Litcius/Paper detail

Integrated Microfluidic DNA Storage Platform with Automated Sample Handling and Physical Data Partitioning

Yuan Luo, Shuchen Wang, Zhuowei Feng, Jie Li, Cuiping Mao, Rui Wang, Xingyu Jiang

2022Analytical Chemistry19 citationsDOI

Abstract

Biopolymers are considered a promising alternative for information storage, and the most successful implementation has been using chemically synthesized DNA to represent binary data, which has achieved tremendous progress at multiple fronts bridging biotechnology with digital information. Currently, a majority of these systems are lacking the system integration and process automation expected by users of digital data and overly use tubes/vials for DNA storage. Herein, we present a microfluidic platform for automated storage and retrieval of data-encoding oligonucleotide samples enabled by a microvalve network architecture. Our platform, equipped with individually addressable compartments, offers an orthogonal strategy of data partitioning and file indexing with respect to the molecular-based random access implementation, with each partition amounting to an equivalence of 9.5 TB data within a 4 × 2 mm2 area. We examined the functionality of the presented platform and its compatibility with the DNA storage workflow coupled with nanopore sequencing to fully recover the stored files, demonstrating a significantly enhanced degree of function integration and process automation compared to that of the existing microfluidic approach.

Topics & Concepts

WorkflowMicrofluidicsAutomationComputer data storageInformation repositoryComputer scienceChemistryMultiplexingNanotechnologyComputer hardwareEmbedded systemDatabaseEngineeringTelecommunicationsMechanical engineeringMaterials scienceDNA and Biological ComputingAdvanced biosensing and bioanalysis techniquesModular Robots and Swarm Intelligence
Integrated Microfluidic DNA Storage Platform with Automated Sample Handling and Physical Data Partitioning | Litcius