Multi-well plate lid for single-step pooling of 96 samples for high-throughput barcode-based sequencing
Stéphanie Boder-Pasche, Mustafa Demir, Sarah Heub, Manon Garzuel, Réal Ischer, Daniel Migliozzi, Siegfried Graf, Noa Schmid, H. Baris Atakan, Daria Gudkova, Daniel Alpern, Riccardo Dainese, Bart Deplancke, Gilles Weder

TL;DR
A new lid for multi-well plates enables quick and efficient pooling of 96 samples for high-throughput RNA sequencing.
Contribution
A novel pooling lid design for 96-well plates that simplifies and accelerates sample preparation for barcode-based RNA sequencing.
Findings
The pooling lid achieves over 90% liquid recovery in under a minute using standard equipment.
The lid successfully pooled 96 DNA barcodes from a standard 96-well plate into a single sample pool.
The lid was manufactured at scale using injection molded polystyrene for practical use.
Abstract
High-throughput transcriptomics is of increasing fundamental biological and clinical interest. The generation of molecular data from large collections of samples, such as biobanks and drug libraries, is boosting the development of new biomarkers and treatments. Focusing on gene expression, the transcriptomic market exploits the benefits of next-generation sequencing (NGS), leveraging RNA sequencing (RNA-seq) as standard for measuring genome-wide gene expression in biological samples. The cumbersome sample preparation, including RNA extraction, conversion to cDNA and amplification, prevents high-throughput translation of RNA-seq technologies. Bulk RNA barcoding and sequencing (BRB-seq) addresses this limitation by enabling sample preparation in multi-well plate format. Sample multiplexing combined with early pooling into a single tube reduces reagents consumption and manual steps.…
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Taxonomy
TopicsSingle-cell and spatial transcriptomics · Gene expression and cancer classification · Genomics and Phylogenetic Studies
