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Journal Abstract Search

384 related items for PubMed ID: 29802190

  • 1.
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  • 2. Construction of a series of episomal plasmids and their application in the development of an efficient CRISPR/Cas9 system in Pichia pastoris.
    Gu Y, Gao J, Cao M, Dong C, Lian J, Huang L, Cai J, Xu Z.
    World J Microbiol Biotechnol; 2019 May 27; 35(6):79. PubMed ID: 31134410
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  • 3. Characterization of a panARS-based episomal vector in the methylotrophic yeast Pichia pastoris for recombinant protein production and synthetic biology applications.
    Camattari A, Goh A, Yip LY, Tan AH, Ng SW, Tran A, Liu G, Liachko I, Dunham MJ, Rancati G.
    Microb Cell Fact; 2016 Aug 11; 15(1):139. PubMed ID: 27515025
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  • 4. The PARS sequence increase the efficiency of stable Pichia pastoris transformation.
    Madsen CK, Vismans G, Brinch-Pedersen H.
    J Microbiol Methods; 2016 Oct 11; 129():1-7. PubMed ID: 27444547
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  • 5. High-efficiency transformation of Pichia stipitis based on its URA3 gene and a homologous autonomous replication sequence, ARS2.
    Yang VW, Marks JA, Davis BP, Jeffries TW.
    Appl Environ Microbiol; 1994 Dec 11; 60(12):4245-54. PubMed ID: 7811063
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  • 6. Only centromeres can supply the partition system required for ARS function in the yeast Yarrowia lipolytica.
    Vernis L, Poljak L, Chasles M, Uchida K, Casarégola S, Käs E, Matsuoka M, Gaillardin C, Fournier P.
    J Mol Biol; 2001 Jan 12; 305(2):203-17. PubMed ID: 11124900
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  • 8. Autonomously Replicating Linear Plasmids That Facilitate the Analysis of Replication Origin Function in Candida albicans.
    Bijlani S, Thevandavakkam MA, Tsai HJ, Berman J.
    mSphere; 2019 Mar 06; 4(2):. PubMed ID: 30842269
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  • 9. A novel autonomously replicating sequence (ARS) for multiple integration in the yeast Hansenula polymorpha DL-1.
    Sohn JH, Choi ES, Kim CH, Agaphonov MO, Ter-Avanesyan MD, Rhee JS, Rhee SK.
    J Bacteriol; 1996 Aug 06; 178(15):4420-8. PubMed ID: 8755868
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  • 12. Colocalization of centromeric and replicative functions on autonomously replicating sequences isolated from the yeast Yarrowia lipolytica.
    Fournier P, Abbas A, Chasles M, Kudla B, Ogrydziak DM, Yaver D, Xuan JW, Peito A, Ribet AM, Feynerol C.
    Proc Natl Acad Sci U S A; 1993 Jun 01; 90(11):4912-6. PubMed ID: 8506336
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  • 13. Refined Pichia pastoris reference genome sequence.
    Sturmberger L, Chappell T, Geier M, Krainer F, Day KJ, Vide U, Trstenjak S, Schiefer A, Richardson T, Soriaga L, Darnhofer B, Birner-Gruenberger R, Glick BS, Tolstorukov I, Cregg J, Madden K, Glieder A.
    J Biotechnol; 2016 Oct 10; 235():121-31. PubMed ID: 27084056
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  • 14. [New yeast vectors containing the autonomously replicating sequences from Candida maltosa genome].
    Polumienko AL, Grigor'eva SP.
    Mol Gen Mikrobiol Virusol; 1985 Jul 10; (7):26-31. PubMed ID: 3025715
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  • 15. Centromeres of the Yeast Komagataella phaffii (Pichia pastoris) Have a Simple Inverted-Repeat Structure.
    Coughlan AY, Hanson SJ, Byrne KP, Wolfe KH.
    Genome Biol Evol; 2016 Aug 27; 8(8):2482-92. PubMed ID: 27497317
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  • 16. A family of telomere-associated autonomously replicating sequences and their functions in targeted recombination in Hansenula polymorpha DL-1.
    Sohn JH, Choi ES, Kang HA, Rhee JS, Rhee SK.
    J Bacteriol; 1999 Feb 27; 181(3):1005-13. PubMed ID: 9922267
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  • 19. Pichia pastoris as a host system for transformations.
    Cregg JM, Barringer KJ, Hessler AY, Madden KR.
    Mol Cell Biol; 1985 Dec 27; 5(12):3376-85. PubMed ID: 3915774
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  • 20. [Development of a method for vector transformation of the methyltrophic yeast Pichia methanolica].
    Tarutina MG, Tolstorukov II.
    Genetika; 1994 Jun 27; 30(6):783-90. PubMed ID: 7958792
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