Biomedical Engineering Reference
In-Depth Information
75.
Bruno, F.F., Akkara, J.A., Samuelson, L.A., Kaplan, D.L., Mandal, B.K., Marx, K.A., Kumar, J.,
Tripathy, S.K. (1995). Enzymatic Synthesis of Conjugated Polymers at the Langmuir Trough
Air-Water Interface.
Langmuir
11:889-892.
76.
Bruno, F.F., Akkara, J.A., Kaplan, D.L., Sekher, P., Marx, K.A., Tripathy, S.K. (1995). Enzyme-
Mediated Two-Dimensional Polymerization of Aromatic Derivatives on a Langmuir Trough.
Ind. Eng. Chem. Res
. 34:4009-4015.
77.
Akkara, J.A., Bruno, F.F., Samuelson, L.A., Ayyagari, M., Tripathy, S.K., Marx, K.A., John, V.T.,
Kaplan, D.L. (1993). Synthesis of Two-Dimensional Electrooptic Polymer Networks Through
Biocatalysis.
Polymer Preprints, ACS Award Symp.
34:775-776.
78.
Akkara, J.A., Ayyagari, M., Bruno, F.F., Samuelson, L.A., John, V.T., Karayigitoglu, C.,
Tripathy, S.K., Marx, K.A., Rao, D.V.G.L.N., Kaplan, D.L. (1994). Biomimetic Membrane
and Interface Templates for Enzyme-Based Polymerization Reactions.
Biomimetics
2:331-339.
79.
Marx, K.A., Lee, J.S., Sung, C. (2004). Enzymatic Copolymerization Alters the Structure of
Unpolymerized Mixtures of the Biomimetic Monomers: The Amphiphilic Decyl Ester of
L
-
Tyrosine and
L
-Tyrosineamide—An AFM Investigation of Nano- to Micrometer Scale
Structure Differences.
Biomacromolecules
5:1869-1876.
80.
Colonna, S., Gaggero, N., Richelmi, C., Pasta, P. (1999). Recent Biotechnological Developments
in the Use of Peroxidases.
TIBTECH
17:163-168.
81.
Ozaki, S., Ortiz de Montellano, P.R. (1995). Molecular Engineering of Horseradish Peroxidase:
Thioether Sulfoxidation and Styrene Epoxidation by Phe-41 Leucine and Threonine Mutants.
J. Am. Chem. Soc.
117:7056-7064.
82.
Alva, K.S., Sarma, R., Marx, K.A., Kumar, J., Tripathy, S.K., Akkara, J.A., Kaplan, D.L. (1997).
Biochemically Designed Polymers as Self Organized Materials
. Smart Materials Technol., SPIE
3040:200-210.
83.
Marx, K.A., Zhou, T., McIntosh, D., Braunhut. S.J. (2004). Electropolymerization of Biomimetic
Peptide-Tyrosineamide Polymer Films for Specific Cell Attachment.
Arch. Appl. Biomater.
Biomol. Mater., Mater. Res. Soc.
EXS-1:169-171.
84.
Rosso, F., Giordano, A., Barbarisi, N., Barbarisi, A. (2004). From Cell-ECM Interactions to
Tissue Engineering.
J. Cell Physiol.
199:174-180.
85.
Marx, K.A., Zhou, T., Sarma, R. (1999). Quartz Crystal Microbalance Measurement of Self-
Assembled Micellar Tubules of the Amphiphilic Decyl Ester of
D
-Tyrosine and Their
Enzymatic Polymerization.
Biotechnol. Progress
15:522-528.
86.
Sarma, R., Alva, K.S., Marx, K.A., Tripathy, S.K., Akkara, J.A., Kaplan, D.L., (1996). Enzymatic
Polymerization of Amphiphilic Alkyl Tyrosine Derivatives From Emulsions.
Mater. Sci. Eng. C
4:189-192.
87.
Marx, K.A., Alva, K.S., Sarma, R. (2000). Self-Assembled Micron Scale Tubule Structures
Formed by Amphiphilic Alkyl Tyrosine Derivatives Prior to and Following Enzymatic
Polymerization.
Mater. Sci. Eng. C
11:155-163.
88.
Angelopoulos, A., Marx, K.A., Oh, S. (2002). The Use of Aqueous Enzymatic Polymerization
of Amphiphilic Alkyl Tyrosine Derivatives as Environmentally Benign Coatings in the
Microelectronics Industry. Polym. Interf. Thin Films
Mater. Res. Soc
. 710:207-212.
89.
Janshoff, A., Galla, H.J., Steinem, C. (2000). Piezoelectric Mass Sensing Devices as Biosensors-
an Alternative to Optical Biosensors?
Angew. Chem. Int. Ed.
39:4004-4032.
90.
Wegener, J., Janshoff, A., Steinem, C. (2001). The Quartz Crystal Microbalance as a Novel
Neans to Study Cell-Substrate Alterations in situ.
Cell Biochem. Biophys.
34:121-151.
91.
Cavic, B.A., Hayward, G.I., Thompson, M. (1999). Acoustic Waves and the Study of
Biochemical Macromolecules and Cells at the Sensor-Liquid Interface.
Analyst
124:1405-1420.
92.
Zhou, T., Marx, K.A., Warren, M., Schulze, H., Braunhut, S. J. (2000). The Quartz Crystal
Microbalance as a Continuous Monitoring Tool for the Study of Endothelial Cell Surface
Attachment and Growth.
Biotechnol. Prog.
16:268-277.
93.
Marx, K.A., Zhou, T., Warren, M., Braunhut, S. J. (2003). Quartz Crystal Microbalance Study
of Endothelial Cell Number Dependent Differences in Initial Adhesion and Steady-State
Behavior: Evidence for Cell-Cell Cooperativity in Initial Adhesion and Spreading.
Biotechnol.
Prog
. 19:987-999.
