Difference between revisions of "DNA for Information Storage (Microbes as Machines)"
From SynBioCyc
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− | [[File:Goldman_DNA_Storage_Costs.png|thumb|300px|right|<cite>Goldman2013</cite>.]] | + | [[File:Goldman_DNA_Storage_Costs.png|thumb|300px|right|Analysis of when it's economical in terms of timescale and amount of information to use DNA storage <cite>Goldman2013</cite>.]] |
==== [[Media:Spring2015_DNA_Information_Storage_Pre-Discussion_Questions.pdf|Download Pre-Discussion Questions (PDF)]] ==== | ==== [[Media:Spring2015_DNA_Information_Storage_Pre-Discussion_Questions.pdf|Download Pre-Discussion Questions (PDF)]] ==== |
Revision as of 15:34, 28 March 2015
Download Pre-Discussion Questions (PDF)
...DNA storage is very dense. At theoretical maximum, DNA can encode two bits per nucleotide (nt) or 455 exabytes per gram of single-stranded DNA. [2]
Required Reading/Viewing
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George Church encodes his book [1] in DNA. See the [supplement] for lists of previous biological information storage. - Error fetching PMID 23104084:
Commentary on above paper. - Marantz, A. Petri-Dish Pop The New Yorker Nov. 24, 2014.
Most copies of an album ever sold in a few drops of liquid?
Assigned Papers
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- Shakespeare’s Sonnets and MLK’s Speech Stored in DNA Speck
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Addition of storage in silica to stabilize DNA