DNA-based storage emerges as a crucial solution to this gap, enabling digital information to be archived in DNA molecules. This method enjoys major advantages over magnetic and optical storage solutions such as exceptional information density, enhanced data durability and negligible power consumption to...
Research efforts in the field of DNA-based storage systems have mainly focused on the application of various encoding schemes, while relying on standard DNA synthesis and sequencing technologies. These include the development of error-correcting codes for the unique information channel of DNA-based dat...
DNA-based data storage platforms traditionally encode information only in the nucleotide sequence of the molecule. Here we report on a two-dimensional molecular data storage system that records information in both the sequence and the backbone structure of DNA and performs nontrivial joint data encodin...
文献求助详情标题Scalable and robust DNA-based storage via coding theory and deep learning 基于编码理论和深度学习的可扩展和鲁棒的基于DNA的存储 相关领域 可扩展性 计算机科学 编码(社会科学) 分布式计算 数据库 数学 统计 网址 https://doi.org/10.1038/s42256-025-01003-z ...
DNA-based data storage is an emerging nonvolatile memory technology of potentially unprecedented density, durability, and replication efficiency. The basic system implementation steps include synthesizing DNA strings that contain user information and subsequently retrieving them via high-throughput sequencing te...
Demand for data storage is growing exponentially, but the capacity of existing storage media is not keeping up. Using DNA to archive data is an attractive possibility because it is extremely dense, with a raw limit of 1 exabyte/mm3 (109 GB/mm3), and long-lasting, with observed half-life ...
Deep DNA Storage: Scalable and Robust DNA-based Storage via Coding Theory and Deep Learning - Delete DeepEncoderDecoder/data.txt · itaiorr/Deep-DNA-based-storage@9bd9514
DNA has emerged as a promising material to address growing data storage demands. We recently demonstrated a structure-based DNA data storage approach where DNA probes are spatially oriented on the surface of DNA origami and decoded using DNA-PAINT. In this approach, larger origami structures could...
PANI is of great significance in electronics and energy storage. Negatively charged polyelectrolyte is commonly used as the template for PANI growth. Wang and coworkers developed a method for PANI growth on 2D triangular DNA origami (TOA) with controlled shape by the guidance of HRP-mimicking ...
The physical architectures of information storage systems often dictate how information is encoded, databases are organized, and files are accessed. Here we show that a simple architecture comprised of a T7 promoter and a single-stranded overhang domain (ss-dsDNA), can unlock dynamic DNA-based inf...