Results 291 to 300 of about 698,910 (309)
Some of the next articles are maybe not open access.
2017 Information Theory and Applications Workshop (ITA), 2017
With decreasing costs for DNA synthesis and sequencing, ultra-dense DNA storage is an emerging, viable technology. The original proof of concept [1]–[3] has yielded several experiments of larger scale demonstrating archival storage in DNA molecules [4]–[7].
Naveen Goela, Jean Bolot
openaire +1 more source
With decreasing costs for DNA synthesis and sequencing, ultra-dense DNA storage is an emerging, viable technology. The original proof of concept [1]–[3] has yielded several experiments of larger scale demonstrating archival storage in DNA molecules [4]–[7].
Naveen Goela, Jean Bolot
openaire +1 more source
Energy storage during DNA girase activity
Journal of Theoretical Biology, 1986In this work, we develop a minimal two-cycle model for the action of DNA girase. One of the cycles describes the ATP dependent chemicomechanical transduction performed by the enzyme. The other cycle describes the relaxing activity exhibited by girase on supercoiled DNA in the absence of substrates. Supercoiling of DNA is described as a random walk on a
E, Mizraji, J, Lin
openaire +2 more sources
DNA strand breakage after kidney storage
Cryobiology, 1982Abstract Ischemia and storage cause single-stranded DNA breaks. The breaks become evident after 30 min of warm storage or after only 4 hr of cold storage. The number of breaks increases with increasing ischemia time. The DNA damage was detected by alkaline sucrose gradient analysis of the DNA.
H M, Lazarus +2 more
openaire +2 more sources
Expanding DNA storage capacity
Science, 2019Biotechnology DNA makes a good archival medium for information storage, thanks to its remarkably high physical density and the relatively low cost of high-throughput sequencing. However, its synthesis presents a challenge both technically and economically.
openaire +1 more source
Molecular digital data storage using DNA
Nature Reviews Genetics, 2019Molecular data storage is an attractive alternative for dense and durable information storage, which is sorely needed to deal with the growing gap between information production and the ability to store data. DNA is a clear example of effective archival data storage in molecular form.
Luis Ceze, Jeff Nivala, Karin Strauss
openaire +2 more sources
Biotechnology and Bioprocess Engineering, 2020
Here we report a simple and flexible method for DNA data storage based on Perl script. For this approach, the text data of the preamble of the “Universal Declaration of Human Rights” consisting of 2,046 words was encoded into the corresponding 8,148 base pairs of DNA using Perl-based encoding with a hash table.
Ui Jin Lee +3 more
openaire +1 more source
Here we report a simple and flexible method for DNA data storage based on Perl script. For this approach, the text data of the preamble of the “Universal Declaration of Human Rights” consisting of 2,046 words was encoded into the corresponding 8,148 base pairs of DNA using Perl-based encoding with a hash table.
Ui Jin Lee +3 more
openaire +1 more source
Trends in Biotechnology, 2001
This article discusses how DNA might be used to store data. It is argued that, at present, DNA would be best employed as a long-term repository (thousands or millions of years). How data-containing DNA might be packaged and how the data might be encrypted, with particular attention to the encryption of written information, is also discussed.
openaire +2 more sources
This article discusses how DNA might be used to store data. It is argued that, at present, DNA would be best employed as a long-term repository (thousands or millions of years). How data-containing DNA might be packaged and how the data might be encrypted, with particular attention to the encryption of written information, is also discussed.
openaire +2 more sources
International Conference on Bio-inspired Computing, Theories and Applications : [proceedings]. International Conference on Bio-inspired Computing, Theories and Applications
In 1994, University of Southern California computer scientist Dr. Leonard Adelman solved the Hamiltonian Path Problem using DNA as a computational mechanism. He proved the principle that DNA computing could be used to solve computationally complex problems.
Christy M, Bogard, Eric C, Rouchka
openaire +1 more source
In 1994, University of Southern California computer scientist Dr. Leonard Adelman solved the Hamiltonian Path Problem using DNA as a computational mechanism. He proved the principle that DNA computing could be used to solve computationally complex problems.
Christy M, Bogard, Eric C, Rouchka
openaire +1 more source
This master's thesis analyses a possible future method of digital data storage in archives, namely the storage of digital data on synthetically produced DNA. This paper is dedicated to the more precise functioning of DNA data storage and its development within research to date.
openaire +1 more source
openaire +1 more source
DNA computing: DNA circuits and data storage
Nanoscale HorizonsDNA computing represents an innovative computational paradigm that leverages DNA molecules and spontaneous reactions. This review elucidates the advantages and development route based on DNA circuits and DNA data storage.
Hang Xu +6 more
openaire +1 more source