Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design.

John M Pryor, Vladimir Potapov, Katharina Bilotti, Nilisha Pokhrel, Gregory J S Lohman

June 2022 ACS Synth Biol

Synopsis of Social media discussions

The discussions reflect enthusiasm and recognition of the method’s potential, referencing specific achievements like assembling a 40 kb genome from 52 parts and noting protocols for large DNA construct assembly. Language such as 'optimized,' 'rapid,' and 'viable phage' convey excitement about the advancement's significance and practical applications.

A
Agreement
 Moderate agreement

Most discussions support the findings, highlighting successful assembly of the large genome and emphasizing its significance.

I
Interest
 High level of interest

Discussions show high interest, with numerous posts referencing protocols, optimization, and broad applications of the method.

E
Engagement
 Moderate level of engagement

Posts often delve into technical details and implications, indicating moderate engagement and curiosity about the techniques.

I
Impact
 High level of impact

The consensus underscores the high impact of this work on synthetic biology and genetic engineering, positioning it as a breakthrough.

Social Mentions

YouTube

2 Videos

Facebook

10 Posts

Twitter

74 Posts

Blogs

1 Articles

News

2 Articles

Metrics

Video Views

129

Total Likes

225

Extended Reach

171,971

Social Features

89

Timeline: Posts about article

Top Social Media Posts

Posts referencing the article

Efficient Assembly of Large DNA Constructs Using Golden Gate Method

Efficient Assembly of Large DNA Constructs Using Golden Gate Method

theicechol

June 27, 2025

86 views

Efficient Assembly of Large DNA Constructs Using Golden Gate Methodology

Efficient Assembly of Large DNA Constructs Using Golden Gate Methodology

This video discusses using Golden Gate assembly to create large DNA constructs, demonstrating the assembly of a 40 kb bacteriophage genome from 52 DNA parts in a single reaction, highlighting the method's efficiency and potential applications in synthetic biology.

theicechol

June 29, 2025

44 views

  • Calin Plesa
    @calinplesa (Twitter)

    What is the consensus on Golden Gate Assembly: cycling between 16C and 37C, or only 37C? @NEBiolabs's pub: https://t.co/MCJr1ix0Kh suggests 37C only is superior but in our hands this doesn't seem to be the case. https://t.co/r2PJ6nlz5b
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    October 28, 2022

  • sangyoon Lee
    @sylee2k (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble…
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    August 2, 2022

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  • Biomemory
    @BiomemoryLabs (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    July 25, 2022

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  • Sumit Das
    @iamsumitdas13 (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble…
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    July 7, 2022

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  • 1st Philekorea Technology
    @1stPhilekorea (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble…
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    July 7, 2022

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  • Jenny Brown
    @JennyBrownQLD (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble…
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    July 6, 2022

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  • T. K. Märtìn Tsuï
    @XyzphineR (Twitter)

    I guess we can finally acknowledge the feasibility to assemble large fragments in vitro, even if one chose not to GGA it with 52 fragments all at once. https://t.co/eXt4DSJHnS
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    July 6, 2022

  • Wataru Fujii
    @ReprodBiotech (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble…
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    July 6, 2022

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  • New England Biolabs
    @NEBiolabs (Twitter)

    @NEBiolabs scientists have optimized Golden Gate Assembly to join >50 DNA fragments at once. The method was used to assemble and transform the 40kb T7 phage genome, producing viable phage, and can be applied to rapidly engineer large and complex targets. https://t.co/be3tpRE4JV
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    July 6, 2022

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  • Davin Miller
    @hitcintang (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 12, 2022

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  • Adam Peltan
    @adampeltan (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 12, 2022

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  • farah
    @aladwan2003 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 11, 2022

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  • Jazz Ghataora, PhD
    @JazzSynBio (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 11, 2022

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  • Phages.fr
    @Phages_fr (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 11, 2022

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  • Richard Allen White III, PhD
    @raw9371 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • Devi Prasanna Dash
    @dashdp123 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • Gavin H Thomas
    @GavinHThomas (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • Jemal Ali
    @jemal14 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • The Uyaguari laboratory at UoM
    @MiguelUyaguari1 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • Simon Roux
    @simroux_virus (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
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    June 10, 2022

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  • Andrew millard
    @milja001 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

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  • Darren N. Nesbeth
    @GenePlumber (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

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  • @vic_bioinfo@genomic.social
    @Vic_Bioinfo (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

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  • Russel Vincent
    @RusselVincent25 (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • Invictus Samael
    @InvictusSamael (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • Lingchong You
    @lingchongyou (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • Sahal Sabilil Muttaqin
    @SahalSabilil (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • Tom Ellis
    @ProfTomEllis (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • Maxuel Andrade
    @andrade_maxuel (Twitter)

    RT @ACSSynBio: Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragm…
    view full post

    June 10, 2022

    21

  • ACS Synthetic Bio
    @ACSSynBio (Twitter)

    Testing the boundaries of golden gate assembly: Pryor et al @NEBiolabs find optimization permits assembly of >50 DNA fragments in a single round, as shown with the 40 kb T7 bacteriophage genome. The article shares protocols and design principles: https://t.co/iyrTqjwphd https://t.co/Lr12ej7nlQ
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    June 10, 2022

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  • Robyn Hall
    @Virologica (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    June 3, 2022

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  • synbiopapers
    @synbio_papers (Twitter)

    Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/wngym0tXGA https://t.co/IRiNgyO2Te
    view full post

    June 3, 2022

    1

  • Afif Pranaya Jati
    @afifpj (Twitter)

    RT @synbio_papers: [ASAP] Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/MGbq4LXLkG
    view full post

    June 3, 2022

    2

  • Akos Nyerges
    @AkosNyerges (Twitter)

    RT @synbio_papers: [ASAP] Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/MGbq4LXLkG
    view full post

    June 2, 2022

    2

  • Alex Prima
    @s4337109 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    June 1, 2022

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  • New England Biolabs
    @NEBiolabs (Twitter)

    RT @TwistBioscience: New work from @NEBiolabs researchers- Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly De…
    view full post

    June 1, 2022

    1

  • Twist Bioscience
    @TwistBioscience (Twitter)

    New work from @NEBiolabs researchers- Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design. #synbio @ACSPublications Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design | Synthetic Biology https://t.co/ODBWKskF5L
    view full post

    June 1, 2022

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  • Félix de Carpentier
    @FlixdeCarpenti1 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 31, 2022

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  • Tom Dongmin Kim @tomdongmin.bsky.social
    @TomDongmin (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 31, 2022

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  • Geetha Saarunya, PhD
    @DrSaarunya (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 31, 2022

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  • Talal Hossain
    @talal_hossain (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Thuan Phu NGUYEN-VO
    @thuanpnv (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Daisuke Inoue @VRchat: Benthos
    @DInoueMT (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Sebastian Robalino Espinosa
    @sebastianRobal4 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Assala Samad
    @assalasamad (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Franklin Nobrega
    @NobregaFL (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Shanmuga_Sozhamannan@AuSpread
    @AuSpread (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Christine Mordstein
    @CMordstein (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • José M. González
    @jmglezh (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Rob Hurt
    @robertchurt (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

    33

  • Atif Khan
    @Atif_micro (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • D_•
    @_xuwen (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Eduardo Quiroz Guzmán
    @EduardoQG77 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • SpeedyMicrobesSYNBIO
    @MicrobesSpeedy (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Rafa Pinilla-Redondo
    @rafapinilla92 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • zeyad almajed
    @zeyad_M_almajed (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Russel Vincent
    @RusselVincent25 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

    33

  • Invictus Samael
    @InvictusSamael (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

    33

  • Afif Pranaya Jati
    @afifpj (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

    33

  • Jazz Ghataora, PhD
    @JazzSynBio (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

    33

  • Tominaga K. (tomiken)
    @pacyc1841 (Twitter)

    Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design | ACS Synthetic Biology https://t.co/71M1PTKHmK
    view full post

    May 30, 2022

  • rizkipradipta
    @rizkipradipta (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Sahal Sabilil Muttaqin
    @SahalSabilil (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Sebastian Leptihn
    @LeptihnLab (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
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    May 30, 2022

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  • WeiTing Lin(GR15
    @weitinglin66 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
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    May 30, 2022

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  • Andrew millard
    @milja001 (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Vasili Hauryliuk
    @hauryliuk (Twitter)

    RT @O_Borkowski: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
    view full post

    May 30, 2022

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  • Olivier Borkowski
    @O_Borkowski (Twitter)

    Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/2cgnU2hPl7
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    May 30, 2022

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  • Scott_GK_MacLeod_WUaS_worlduniversityandschool.org
    @scottmacleod (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists successfully assembled 40 kb T7 bacteriophage genome from 52 parts using Golden Gate Assembly – recove…
    view full post

    May 27, 2022

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  • ろばろば@幹細胞培養わからん
    @kororoad1 (Twitter)

    RT @NEBiolabs: @NEBiolabs scientists successfully assembled 40 kb T7 bacteriophage genome from 52 parts using Golden Gate Assembly – recove…
    view full post

    May 27, 2022

    3

  • New England Biolabs
    @NEBiolabs (Twitter)

    @NEBiolabs scientists successfully assembled 40 kb T7 bacteriophage genome from 52 parts using Golden Gate Assembly – recovering infectious phage particles after transformation! These protocols can be applied to rapidly engineer a wide variety of targets. https://t.co/flRaLsYEby
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    May 27, 2022

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  • GeneConstructor
    @GeneConstructor (Twitter)

    RT @synbio_papers: Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design: Large DNA constructs (>10 kb) are…
    view full post

    May 26, 2022

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  • synbiopapers
    @synbio_papers (Twitter)

    Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design: Large DNA constructs (>10 kb) are invaluable tools for genetic engineering and the development of therapeutics. However, the manufacture of these constructs is… https://t.co/D1CgMUX1HU https://t.co/5t6Jd0EQBp
    view full post

    May 25, 2022

    3

    1

  • Phage Papers
    @Phage_Papers (Twitter)

    Rapid 40 kb Genome Construction from 52 Parts through Data-optimized Assembly Design https://t.co/7FA72yi9Jl
    view full post

    May 25, 2022

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Abstract Synopsis

  • The study explores using Golden Gate assembly (GGA), a DNA construction method, to efficiently create large DNA constructs, specifically demonstrating the assembly of a 40 kb T7 bacteriophage genome from up to 52 DNA parts in a single reaction.
  • Traditionally, constructing large DNA sequences involves multiple complex steps, but this research shows that with optimized protocols, it's possible to assemble many fragments in one go, saving time and effort.
  • The successful assembly and recovery of infectious phage particles suggest that these optimized assembly protocols can be applied broadly to quickly engineer large and complex DNA constructs for various scientific and therapeutic purposes.