing workflows to get high recovery, precise clean-up, and fast separation in a high-throughput clinical genomics setup.

Strand uses CamSelect in their Illumina Whole Exome Sequencing workflows to get high recovery, precise clean-up, and fast separation in a high-throughput clinical genomics setup.

Haystack uses CamSelect for DNA clean-up in whole-exome sequencing, ensuring consistent recovery and purity for advanced genomic analysis.

Haystack uses CamSelect for DNA clean-up in whole-exome sequencing, ensuring consistent recovery and purity for advanced genomic analysis.

Haystack uses CamSelect for DNA clean-up in whole-exome sequencing, ensuring consistent recovery and purity for advanced genomic analysis.

Haystack uses CamSelect for DNA clean-up in whole-exome sequencing, ensuring consistent recovery and purity for advanced genomic analysis.

Haystack uses CamSelect for DNA clean-up in whole-exome sequencing, ensuring consistent recovery and purity for advanced genomic analysis.

Elevate your sequencing
workflows

Elevate your sequencing
workflows

Elevate your
sequencing workflows

Elevate your sequencing
workflows

Elevate your sequencing workflows

Contact us now to learn how CamSelect NGS
can improve your sequencing workflows.

Contact us now to learn how CamSelect NGS
can improve your sequencing workflows.

Contact us now to learn how CamSelect NGS
can improve your sequencing workflows.

Contact us now to learn how CamSelect NGS
can improve your sequencing workflows.

Contact us now to learn how CamSelect NGS can improve your sequencing workflows.

Buy now

Buy now

Buy now

Buy now

Buy now