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Items: 1 to 20 of 224

1.

Resonance energy transfer improves the biological function of bacteriorhodopsin within a hybrid material built from purple membranes and semiconductor quantum dots.

Rakovich A, Sukhanova A, Bouchonville N, Lukashev E, Oleinikov V, Artemyev M, Lesnyak V, Gaponik N, Molinari M, Troyon M, Rakovich YP, Donegan JF, Nabiev I.

Nano Lett. 2010 Jul 14;10(7):2640-8. doi: 10.1021/nl1013772.

PMID:
20521831
2.

Thin films and assemblies of photosensitive membrane proteins and colloidal nanocrystals for engineering of hybrid materials with advanced properties.

Zaitsev SY, Solovyeva DO, Nabiev I.

Adv Colloid Interface Sci. 2012 Nov 15;183-184:14-29. doi: 10.1016/j.cis.2012.07.003. Epub 2012 Jul 28. Review.

PMID:
22906866
3.

Optical protein modulation via quantum dot coupling and use of a hybrid sensor protein.

Griep M, Winder E, Lueking D, Friedrich C, Mallick G, Karna S.

J Nanosci Nanotechnol. 2010 Sep;10(9):6029-35.

PMID:
21133143
4.

A new class of purple membrane variants for the construction of highly oriented membrane assemblies on the basis of noncovalent interactions.

Baumann RP, Busch AP, Heidel B, Hampp N.

J Phys Chem B. 2012 Apr 12;116(14):4134-40. doi: 10.1021/jp210825x. Epub 2012 Mar 28.

PMID:
22420766
5.

Controlled influence of quantum dots on purple membranes at interfaces.

Zaitsev SY, Lukashev EP, Solovyeva DO, Chistyakov AA, Oleinikov VA.

Colloids Surf B Biointerfaces. 2014 May 1;117:248-51. doi: 10.1016/j.colsurfb.2014.02.033. Epub 2014 Feb 28.

PMID:
24657610
6.

Two-photon-induced Förster resonance energy transfer in a hybrid material engineered from quantum dots and bacteriorhodopsin.

Krivenkov V, Samokhvalov P, Solovyeva D, Bilan R, Chistyakov A, Nabiev I.

Opt Lett. 2015 Apr 1;40(7):1440-3. doi: 10.1364/OL.40.001440.

PMID:
25831354
7.

Curvature of purple membranes comprising permanently wedge-shaped bacteriorhodopsin molecules is regulated by lipid content.

Rhinow D, Hampp N.

J Phys Chem B. 2010 Jan 14;114(1):549-56. doi: 10.1021/jp908408d.

PMID:
19908872
8.

Fabrication of oriented poly-L-lysine/bacteriorhodopsin-embedded purple membrane multilayer structure for enhanced photoelectric response.

Li R, Cui X, Hu W, Lu Z, Li CM.

J Colloid Interface Sci. 2010 Apr 1;344(1):150-7. doi: 10.1016/j.jcis.2009.12.013. Epub 2009 Dec 6.

PMID:
20056227
9.

Structural changes in bacteriorhodopsin caused by two-photon-induced photobleaching.

Rhinow D, Imhof M, Chizhik I, Baumann RP, Hampp N.

J Phys Chem B. 2012 Jun 28;116(25):7455-62. doi: 10.1021/jp2112846. Epub 2012 Apr 30.

PMID:
22512248
10.

Stability of purple membranes from Halobacterium salinarum toward surfactants: inkjet printing of a retinal protein.

Imhof M, Pudewills J, Rhinow D, Chizhik I, Hampp N.

J Phys Chem B. 2012 Aug 16;116(32):9727-31. doi: 10.1021/jp3057459. Epub 2012 Aug 7.

PMID:
22834540
11.

Facile isolation of purple membrane from Halobacterium salinarum via aqueous-two-phase system.

Shiu PJ, Ju YH, Chen HM, Lee CK.

Protein Expr Purif. 2013 Jun;89(2):219-24. doi: 10.1016/j.pep.2013.03.011. Epub 2013 Apr 9.

PMID:
23583309
12.
13.

Role of trimer-trimer interaction of bacteriorhodopsin studied by optical spectroscopy and high-speed atomic force microscopy.

Yamashita H, Inoue K, Shibata M, Uchihashi T, Sasaki J, Kandori H, Ando T.

J Struct Biol. 2013 Oct;184(1):2-11. doi: 10.1016/j.jsb.2013.02.011. Epub 2013 Feb 24.

PMID:
23462099
14.

Bacteriorhodopsin (bR) as an electronic conduction medium: current transport through bR-containing monolayers.

Jin Y, Friedman N, Sheves M, He T, Cahen D.

Proc Natl Acad Sci U S A. 2006 Jun 6;103(23):8601-6. Epub 2006 May 26.

15.

Structural changes of purple membrane and bacteriorhodopsin during its denaturation induced by high pH.

Li H, Chen DL, Zhong S, Xu B, Han BS, Hu KS.

J Phys Chem B. 2005 Jun 9;109(22):11273-8.

PMID:
16852376
16.
17.
18.

Functionally relevant coupled dynamic profile of bacteriorhodopsin and lipids in purple membranes.

Kamihira M, Watts A.

Biochemistry. 2006 Apr 4;45(13):4304-13.

PMID:
16566605
19.

Crystallinity of purple membranes comprising the chloride-pumping bacteriorhodopsin variant D85T and its modulation by pH and salinity.

Rhinow D, Chizhik I, Baumann RP, Noll F, Hampp N.

J Phys Chem B. 2010 Nov 25;114(46):15424-8. doi: 10.1021/jp108502p. Epub 2010 Oct 29.

PMID:
21033713
20.

Sensitive detection of protein-lipid interaction change on bacteriorhodopsin using dodecyl β-D-maltoside.

Sasaki T, Demura M, Kato N, Mukai Y.

Biochemistry. 2011 Mar 29;50(12):2283-90. doi: 10.1021/bi101993s. Epub 2011 Feb 28.

PMID:
21314119
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