Oligo , surface

Harder P, Grunze M, Dahint R, Whitesides G M and Laibinis P E 1998 Molecular conformation in oligo(ethylene glycol)-terminated self-assembled monolayers on gold and silver surfaces determines their ability to resist protein adsorption J. Rhys. Chem. B 102 426-36... 

Wang J, Gibson MI, Barbey R, Xiao SJ, Klok HA (2009) Nonfouling polypeptide brushes via surface-initiated polymerization of N-epsilon-oligo(ethylene glycol)succinate-L-lysine N-carboxyanhydride. Macromol Rapid Commun 30 845-850... 

To suppress cell adhesion on a material surface, one approach is to inhibit the adsorption of proteins. SAMs of alkanethiols that carry oligo(ethylene glycol) (OEG) [69] and phosphorylcholine [46, 70, 71] have been shown to prevent... 

Fig. 9 Surface modification of cells with ssDNA-PEG-lipid. (a) Real-time monitoring of PEG-lipid incorporation into a supported lipid membrane by SPR. (r) A suspension of small unilamellar vesicles (SUV) of egg yolk lecithin (70 pg/mL) was applied to a CH3-SAM surface. A PEG-lipid solution (100 pg/mL) was then applied, (ii) Three types of PEG-lipids were compared PEG-DMPE (C14), PEG-DPPE (C16), and PEG-DSPE (C18) with acyl chains of 14, 16, and 18 carbons, respectively, (b) Confocal laser scanning microscopic image of an CCRF-CEM cell displays immobilized FITC-oligo(dA)2o hybridized to membrane-incorporated oligo(dT)20-PEG-lipid. (c) SPR sensorigrams of interaction between oligo(dA)2o-urokinase and the oligo (dT)2o-PEG-lipid incorporated into the cell surface, (i) BSA solution was applied to block nonspecific sites on the oligo(dT)20-incorporated substrate, (ii) Oligo(dA)20-urokinase (solid line) or oligo(dT)20-urokinase (dotted line) was applied...

Prime KL, Whitesides GM (1993) Adsorption of proteins onto surfaces containing end-attached oligo(ethylene oxide) A model system using self-assembled monolayers. J Am Chem Soc 115 10714-10721... 

The precise mechanism(s) by which oligos enter cells is not fully understood. Most are charged molecules, sometimes displaying a molecular mass of up to 10-12 kDa. Receptor-mediated endocytosis appears to be the most common mechanism by which charged oligos, such as phosphorothioates, enter most cells. One putative phosphorothioate receptor appears to consist of an 80 kDa surface protein, associated with a smaller 34 kDa membrane protein. However, this in itself seems to be an inefficient process, with only a small proportion of the administered drug eventually being transferred across the plasma membrane. 

In a totally independent approach, highly fluorescent but rigid molecules can be used and their reorientational movement probed in solution, mostly by time-resolved fluorescence anisotropy, (85) For rodlike molecules likep-oligo-phenyls, this movement corresponds to the reorientation of the long molecular axis the length of which can be easily varied. 86 The use of fluorescence probes in liquid and solid media and on surfaces has been treated recently in several reviews and books. 87 ... 

Figure 54. Peculiar surface chemistry of BOB anion on graphitic anode material XPS C Is spectra for a graphitic anode surface cycled in LiBOB- and LiPF6-based electrolytes. The peaks were resolved into three major contributions representing (1) hydrocarbon at 284.5 eV, (2) oligo-ether linkages at 286.5 eV, and (3) lithium alkyl carbonates at 289.37 eV, respectively. (Reproduced with permission from ref 489 (Figure 3). Copyright 2003 The Electrochemical Society.)...

Surface-initiated ring-opening polymerization of e-caprolactone on pCP SAM initiators equipped with an oligo-ethylenoxide function is reported by Hawker et al. [346]. Choi and hanger used a similar SAM initiator system to polymerize L-lactide [347]. 

With the development of enzymatic polymerization in solution, also first accounts for SIP appeared. Loos et al. [350] reported on enzymatic surface polymerization of glucose-l-phosphate with potato phosphorylase as the catalyst resulting in oligo- or poly-(a,l- 4)-D-glucopyranose. As initiator sites, immobilized malto-heptaose was used. Enzymatic grafting of hexyloxyphenol onto chitosan is reported by Payne and coworkers [351]. 

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