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Journal Abstract Search

1140 related items for PubMed ID: 21478873

  • 1. A system for the continuous directed evolution of biomolecules.
    Esvelt KM, Carlson JC, Liu DR.
    Nature; 2011 Apr 28; 472(7344):499-503. PubMed ID: 21478873
    [Abstract] [Full Text] [Related]

  • 2. Negative selection and stringency modulation in phage-assisted continuous evolution.
    Carlson JC, Badran AH, Guggiana-Nilo DA, Liu DR.
    Nat Chem Biol; 2014 Mar 28; 10(3):216-22. PubMed ID: 24487694
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  • 5. A population-based experimental model for protein evolution: effects of mutation rate and selection stringency on evolutionary outcomes.
    Leconte AM, Dickinson BC, Yang DD, Chen IA, Allen B, Liu DR.
    Biochemistry; 2013 Feb 26; 52(8):1490-9. PubMed ID: 23360105
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  • 8. Phage-assisted continuous and non-continuous evolution.
    Miller SM, Wang T, Liu DR.
    Nat Protoc; 2020 Dec 26; 15(12):4101-4127. PubMed ID: 33199872
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  • 9. A promoter recognition mechanism common to yeast mitochondrial and phage t7 RNA polymerases.
    Nayak D, Guo Q, Sousa R.
    J Biol Chem; 2009 May 15; 284(20):13641-13647. PubMed ID: 19307179
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  • 10. Rapid mutagenesis and purification of phage RNA polymerases.
    He B, Rong M, Lyakhov D, Gartenstein H, Diaz G, Castagna R, McAllister WT, Durbin RK.
    Protein Expr Purif; 1997 Feb 15; 9(1):142-51. PubMed ID: 9116496
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  • 12. Stimulation of bacteriophage T4 middle transcription by the T4 proteins MotA and AsiA occurs at two distinct steps in the transcription cycle.
    Adelman K, Brody EN, Buckle M.
    Proc Natl Acad Sci U S A; 1998 Dec 22; 95(26):15247-52. PubMed ID: 9860954
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  • 13. A non-bacterial transcription factor inhibits bacterial transcription by a multipronged mechanism.
    Sheppard C, James E, Barton G, Matthews S, Severinov K, Wigneshweraraj S.
    RNA Biol; 2013 Apr 22; 10(4):495-501. PubMed ID: 23558648
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  • 14. Generation of sequence variants via accelerated molecular evolution methods.
    Fu M, Zhang X, Lai X, Wu X, Feng F, Peng J, Zhong H, Zhang Y, Wang Y, Zhou Q, Wang S, Chen L, He Z, Gao Y, Ma X, He R, Liu Q.
    Recent Pat DNA Gene Seq; 2013 Aug 22; 7(2):144-56. PubMed ID: 23388030
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  • 15. Single-pass transcription by T7 RNA polymerase.
    Passalacqua LFM, Dingilian AI, Lupták A.
    RNA; 2020 Dec 22; 26(12):2062-2071. PubMed ID: 32958559
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  • 16. On the mechanism of inhibition of phage T7 RNA polymerase by lac repressor.
    Lopez PJ, Guillerez J, Sousa R, Dreyfus M.
    J Mol Biol; 1998 Mar 13; 276(5):861-75. PubMed ID: 9566192
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  • 17. Characterization of bacteriophage T7 RNA polymerase by linker insertion mutagenesis.
    Gross L, Chen WJ, McAllister WT.
    J Mol Biol; 1992 Nov 20; 228(2):488-505. PubMed ID: 1453459
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  • 18. Full shut-off of Escherichia coli RNA-polymerase by T7 phage requires a small phage-encoded DNA-binding protein.
    Tabib-Salazar A, Liu B, Shadrin A, Burchell L, Wang Z, Wang Z, Goren MG, Yosef I, Qimron U, Severinov K, Matthews SJ, Wigneshweraraj S.
    Nucleic Acids Res; 2017 Jul 27; 45(13):7697-7707. PubMed ID: 28486695
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  • 19. Structural basis of Q-dependent transcription antitermination.
    Shi J, Gao X, Tian T, Yu Z, Gao B, Wen A, You L, Chang S, Zhang X, Zhang Y, Feng Y.
    Nat Commun; 2019 Jul 02; 10(1):2925. PubMed ID: 31266960
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  • 20. Switching promotor recognition of phage RNA polymerase in silico along lab-directed evolution path.
    E C, Dai L, Yu J.
    Biophys J; 2022 Feb 15; 121(4):582-595. PubMed ID: 35031277
    [Abstract] [Full Text] [Related]

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