Lipid-coated nanocrystals as multifunctionalized luminescent scaffolds for supramolecular biological assemblies.

Nanometer light source: Interaction between high-affinity binding sites on lipid-coated nanocrystals (NCs) and different proteins enables the controlled formation of supramol. nanostructures on micropatterned surfaces. The NCs serve as local light sources emitting light over distances from 1 to more than 10 nm. [on SciFinder (R)]

[1]  H. Vogel,et al.  Integrated nanoreactor systems: triggering the release and mixing of compounds inside single vesicles. , 2004, Journal of the American Chemical Society.

[2]  T. Bayerl,et al.  Differences in the physical properties of lipid monolayers and bilayers on a spherical solid support. , 1997, Biophysical journal.

[3]  Alf Mews,et al.  Supramolecular Complexes from CdSe Nanocrystals and Organic Fluorophors , 2001 .

[4]  Xiaogang Peng,et al.  Formation of high-quality CdTe, CdSe, and CdS nanocrystals using CdO as precursor. , 2001, Journal of the American Chemical Society.

[5]  Igor L. Medintz,et al.  Fluorescence resonance energy transfer between quantum dot donors and dye-labeled protein acceptors. , 2003, Journal of the American Chemical Society.

[6]  M. Bruchez,et al.  Immunofluorescent labeling of cancer marker Her2 and other cellular targets with semiconductor quantum dots , 2003, Nature Biotechnology.

[7]  Vincent Noireaux,et al.  In Vivo Imaging of Quantum Dots Encapsulated in Phospholipid Micelles , 2002, Science.

[8]  H. Vogel,et al.  Highly fluorescent streptavidin-coated CdSe nanoparticles: preparation in water, characterization, and micropatterning. , 2004, Langmuir : the ACS journal of surfaces and colloids.

[9]  S. White,et al.  Membrane protein folding and stability: physical principles. , 1999, Annual review of biophysics and biomolecular structure.

[10]  H. Försterling,et al.  Principles of physical chemistry : Understanding molecules, molecular assemblies, supramolecular machines , 2000 .

[11]  S. Gaponenko Optical properties of semiconductor nanocrystals , 1998 .

[12]  R. Perham,et al.  Swinging arms and swinging domains in multifunctional enzymes: catalytic machines for multistep reactions. , 2000, Annual review of biochemistry.

[13]  C. Khosla,et al.  Modular enzymes : Biocatalysis: Synthesis methods that exploit enzymatic activities , 2001 .

[14]  J. Hofkens,et al.  Photophysical study of a multi-chromophoric dendrimer by time-resolved fluorescence and femtosecond transient absorption spectroscopy , 1999 .

[15]  C. Niemeyer REVIEW Nanoparticles, Proteins, and Nucleic Acids: Biotechnology Meets Materials Science , 2022 .

[16]  C. Mirkin,et al.  Nanoparticle-Based Bio-Bar Codes for the Ultrasensitive Detection of Proteins , 2003, Science.

[17]  J. Dubochet,et al.  Cryo-electron microscopy of vitrified specimens , 1988, Quarterly Reviews of Biophysics.

[18]  R N Zare,et al.  Chemical transformations in individual ultrasmall biomimetic containers. , 1999, Science.

[19]  E. Delamarche,et al.  Self-assembled microarrays of attoliter molecular vessels. , 2003, Angewandte Chemie.

[20]  C. Niemeyer Funktionale Hybride aus Proteinen und anorganischen Nanopartikeln , 2003 .

[21]  Shimon Weiss,et al.  Bioactivation and cell targeting of semiconductor CdSe/ZnS nanocrystals with phytochelatin-related peptides. , 2004, Journal of the American Chemical Society.

[22]  W. A. Kaysser,et al.  Lessons from Nature , 1999 .

[23]  D. Balding,et al.  HLA Sequence Polymorphism and the Origin of Humans , 2006 .

[24]  H. Möhwald,et al.  Lipid Coating on Polyelectrolyte Surface Modified Colloidal Particles and Polyelectrolyte Capsules , 2000 .

[25]  G Ulrich Nienhaus,et al.  A far-red fluorescent protein with fast maturation and reduced oligomerization tendency from Entacmaea quadricolor (Anthozoa, Actinaria) , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[26]  Horst Weller,et al.  Quantized Semiconductor Particles: A novel state of matter for materials science , 1993 .

[27]  S. Nie,et al.  Quantum dot bioconjugates for ultrasensitive nonisotopic detection. , 1998, Science.

[28]  Heinz Schmid,et al.  Printing Patterns of Proteins , 1998 .

[29]  H. Vogel,et al.  Reversible site-selective labeling of membrane proteins in live cells , 2004, Nature Biotechnology.

[30]  Vicki L. Colvin,et al.  X-ray Photoelectron Spectroscopy of CdSe Nanocrystals with Applications to Studies of the Nanocrystal Surface , 1994 .

[31]  C. Niemeyer,et al.  Nanopartikel, Proteine und Nucleinsäuren: Die Biotechnologie begegnet den Materialwissenschaften , 2001 .

[32]  Shimon Weiss,et al.  Properties of Fluorescent Semiconductor Nanocrystals and their Application to Biological Labeling , 2001 .

[33]  Christof M Niemeyer,et al.  Functional hybrid devices of proteins and inorganic nanoparticles. , 2003, Angewandte Chemie.

[34]  Igor Nabiev,et al.  Biocompatible fluorescent nanocrystals for immunolabeling of membrane proteins and cells. , 2004, Analytical biochemistry.

[35]  G. Whitesides,et al.  Self-Assembly at All Scales , 2002, Science.