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W2015691324 endingPage "140" @default.
W2015691324 startingPage "125" @default.
W2015691324 abstract "Lactoferrin is an important protein found in tear fluid and has been implicated in the fouling of contact lenses. The interaction forces between lactoferrin layers, adsorbed onto hydrophobic model substrates, as a function of electrolyte concentration, solution pH and protein concentration were investigated using an atomic force microscope (AFM) where the geometry of the scanning tip was modified by attaching a colloid particle. Bovine lactoferrin adsorbed strongly and modified the interaction forces to include both a long-range electrostatic repulsive force, which could be described using the DLVO theory, and a short-range additional repulsion due to compression of the adsorbed protein layers. The adsorption of lactoferrin was verified by XPS analysis of the surfaces and the adsorbed layer was determined to be present as a full monolayer by AFM imaging. At smaller separation distances, deviations from theoretical predictions indicated that there was an adsorbed layer of at least 5 nm on both surfaces. DLVO theory could be used successfully to describe the longer ranged interaction forces in background electrolyte concentrations of 0.0002 and 0.001 M KNO3, at various solution pH values. This analysis yielded effective diffuse electrical double layer potentials, which when plotted against the solution pH, suggested that the point of zero charge (pzc) of the protein coated surfaces was around pH 8, in agreement with literature values of the pI for lactoferrin. At higher electrolyte concentrations, 0.15 M KNO3, the interaction forces could no longer be described using DLVO theory. The interaction forces between the adsorbed lactoferrin layers were purely repulsive, and the range and magnitude varied as a function of solution pH. Variations in the forces as a function of solution pH reflected conformational changes that depend on short ranged electrostatic interactions between the peptide residues within the protein molecules and the peptide residues and the substrate as well as van der Waals and hydrophobic interactions. The range of the interaction forces and the high compressibility of the adsorbed layers indicated that a significant number were present in an end-on orientation." @default.
W2015691324 created "2016-06-24" @default.
W2015691324 creator A5016718780 @default.
W2015691324 creator A5024023946 @default.
W2015691324 date "2002-02-01" @default.
W2015691324 modified "2023-10-01" @default.
W2015691324 title "Interactions between adsorbed lactoferrin layers measured directly with the atomic force microscope" @default.
W2015691324 cites W169996820 @default.
W2015691324 cites W1964184162 @default.
W2015691324 cites W1966299680 @default.
W2015691324 cites W1966913679 @default.
W2015691324 cites W1967695249 @default.
W2015691324 cites W1968450141 @default.
W2015691324 cites W1969447674 @default.
W2015691324 cites W1971800897 @default.
W2015691324 cites W1979998999 @default.
W2015691324 cites W1982335417 @default.
W2015691324 cites W1983154827 @default.
W2015691324 cites W1985339442 @default.
W2015691324 cites W1985900564 @default.
W2015691324 cites W1992552603 @default.
W2015691324 cites W1992612860 @default.
W2015691324 cites W1993575880 @default.
W2015691324 cites W1994537827 @default.
W2015691324 cites W1996572376 @default.
W2015691324 cites W2006009640 @default.
W2015691324 cites W2006841815 @default.
W2015691324 cites W2008908542 @default.
W2015691324 cites W2009162073 @default.
W2015691324 cites W2009343922 @default.
W2015691324 cites W2010098512 @default.
W2015691324 cites W2013268460 @default.
W2015691324 cites W2013674447 @default.
W2015691324 cites W2013746255 @default.
W2015691324 cites W2016900056 @default.
W2015691324 cites W2025561491 @default.
W2015691324 cites W2025619529 @default.
W2015691324 cites W2027156662 @default.
W2015691324 cites W2028193394 @default.
W2015691324 cites W2032689379 @default.
W2015691324 cites W2033044886 @default.
W2015691324 cites W2033305582 @default.
W2015691324 cites W2033363879 @default.
W2015691324 cites W2033575993 @default.
W2015691324 cites W2033636044 @default.
W2015691324 cites W2034930471 @default.
W2015691324 cites W2035218437 @default.
W2015691324 cites W2035369786 @default.
W2015691324 cites W2037964699 @default.
W2015691324 cites W2038619226 @default.
W2015691324 cites W2048555993 @default.
W2015691324 cites W2048751903 @default.
W2015691324 cites W2053787721 @default.
W2015691324 cites W2054427689 @default.
W2015691324 cites W2056182522 @default.
W2015691324 cites W2056263342 @default.
W2015691324 cites W2060354231 @default.
W2015691324 cites W2065815419 @default.
W2015691324 cites W2066294614 @default.
W2015691324 cites W2067299231 @default.
W2015691324 cites W2068849672 @default.
W2015691324 cites W2069318256 @default.
W2015691324 cites W2072352559 @default.
W2015691324 cites W2073131573 @default.
W2015691324 cites W2074198131 @default.
W2015691324 cites W2078801606 @default.
W2015691324 cites W2080014512 @default.
W2015691324 cites W2081208174 @default.
W2015691324 cites W2082793941 @default.
W2015691324 cites W2083918090 @default.
W2015691324 cites W2085316659 @default.
W2015691324 cites W2086717661 @default.
W2015691324 cites W2086877095 @default.
W2015691324 cites W2087425958 @default.
W2015691324 cites W2089124524 @default.
W2015691324 cites W2090168906 @default.
W2015691324 cites W2090457306 @default.
W2015691324 cites W2107511168 @default.
W2015691324 cites W2110167104 @default.
W2015691324 cites W2113423265 @default.
W2015691324 cites W2144798802 @default.
W2015691324 cites W2170531080 @default.
W2015691324 cites W2328093216 @default.
W2015691324 cites W3150248096 @default.
W2015691324 cites W2000435168 @default.
W2015691324 doi "https://doi.org/10.1016/s0927-7765(01)00234-x" @default.
W2015691324 hasPublicationYear "2002" @default.
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