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Controlling Surface Properties with Peptides: New Methods in Molecular Self-Assembly

Published online by Cambridge University Press:  15 February 2011

Troy Wilson  and
Mark D. Bednarski
Troy Wilson
Affiliation:
Department of ChemistryUniversity of California at BerkeleyBerkeley, California 94720
Mark D. Bednarski
Affiliation:
Center for Advanced Materials Materials Sciences DivisionLawrence Berkeley Laboratory Berkeley, California 94720
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Extract

As part of our investigation into the design and applications of proteolytic enzymes, we required a convenient method to attach peptides to the surface of a variety of materials. In this paper we report the synthesis and characterization of a class of peptide derivatized lipids (PDL's) that can be self-assembled into monomolecular films. These films can be used to control interfacial properties such as wetting and adhesion and provide a simple method to coat surfaces with amino acids.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 218: Symposium V – Materials Synthesis Based on Biological Processes , 1990 , 165
Copyright
Copyright © Materials Research Society 1991

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References

REFERENCES

1. Supported by a Howard Hughes Medical Institute Predoctoral Fellowship 1990–1995. Hertz Foundation Fellowship in Physical Chemistry 19901995.Google Scholar
2. American Cancer Society Junior Faculty Awardee 1990–1993, Grant No. JFRA-261.Google Scholar
3. Whitesides, G.M. and Ferguson, G.S., Chemtracts 1, 171187 (1988).Google Scholar
4. Swalen, J.D., Allara, D.L., Andrade, J.D., Chandross, E.A., Garoff, S., Israelachvili, J., McCarthy, T.J., Murray, R., Pease, R.F., Rabolt, J.F., Wynne, K.J. and Yu, H., Langmuir 3, 932950 (1987).CrossRefGoogle Scholar
5. Mastandrea, Mark, Wilson, Troy E. and Bednarski, Mark D., J. Mater. Educ., 11,529564 (1989).Google Scholar
6. The notation used to name the products is as follows: the lipid portion is identical in all products and is the 10,12- pentacosadiynoic fragment abbrievated PDA. The head group is described in the superscript. An alanine head group with an amide moiety at the carboxy terminus of the amino acid is written as Ala-NH2 in superscript.Google Scholar
7. Gaines, G.L.: Insoluble Monolayers at Liquid-Gas Interfaces, Wiley Interscience, New York 1966.Google Scholar
8. MacRitchie, F.: Chemistry at Interfaces, Academic Press, San Diego 1990.Google Scholar
9. Israelachvili, J.N.: Intermolecular and Surface Forces, Academic Press, London 1989.Google Scholar
10. The wettability of a surface measures qualitatively the polarity of groups at the surface. For example, clean glass is wetted by water with a water contact angle of 5 +/-2° while teflon repels water and has a contact angle of 105 +/-3°. For more detailed discussion, see ref. 3 or 5.Google Scholar
11. Tieke, B., Graf, H.J., Wegner, G., Naegele, D., Ringsdorf, H., Banerjie, A., Day, D. and Lando, J.B., Colloid and Polymer Sci., 255, 521 (1977).CrossRefGoogle Scholar