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Items: 1 to 20 of 129

1.

Dramatically increased pH and temperature stability of chymotrypsin using dual block polymer-based protein engineering.

Cummings C, Murata H, Koepsel R, Russell AJ.

Biomacromolecules. 2014 Mar 10;15(3):763-71. doi: 10.1021/bm401575k. Epub 2014 Feb 20.

PMID:
24506329
2.

Tailoring enzyme activity and stability using polymer-based protein engineering.

Cummings C, Murata H, Koepsel R, Russell AJ.

Biomaterials. 2013 Oct;34(30):7437-43. doi: 10.1016/j.biomaterials.2013.06.027. Epub 2013 Jul 11.

PMID:
23849877
3.

"Schizophrenic" hemocompatible copolymers via switchable thermoresponsive transition of nonionic/zwitterionic block self-assembly in human blood.

Shih YJ, Chang Y, Deratani A, Quemener D.

Biomacromolecules. 2012 Sep 10;13(9):2849-58. doi: 10.1021/bm3008764. Epub 2012 Aug 13.

PMID:
22838402
4.

Rational tailoring of substrate and inhibitor affinity via ATRP polymer-based protein engineering.

Murata H, Cummings CS, Koepsel RR, Russell AJ.

Biomacromolecules. 2014 Jul 14;15(7):2817-23. doi: 10.1021/bm5008629. Epub 2014 Jun 23.

PMID:
24954523
5.

Synthesis of thermo-responsive polymers with both tunable UCST and LCST.

Tian HY, Yan JJ, Wang D, Gu C, You YZ, Chen XS.

Macromol Rapid Commun. 2011 Apr 19;32(8):660-4. doi: 10.1002/marc.201000713. Epub 2011 Mar 7.

PMID:
21480424
6.

Controlling the aggregation of conjugates of streptavidin with smart block copolymers prepared via the RAFT copolymerization technique.

Kulkarni S, Schilli C, Grin B, Müller AH, Hoffman AS, Stayton PS.

Biomacromolecules. 2006 Oct;7(10):2736-41.

PMID:
17025347
7.

Thermo-responsive association of chitosan-graft-poly(N-isopropylacrylamide) in aqueous solutions.

Bao H, Li L, Leong WC, Gan LH.

J Phys Chem B. 2010 Aug 19;114(32):10666-73.

PMID:
20734475
8.

Polymer-based protein engineering can rationally tune enzyme activity, pH-dependence, and stability.

Murata H, Cummings CS, Koepsel RR, Russell AJ.

Biomacromolecules. 2013 Jun 10;14(6):1919-26. doi: 10.1021/bm4002816. Epub 2013 May 9.

PMID:
23600667
9.

Diverse thermoresponsive behaviors of uncharged UCST block copolymer micelles in physiological medium.

Zhang H, Tong X, Zhao Y.

Langmuir. 2014 Sep 30;30(38):11433-41. doi: 10.1021/la5026334. Epub 2014 Sep 17.

PMID:
25141758
10.

Synthesis of temperature and pH-responsive crosslinked micelles from polypeptide-based graft copolymer.

Zhao C, He P, Xiao C, Gao X, Zhuang X, Chen X.

J Colloid Interface Sci. 2011 Jul 15;359(2):436-42. doi: 10.1016/j.jcis.2011.04.037. Epub 2011 Apr 18.

PMID:
21531426
11.

Surface chemical immobilization of parylene C with thermosensitive block copolymer brushes based on N-isopropylacrylamide and N-tert-butylacrylamide: synthesis, characterization, and cell adhesion/detachment.

Zhang C, Vernier PT, Wu YH, Yang W, Thompson ME.

J Biomed Mater Res B Appl Biomater. 2012 Jan;100(1):217-29. doi: 10.1002/jbm.b.31941. Epub 2011 Nov 9. Erratum in: J Biomed Mater Res B Appl Biomater. 2012 Oct;100B(7):2022. Thompson, Mark E [added].

PMID:
22069302
12.
13.

Fabrication of multiresponsive shell cross-linked micelles possessing pH-controllable core swellability and thermo-tunable corona permeability.

Jiang X, Ge Z, Xu J, Liu H, Liu S.

Biomacromolecules. 2007 Oct;8(10):3184-92. Epub 2007 Sep 22.

PMID:
17887794
14.
16.
17.

Stimuli-responsive zwitterionic block copolypeptides: poly(N-isopropylacrylamide)-block-poly(lysine-co-glutamic acid).

Li J, Wang T, Wu D, Zhang X, Yan J, Du S, Guo Y, Wang J, Zhang A.

Biomacromolecules. 2008 Oct;9(10):2670-6. doi: 10.1021/bm800394p. Epub 2008 Aug 29.

PMID:
18759410
18.

Hydrogen-bonded layer-by-layer temperature-triggered release films.

Zhuk A, Pavlukhina S, Sukhishvili SA.

Langmuir. 2009 Dec 15;25(24):14025-9. doi: 10.1021/la901478v.

PMID:
19572503
19.
20.

In situ characterization of thermo-responsive poly(N-isopropylacrylamide) films with sum-frequency generation spectroscopy.

Kurz V, Grunze M, Koelsch P.

Chemphyschem. 2010 May 17;11(7):1425-9. doi: 10.1002/cphc.200900978.

PMID:
20217885
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