.@newscientist features new study from @BrownUniversity @brownengin Jacob Rosenstein and colleagues, showing how "data can now be stored inside the molecules that power our metabolism." https://t.co/5DAsM4GS3z

— Brown Research (@BrownUResearch) July 5, 2019

"A study led by Brown University researchers shows that it’s possible to store and retrieve data stored in artificial metabolomes — arrays of liquid mixtures containing sugars, amino acids and other types of small molecules." https://t.co/j5T6tRacQK

— Sandra Carvalho ?? (@Khlopomanstvo) July 4, 2019

In a step toward designing molecular storage systems that could hold vast amounts of data in tiny spaces, @BrownUniversity researchers have shown in new study that it’s possible to store image files in solutions of common biological small molecules. https://t.co/UTkl3bMw9P

— Brown Research (@BrownUResearch) July 4, 2019

Molecular thumb drives: Researchers store digital images in metabolite molecules. New research shows that DNA isn’t the only game in town when it comes to molecular #datastorage. https://t.co/bAjyZrVPNh #IT #InformationTechnology #digitaldata #DNAdatastorage #synbio #biotech

— SynBioBeta (@SynBioBeta) July 5, 2019

DNA Data Storage Is Closer Than You Think https://t.co/N6XUVVOG8h

— Slashdot (@slashdot) July 6, 2019

Molecular thumb drives: Researchers store digital images in metabolite molecules. New research shows that DNA isn’t the only game in town when it comes to molecular #datastorage. https://t.co/bAjyZrVPNh #IT #InformationTechnology #digitaldata #DNAdatastorage #synbio #biotech

— SynBioBeta (@SynBioBeta) July 5, 2019

In a step toward designing molecular storage systems that could hold vast amounts of data in tiny spaces, @BrownUniversity researchers have shown in new study that it’s possible to store image files in solutions of common biological small molecules. https://t.co/UTkl3bMw9P

— Brown Research (@BrownUResearch) July 4, 2019

Molecular thumb drives: Researchers store digital images in metabolite molecules | Brown University https://t.co/66laav5X2r

— Transhumanism Australia (@transhumanismAU) July 6, 2019

Molecular thumb drives: Researchers store digital images in metabolite molecules. New research shows that DNA isn’t the only game in town when it comes to molecular #datastorage. https://t.co/qwr2Xj90RE #IT #InformationTechnology #digitaldata #DNAdatastorage #synbio #biotech

— TeselaGen Biotech (@TeselaGen) July 5, 2019

Molecular thumb drives: Researchers store digital images in metabolite molecules. New research shows that DNA isn’t the only game in town when it comes to molecular #datastorage. https://t.co/QAWM84fFyO #IT #InformationTechnology #digitaldata #DNAdatastorage #synbio #biotech

— Marianna Limas (@mnlimas) July 4, 2019

Holding the entire 16 GB of Wikipedia written in DNA between my fingers! Congrats @catalogdna!!https://t.co/vjaoqjZcSl pic.twitter.com/qlwgfnaZxg

— Jun Axup, PhD (@junaxup) June 30, 2019

future storage? : Startup packs all 16GB of Wikipedia onto DNA strands to demonstrate new storage tech https://t.co/1AlJ5SHf99

— mamoru watanabe (@ru8184) July 5, 2019

Startup packs all 16GB of Wikipedia onto DNA strands to demonstrate new storage tech - CNET
何の細胞の中にDNA叩き込んでるんだこれ？どうやって読み取ってるのかとか、もっと細かい情報が知りたいなぁ https://t.co/XIagrhJVla

— dream (@dream1160) July 5, 2019

lol and then there's this

gotta upgrade to the latest biOS bro https://t.co/bvpNtVoSCB

— ? FRANK BENJAMIN ? (@dualchemy) July 4, 2019

Storing data in DNA strands? https://t.co/b28L6YfbzZ ... hmm that is really interesting.

— Keran McKenzie (@keranm) July 4, 2019

The whole English language Wikipedia has now been stored in DNA ? https://t.co/LK4Bz8FOmG

— Christian Hernandez (@christianhern) July 3, 2019

Startup packs all 16GB of Wikipedia onto DNA strands to demonstrate new storage tech:
Biological molecules will last a lot longer than the latest computer storage technology, @catalogdna believes. https://t.co/An1neUh4yY #DNAdatastorage #synbio #datastorage #digitaldata

— SynBioBeta (@SynBioBeta) June 29, 2019

Catalog, a synthetic biology startup, just packed all 16GB of Wikipedia (in English) onto an amount of DNA the size of a raindrop. Maybe the best way to store the impending genomics data explosion is with even more DNA. https://t.co/4H3d9aV7iI

— Simon Barnett (@sbarnettARK) July 1, 2019

Startup packs all 16GB of Wikipedia onto DNA strands to demonstrate new storage tech https://t.co/xlqO1HAwG7

— Jason Williams (@JasonWilliamsNY) June 30, 2019

Startup @catalogdna packs all 16GB of @Wikipedia onto DNA strands to demonstrate new storage tech https://t.co/EVtXiXcl2o via @CNET

— Nilesh Mishra (@i_mnilesh) July 2, 2019

@catalogdna puts all 16GB of Wikipedia onto a molecular structure, to showoff the newest method for storing data. https://t.co/LEs3ASZHpn

— Spark Labs (@SparkLabsInc) July 2, 2019

Congrats to @catalogdna — nice work! Startup packs all 16GB of Wikipedia onto DNA strands to demonstrate new storage tech https://t.co/meRdin9qsS

— Andrew Hessel (@andrewhessel) June 30, 2019

エンジェル投資先の @catalogdna がwikipediaをDNAの中に保存することに成功！すごい！DNAが安くてコピーが容易でポータブルで耐久性高いペタバイト超えるストレージのデファクトになる日も近いね！（既にうん億年前からデファクトになってr） https://t.co/VAZCpETmMV

— くぼけー / 無人コンビニ600 (@keikubo) June 30, 2019

? Wow! @catalogdna packs entire 16GB of Wikipedia content onto DNA strand: https://t.co/DORRddahjo ? pic.twitter.com/RzwmJnXyQR

— NEA (@NEA) July 1, 2019

Where do you store your data?

Old: in the cloud.

New: in your DNA.

“Data can now be stored inside the molecules that power our metabolism”—⁦@newscientist⁩ https://t.co/ieWPKBxpAs

— Brian Roemmele (@BrianRoemmele) July 7, 2019

.@newscientist features new study from @BrownUniversity @brownengin Jacob Rosenstein and colleagues, showing how "data can now be stored inside the molecules that power our metabolism." https://t.co/5DAsM4GS3z

— Brown Research (@BrownUResearch) July 5, 2019

DNA isn’t the only molecule we could use for #digitalstorage. It turns out that liquid solutions containing sugars, amino acids and other small molecules could replace hard drives too. https://t.co/pRLcrU5roU #DNAdatastorage #synbio #biotech

— TeselaGen Biotech (@TeselaGen) July 4, 2019

Remarkable, indeed.

But, there is plenty of room at the bottom.

With DNA, we reach information densities of 10**19 per cubic centimeter; the Bekenstein bound is around 10**66 bits per cubic centimeter. https://t.co/gAQR5wpVOH

— Grady Booch (@Grady_Booch) July 6, 2019

#DNA Data Storage Is Closer Than You Think

Life’s information-storage system is being adapted to handle massive amounts of information#opendata #datastorage
https://t.co/bTcoBAitO5

— Knowbella Tech (@knowbella) July 6, 2019

#DNA #datastorage might be just around the corner #biotech #innovation https://t.co/cGdqf6L6FQ

— Marc Iyeki (@MarcIyeki) July 6, 2019

DNA Data Storage Is Closer Than You Think https://t.co/MbJN1CbvVz

— Psychology Tip (@PsychologyTip) July 5, 2019

우리의 신진 대사를 촉진하는 분자에 데이터를 저장할 수 있게 되었습니다. https://t.co/Y2Q9xFLLBK

— editoy (@editoy) July 8, 2019

1 gram of DNA can hold a zettabyte of data.... artificial metabolites are even denser and can potentially hold even larger volumes of data: https://t.co/cq12gshUEl

— Dr Maggie Lieu (@Space_Mog) July 8, 2019

CRAZYhttps://t.co/my3yxqdLI2

— Mia Judicpa (@miajudicpa) July 8, 2019

Storage for digital data with higher density than even DNA - https://t.co/3n3IbZZ4TB

— Ollie Whitehouse (@ollieatnccgroup) July 8, 2019

Storage and Memory technology may have a crazy future -> Data can now be stored inside the molecules that power our metabolism https://t.co/QoWS1XciUe #BigData #FutureTech pic.twitter.com/Q9sMHhjZ6O

— Daniel Newman (@danielnewmanUV) July 7, 2019

The future is already here! Data can now be stored inside the molecules. Scientists used the presence or absence of particular metabolites in the mixtures as the binary 1s and 0s that can encode digital information. So cool and scary at the same time.https://t.co/IjNxjK7oAB

— Alena Khineika (@alena_khineika) July 7, 2019

DNA Data Storage Is Closer Than You Thinkhttps://t.co/drdA0xbjNv
@mbelmbel99

— Sang Yup Lee (@mbelmbel99) July 8, 2019

DNA Data Storage Is Closer Than You Think - Scientific American https://t.co/f30t3eugIX

— Milan Speculative Futures (@Futures_Milan) July 7, 2019