Genomically encoded analog memory with precise in vivo DNA writing in living cell populations. Single-nucleotide-resolution computing and memory in living cells. Protection and deprotection of DNA-high-temperature stability of nucleic acid barcodes for polymer labeling. Reversible DNA encapsulation in silica to produce ROS-resistant and heat-resistant synthetic DNA ‘fossils’. Dynamic and scalable DNA-based information storage. High density DNA data storage library via dehydration with digital microfluidic retrieval. Design of 240,000 orthogonal 25mer DNA barcode probes. Quantifying molecular bias in DNA data storage. Probing the physical limits of reliable DNA data retrieval. Driving the scalability of DNA-based information storage systems. In 13th International Meeting on DNA Computing (DNA13) (eds Garzon, M.
Large-scale DNA memory based on the nested PCR.
Yamamoto, M., Kashiwamura, S., Ohuchi, A. In 8th International Workshop on DNA-Based Computers (DNA8) (eds Hagiya, M. Hierarchical DNA memory based on nested PCR. Kashiwamura, S., Yamamoto, M., Kameda, A., Shiba, T.
Targeting individual cells by barcode in pooled sequence libraries. Random access in large-scale DNA data storage. DNA Fountain enables a robust and efficient storage architecture.
#File storage system portable
Portable and error-free DNA-based data storage. Robust chemical preservation of digital information on DNA in silica with error-correcting codes. A rewritable, random-access DNA-based storage system. Towards practical, high-capacity, low-maintenance information storage in synthesized DNA. Next-generation digital information storage in DNA. Terminator-free template-independent enzymatic DNA synthesis for digital information storage. De novo DNA synthesis using polymerase-nucleotide conjugates. Large-scale de novo DNA synthesis: technologies and applications. Molecular digital data storage using DNA. Therefore, the following method would write to storage/app/example.Zhirnov, V., Zadegan, R. By default, this value is set to the storage/app directory. When using the local driver, all file operations are relative to the root directory defined in your filesystems configuration file. You may configure as many disks as you like and may even have multiple disks that use the same driver.
#File storage system driver
The local driver interacts with files stored locally on the server running the Laravel application while the s3 driver is used to write to Amazon's S3 cloud storage service. Example configurations for each supported driver are included in the configuration file so you can modify the configuration to reflect your storage preferences and credentials. Each disk represents a particular storage driver and storage location. Within this file, you may configure all of your filesystem "disks". Laravel's filesystem configuration file is located at config/filesystems.php. Even better, it's amazingly simple to switch between these storage options between your local development machine and production server as the API remains the same for each system.
#File storage system drivers
The Laravel Flysystem integration provides simple drivers for working with local filesystems, SFTP, and Amazon S3. Laravel provides a powerful filesystem abstraction thanks to the wonderful Flysystem PHP package by Frank de Jonge.
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