MosaiX™ Library Prep Kit (Early Access)

Complexity Made Simple

Product Description

Special Introductory Pricing: Enjoy 30% OFF your first order of the MosaiX™ Library Prep Kit!

Combine the workflow simplicity of tagmentation, the reduced insertion bias of TnX, and the performance benefits of ligation.

• With engineered TnX transposase for uniformity of coverage
• Up to 50% faster than alternative technologies
• Simple 90-minute workflow (35 minutes or less hands-on)
• Reduced labor and increased efficiency
• Produces high complexity libraries
• Low duplication rates

The MosaiX Library prep kit employs a proprietary chemistry based on directional tagmentation and incorporates TnX, an engineered transposase. TnX was developed through directed enzyme evolution for reduced insertion bias, improved activity, and enhanced inhibitor tolerance. Within the MosaiX workflow, DNA is fragmented and Read 1 adapters added to the 5’ end via TnX followed by 3' ligation of Read 2 adapters, generating a high proportion of productive library molecules. The streamlined workflow produces highquality ready-to-sequence libraries in just 90 minutes and is ideal for applications like human whole genome and whole exome sequencing as well as targeted hybridization capture.

Early Access Program: UDI primers are being provided free of charge as part of Early Access to facilitate evaluation and testing!

seqWell Directional Tagmentation

MosaiX 90-minute Workflow

50% Faster Generation of Highly Complex Libraries

Kit Content during Early Access

All enzymes, buffers, adapters, and beads required to generate 24 or 96 libraries are included:

• TnX Read 1 Tagging Reagent
• Indexing Primers: 24 or 96 UDI primers
• 5X Reaction Buffer
• Ligation Enhancer
• Read 2 Adapter
• DNA Ligase
• 2X Amplification Ready Mix
• MAGwise Paramagnetic Beads
• Diluent

Specifications

*   Contact info@biocat.com for lower DNA input recommendations
** Fragment size optimized for NovaSeq X Plus

Performance Data

Whole Exome Sequencing

Exome metrics at 6 Gb for libraries generated using MosaiX Library Prep were extremely comparable to libraries generated using enzymatic fragmentation followed by ligation.  Additionally, MosaiX Library Prep outperformed bead-linked Tn5 transposition in terms of duplication rate, library complexity (HS Library Size), and % of Zero Coverage Targets – highlighting the TnX performance difference!

Method: 50 ng of NA12878 DNA (Genome in a Bottle) was used for all and libraries were prepared following manufacturers’ user guides. Libraries were then captured using Twist’s Exome 2.0 panel and standard workflow. Sequencing was performed on NextSeq 2000, down-sampled to 6 Gb each, then aligned to Twist exome capture targets on hg38.

TnX finds those missing exome targets!

• Clinically relevant targets can be missed when using other library preparation methods such as bead-linked tagmentation using Tn5
• Reduced TnX insertion bias and higher molecular complexity of MosaiX libraries can access difficult regions of the genome that Tn5 transposase cannot.

IGV plot showing clinically relevant targets present in MosaiX that are missing in libraries prepared using bead-linked Tn5.

Whole Genome Sequencing

osaiX libraries achieve higher coverage compared to libraries prepared with bead-linked Tn5 transposition with the same total PF Gb. Duplication rate is lower and estimated library size is higher for MosaiX, indicating a more complex whole genome library.

Method: 50 ng of NA12878 DNA (Genome in a Bottle) was used in both and libraries were prepared following manufacturers’ user guides. Sequencing was performed on a lane of a NovaSeq X+ 25B flow cell, down-sampled to 105 Gb each, then aligned to hg38.

Additional Resources

MosaiX: Rapid Directional Tagmentation Utilizing TnX Engineered Transposase for High Performance in Diverse DNA Sequencing Applications (Poster)