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    Selected Publications

    Sahasrabudhe, P. V.; Tejero, R.; Kitao, S.; Furuichi, Y.; Montelione, G. T.
    Proteins: Structure, Function, Genetics 1998 Proteins.
    Structure, Function, Genetics. 33:558 - 566.
    Homology modeling of an RNP domain from a human RNA-binding protein: Homology-constrained energy optimization provides criteria for distinguishing potential sequence alignments.

    Kulikowski, C.A.; Zimmerman, D.; Anderson, S.; Montelione, G.T.
    Proc. MEDINFO '98, Seoul, Korea, August 1998.
    Structural-Functional Bioinformatics: Knowledge-Based NMR Interpretation

    Tejero, R.; Monleon, D.; Feng, W.; Celda, B.; Montelione, G. T.
    J. Biomol. NMR 1999 (in press).
    HYPER: A hierarchical algorithm involving progressive application of conformational constraints for automatic determination of protein dihedral angles and stereospecific methylene resonance assignments from NMR data.

    Swapna, G.V.T.; Montelione, G. T.
    J. Magn. Reson. 1999 137: 437 - 442.
    Application of multiple quantum line narrowing for sensitivity enhancement in PFG HBHA(CB)(CA)(CO)NH and (HB)(HA)CBCA(CO)NH triple-resonance NMR experiments.

    Montelione, G.T.; Rios, C.B.; Swapna, G.V.T.; Zimmerman, D.E.
    Biological Magnetic Resonance, Volume 17:
    Structure Computation and Dynamics in Protein NMR 1999.
    N. R. Krishna and L. Berliner, Eds. Plenum Press, NY (in press).
    NMR pulse sequences and computational approaches for automated analysis of sequence-specific backbone resonance assignments in proteins.

    Montelione, G. T.; Anderson, S.
    Nature Struct. Biol. 1999, 6: 11 - 12.
    Structural genomics: Keystone for a Human Proteome Project.

    Moseley, H. N. B.; Montelione, G. T.
    Curr. Opin. Struct. Biol. 1999 9: 635-642
    Automated Analysis of NMR Assignments and Structures.

    Montelione, G.T.; Rios, C.B.; Swapna, G.V.T.; Zimmerman, D.E.
    Biological Magnetic Resonance, Volume 17: Structure Computation and Dynamics in Protein NMR 1999. N. R. Krishna and L. Berliner, Eds. Plenum Press, NY.
    NMR pulse sequences and computational approaches for automated analysis of sequence-specific backbone resonance assignments in proteins.

A New Jersey Commission on Science and Technology Initiative
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