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Journal Abstract Search

150 related items for PubMed ID: 38426942

  • 1. Switchable Coacervate Formation via Amino Acid Functionalization of Poly(dehydroalanine).
    Morrison CA, Chan EP, Lee T, Deming TJ.
    Biomacromolecules; 2024 Apr 08; 25(4):2554-2562. PubMed ID: 38426942
    [Abstract] [Full Text] [Related]

  • 2. Poly(dehydroalanine): Synthesis, Properties, and Functional Diversification of a Fluorescent Polypeptide.
    Benavides I, Raftery ED, Bell AG, Evans D, Scott WA, Houk KN, Deming TJ.
    J Am Chem Soc; 2022 Mar 09; 144(9):4214-4223. PubMed ID: 35224969
    [Abstract] [Full Text] [Related]

  • 3. Facile conversion of cysteine and alkyl cysteines to dehydroalanine on protein surfaces: versatile and switchable access to functionalized proteins.
    Bernardes GJ, Chalker JM, Errey JC, Davis BG.
    J Am Chem Soc; 2008 Apr 16; 130(15):5052-3. PubMed ID: 18357986
    [Abstract] [Full Text] [Related]

  • 4. Active Controlled and Tunable Coacervation Using Side-Chain Functional α-Helical Homopolypeptides.
    Scott WA, Gharakhanian EG, Bell AG, Evans D, Barun E, Houk KN, Deming TJ.
    J Am Chem Soc; 2021 Nov 03; 143(43):18196-18203. PubMed ID: 34669392
    [Abstract] [Full Text] [Related]

  • 5. The dehydroalanine effect in the fragmentation of ions derived from polypeptides.
    Pilo AL, Peng Z, McLuckey SA.
    J Mass Spectrom; 2016 Oct 03; 51(10):857-866. PubMed ID: 27484024
    [Abstract] [Full Text] [Related]

  • 6. Erratum: Preparation of Poly(pentafluorophenyl acrylate) Functionalized SiO2 Beads for Protein Purification.
    J Vis Exp; 2019 Apr 30; (146):. PubMed ID: 31038480
    [Abstract] [Full Text] [Related]

  • 7. Self-Assembling Polypeptides in Complex Coacervation.
    Sathyavageeswaran A, Bonesso Sabadini J, Perry SL.
    Acc Chem Res; 2024 Feb 06; 57(3):386-398. PubMed ID: 38252962
    [Abstract] [Full Text] [Related]

  • 8. Biocompatible Photoinduced Alkylation of Dehydroalanine for the Synthesis of Unnatural α-Amino Acids.
    Delgado JAC, Correia JTM, Pissinati EF, Paixão MW.
    Org Lett; 2021 Jul 02; 23(13):5251-5255. PubMed ID: 34152782
    [Abstract] [Full Text] [Related]

  • 9. Carrier design: conformational studies of amino acid (X) and oligopeptide (X-DL-Alam) substituted poly (L-lysine).
    Mezö G, Kajtár J, Hudecz F, Szekerke M.
    Biopolymers; 1993 Jun 02; 33(6):873-85. PubMed ID: 8318662
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  • 12. Facile chemoselective synthesis of dehydroalanine-containing peptides.
    Okeley NM, Zhu Y, van Der Donk WA.
    Org Lett; 2000 Nov 16; 2(23):3603-6. PubMed ID: 11073655
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  • 13. Preparation and stability of pegylated poly(S-alkyl-L-homocysteine) coacervate core micelles in aqueous media.
    Benavides I, Scott WA, Cai X, Zhou ZH, Deming TJ.
    Eur Phys J E Soft Matter; 2023 Sep 14; 46(9):81. PubMed ID: 37707598
    [Abstract] [Full Text] [Related]

  • 14. Multimodal switching of conformation and solubility in homocysteine derived polypeptides.
    Kramer JR, Deming TJ.
    J Am Chem Soc; 2014 Apr 16; 136(15):5547-50. PubMed ID: 24694061
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  • 15. Interfacial energy of polypeptide complex coacervates measured via capillary adhesion.
    Priftis D, Farina R, Tirrell M.
    Langmuir; 2012 Jun 12; 28(23):8721-9. PubMed ID: 22578030
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  • 17. Stability Enhancement of a π-Stacked Helical Structure Using Substituents of an Amino Acid Side Chain: Helix Formation via a Nucleation-Elongation Mechanism.
    Kanbayashi N, Kataoka Y, Okamura TA, Onitsuka K.
    J Am Chem Soc; 2022 Apr 06; 144(13):6080-6090. PubMed ID: 35325538
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  • 19. Effect of side chain length on intrahelical interactions between carboxylate- and guanidinium-containing amino acids.
    Kuo HT, Yang PA, Wang WR, Hsu HC, Wu CH, Ting YT, Weng MH, Kuo LH, Cheng RP.
    Amino Acids; 2014 Aug 06; 46(8):1867-83. PubMed ID: 24744084
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