Department of Chemistry

Publications of Thomas LaBean

Journal articles or Book chapters PUBLISHED

1. H. Yan, S.H. Park, G. Finkelstein, J.H. Reif, and T.H. LaBean, "DNA-Templated Self-Assembly of Protein Arrays and Highly Conductive Nanowires", Science, 2003(301), 1882-1884.


2. Yan, H., LaBean, T.H., Feng, L., and Reif, J.H., "Directed nucleation assembly of DNA tile complexes for barcode-patterned lattices", Proc. Nat. Acad. Sci., USA, 2003(100), 8103-8108.


3. Yan, H., Feng, L., LaBean, T.H., and Reif, J.H., "Parallel Molecular Computation of Pair-wise XOR Using DNA “String Tile” Self-Assembly", J. Am. Chem. Soc., 2003(125), 14246-14247.


4. T.H. LaBean, "Introduction to self-assembling DNA nanostructures for computation and nanofabrication", in Computational Biology and Genome Informatics, edited by Wang, J.T.L., Wu, C.H. & Wang, P.P. , 2003, World Scientific Publishing, Singapore (ISBN 981-238-257-7.).


5. Mao, C., LaBean, T.H. Reif, J.H., Seeman, N.C., "Logical computation using algorithmic self-assembly of DNA triple-crossover molecules", Nature, 2000, 407, 493-496.


6. LaBean, T.H., Yan, H., Kopatsch, J., Liu, F., Winfree, E., Reif, J.H., and Seeman, N.C., "Construction, Analysis, Ligation, and Self-Assembly of DNA Triple Crossover Complexes", J. Am. Chem. Soc., 2000, 122, 1848-1860.


7. Schultes, E.A., Hraber, P.T. and LaBean, T.H., "Estimating the Contributions of Selection and Self-Organization in RNA Secondary Structure", J. Molecular Evolution, 1999, 49, 76-83.


8. Schultes, E.A., Hraber, P.T. and LaBean, T.H., "A Parameterization of RNA Sequence Space", Complexity, 1999, 4, 61-71.


9. Word, J.M., Lovell, S.C., LaBean, T.H., Taylor, H.C. Zalis, M.E., Presley, B.K., Richardson, J.S., and Richardson, D.C., "Visualizing and Quantifying Molecular Goodness-of-Fit: Small-Probe Contact Dots with Explicit Hydrogens", J. Molecular Biology, 1999, 285, 1711-1733.


10. Schultes, E.A., Hraber, P.T. and LaBean, T.H., "Global Similarities in Nucleotide Base Composition among Disparate Functional Classes of Single-Stranded RNA Imply Evolutionary Convergence", RNA, 1997, 3, 792-806.


11. Gernert, K.M., Surles, M.C., LaBean, T.H., Richardson, J.S., and Richardson, D.C., "The Alacoil: A Very Tight, Antiparallel Coiled-Coil of Helices", Protein Science, 1995, 4, 2252-2260.


12. LaBean, T.H., Kauffman, S.A., and Butt, T.R., "Libraries of Random-Sequence Polypeptides Produced with High Yield as Carboxy-Terminal Fusions with Ubiquitin", Molecular Diversity, 1995, 1, 29-38.


13. LaBean, T.H. and Kauffman, S.A., "Design of Synthetic Gene Libraries Encoding Random Sequence Proteins with Desired Ensemble Characteristics", Protein Science, 1993, 2, 1249-1254.


14. LaBean, T.H., Kauffman, S.A., and Butt, T.R., "Design, Expression, and Characterization of Random Sequence Polypeptides as Fusions with Ubiquitin", FASEB Journal, 1992, 6, A471 (abstract.).

Journal or Book articles OFFICIALLY ACCEPTED

1. D. Liu, S- H. Park, J. H. Reif, and T.H. LaBean, "DNA nanotubes self-assembled from TX tiles as templates for conductive nanowires", Proc. Nat. Acad. Sci., USAJanuary,, 2004, 101(3), 717-722.


2. H. Li, S- H. Park, J. H. Reif, T. H. LaBean, and Hao Yan, "DNA Templated Self-Assembly of Protein and Nanoparticle Linear Arrays", J. Am. Chem. Soc, 2003.


3. K. Trabbic-Carlson, D. E Meyer, R. Piervincenzi, N. Nath, T. LaBean, and A. Chilkoti, "Effect of Protein Fusion on the Transition Temperature of an Environmentally Responsive Elastin-like Polypeptide: A Role for Surface Hydrophobicity?", Protein Engineering Design and Selection, 2003.