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Items: 1 to 20 of 121

1.

Different interfacial behaviors of peptides chemically immobilized on surfaces with different linker lengths and via different termini.

Han X, Liu Y, Wu FG, Jansensky J, Kim T, Wang Z, Brooks CL 3rd, Wu J, Xi C, Mello CM, Chen Z.

J Phys Chem B. 2014 Mar 20;118(11):2904-12. doi: 10.1021/jp4122003. Epub 2014 Mar 6.

PMID:
24555411
2.

Molecular structures of C- and N-terminus cysteine modified cecropin P1 chemically immobilized onto maleimide-terminated self-assembled monolayers investigated by molecular dynamics simulation.

Wang Z, Han X, He N, Chen Z, Brooks CL 3rd.

J Phys Chem B. 2014 May 29;118(21):5670-80. doi: 10.1021/jp5023482. Epub 2014 May 16.

PMID:
24802888
3.

Different interfacial behaviors of N- and C-terminus cysteine-modified cecropin P1 chemically immobilized onto polymer surface.

Han X, Uzarski JR, Mello CM, Chen Z.

Langmuir. 2013 Sep 17;29(37):11705-12. doi: 10.1021/la401818k. Epub 2013 Sep 3.

PMID:
23919837
4.

Environmental effect on surface immobilized biological molecules.

Wang Z, Han X, He N, Chen Z, Brooks CL 3rd.

J Phys Chem B. 2014 Oct 23;118(42):12176-85. doi: 10.1021/jp508550d. Epub 2014 Oct 14.

PMID:
25265065
5.

Solvent effect and time-dependent behavior of C-terminus-cysteine-modified cecropin P1 chemically immobilized on a polymer surface.

Han X, Soblosky L, Slutsky M, Mello CM, Chen Z.

Langmuir. 2011 Jun 7;27(11):7042-51. doi: 10.1021/la200388y. Epub 2011 May 9.

6.

Probing the orientation of surface-immobilized protein G B1 using ToF-SIMS, sum frequency generation, and NEXAFS spectroscopy.

Baugh L, Weidner T, Baio JE, Nguyen PC, Gamble LJ, Stayton PS, Castner DG.

Langmuir. 2010 Nov 2;26(21):16434-41. doi: 10.1021/la1007389.

7.
8.

Effect of immobilization on the antimicrobial activity of a cysteine-terminated antimicrobial Peptide Cecropin P1 tethered to silica nanoparticle against E. coli O157:H7 EDL933.

Wu X, Wei PH, Zhu X, Wirth MJ, Bhunia A, Narsimhan G.

Colloids Surf B Biointerfaces. 2017 Aug 1;156:305-312. doi: 10.1016/j.colsurfb.2017.05.047. Epub 2017 May 17.

PMID:
28544962
9.

Probing the orientation of electrostatically immobilized Protein G B1 by time-of-flight secondary ion spectrometry, sum frequency generation, and near-edge X-ray adsorption fine structure spectroscopy.

Baio JE, Weidner T, Baugh L, Gamble LJ, Stayton PS, Castner DG.

Langmuir. 2012 Jan 31;28(4):2107-12. doi: 10.1021/la203907t. Epub 2011 Dec 22.

10.

Engineering and Characterization of Peptides and Proteins at Surfaces and Interfaces: A Case Study in Surface-Sensitive Vibrational Spectroscopy.

Ding B, Jasensky J, Li Y, Chen Z.

Acc Chem Res. 2016 Jun 21;49(6):1149-57. doi: 10.1021/acs.accounts.6b00091. Epub 2016 May 18. Review.

PMID:
27188920
11.

Effect of interaction with coesite silica on the conformation of Cecropin P1 using explicit solvent molecular dynamics simulation.

Wu X, Chang H, Mello C, Nagarajan R, Narsimhan G.

J Chem Phys. 2013 Jan 28;138(4):045103. doi: 10.1063/1.4788662.

PMID:
23387625
12.
13.

Molecular orientation of enzymes attached to surfaces through defined chemical linkages at the solid-liquid interface.

Liu Y, Ogorzalek TL, Yang P, Schroeder MM, Marsh EN, Chen Z.

J Am Chem Soc. 2013 Aug 28;135(34):12660-9. doi: 10.1021/ja403672s. Epub 2013 Aug 15.

PMID:
23883344
14.

The effect of immobilization of thrombin inhibitors onto self-assembled monolayers on the adsorption and activity of thrombin.

Freitas SC, Barbosa MA, Martins MC.

Biomaterials. 2010 May;31(14):3772-80. doi: 10.1016/j.biomaterials.2010.01.097. Epub 2010 Feb 11.

PMID:
20153046
15.

Comparison of the influence of humidity and D-mannitol on the organization of tetraethylene glycol-terminated self-assembled monolayers and immobilized antimicrobial peptides.

Goel M, Marsh EN, Chen Z, Abbott NL.

Langmuir. 2014 Jun 24;30(24):7143-51. doi: 10.1021/la500926c. Epub 2014 Jun 9.

PMID:
24854220
16.

Lipopolysaccharide-bound structure of the antimicrobial peptide cecropin P1 determined by nuclear magnetic resonance spectroscopy.

Baek MH, Kamiya M, Kushibiki T, Nakazumi T, Tomisawa S, Abe C, Kumaki Y, Kikukawa T, Demura M, Kawano K, Aizawa T.

J Pept Sci. 2016 Apr;22(4):214-21. doi: 10.1002/psc.2865. Epub 2016 Mar 4.

PMID:
26939541
17.

Secondary Structure Determination of Peptides and Proteins After Immobilization.

North SH, Taitt CR.

Methods Mol Biol. 2016;1352:35-50. doi: 10.1007/978-1-4939-3037-1_4.

PMID:
26490466
18.

Bioactivity of immobilized EGF on self-assembled monolayers: optimization of the immobilization process.

Gonçalves R, Martins MC, Oliveira MJ, Almeida-Porada G, Barbosa MA.

J Biomed Mater Res A. 2010 Aug;94(2):576-85. doi: 10.1002/jbm.a.32723.

PMID:
20198690
19.

Peptide-bacteria interactions using engineered surface-immobilized peptides from class IIa bacteriocins.

Etayash H, Norman L, Thundat T, Kaur K.

Langmuir. 2013 Mar 26;29(12):4048-56. doi: 10.1021/la3041743. Epub 2013 Mar 14.

PMID:
23445325
20.

Effect of the surface on the secondary structure of soft landed peptide ions.

Hu Q, Wang P, Laskin J.

Phys Chem Chem Phys. 2010 Oct 21;12(39):12802-10. doi: 10.1039/c0cp00825g. Epub 2010 Aug 27.

PMID:
20820593

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