Publications of G. T. Montelione and co-workers

 

1. Montelione, G.T.; Callahan, S.; Podleski, T.R. Biochim. Biophys. Acta 1981, 670: 110 -1 23. Physical and chemical characterization of the major lactose-blockable lectin activity from fetal calf skeletal muscle. (PubMed)
2. Stimson, E.R.; Montelione, G.T.; Meinwald, Y.C.; Rudolph, R.K.E.; Scheraga, H.A. Biochemistry 1982, 21: 5252 - 5262. Equilibrium ratios of cis- and trans-proline conformers in fragments of ribonuclease A from nuclear magnetic resonance spectra of adjacent tyrosine ring resonances. (pdf)
3. Montelione, G.T.; Arnold, E.; Meinwald, Y.C.; Stimson, E.R.; Denton, J.B.; Huang, S.-G.; Clardy, J.; Scheraga, H.A. J. Amer. Chem. Soc. 1984, 106: 7946 - 7958. Chain-folding initiation structures in ribonuclease A: Conformational analysis of trans Ac-Asn-Pro-Tyr-NHMe and trans Ac-Tyr-Pro-Asn-NHMe in water and in the solid state. (pdf)
4. Oka, M.; Montelione, G.T.; Scheraga, H.A. J. Amer. Chem. Soc. 1984, 106: 7959 - 7969. Chain-folding initiation structures in ribonuclease A: Conformational free energy calculations on Ac-Asn-Pro-Tyr-NHMe, Ac-Tyr-Pro-Asn-NHMe, and related peptides. (pdf)
5. Swadesh, J.K.; Montelione, G.T.; Thannhauser, T.W.; Scheraga, H.A. Proc. Natl. Acad. Sci. U.S.A. 1984, 81: 4606 - 4610. Local structure involving histidine-12 in reduced S-sulfonated ribonuclease A detected by proton NMR spectroscopy under folding conditions. (pdf)
6. Stimson, E.R.; Meinwald, Y.C.; Montelione, G.T.; Scheraga, H.A. Intl. J. Peptide Protein Res. 1986, 27: 569 - 582. Conformational properties of trans Ac-Asn-Pro-Tyr-NHMe and trans Ac-Tyr-Pro-Asn-NHMe in dimethylsulfoxide and in water determined by multinuclear NMR spectroscopy. (PubMed)
7. Montelione, G.T.; Hughes, P.; Clardy, J.; Scheraga, H.A. J. Amer. Chem. Soc. 1986, 108: 6765 - 6773. Conformational properties of 2,4-methanoproline (2-carboxy-2,4-methanopyrrolidine) in peptides: Determination of preferred peptide bond conformations in aqueous solution by proton Overhauser measurements. (pdf)
8. Montelione, G.T.; Wüthrich, K.; Nice, E.C.; Burgess, A.W.; Scheraga, H.A. Proc. Natl. Acad. Sci. U.S.A. 1986, 83: 8594 - 8598. Identification of two anti-parallel beta-sheet conformations in the solution structure of murine epidermal growth factor by proton magnetic resonance. (pdf)
9. Talluri, S.; Montelione, G.T.; Van Duyne, G.; Piela, L.; Clardy, J.; Scheraga, H.A. J. Amer. Chem. Soc. 1987, 109: 4473 - 4477. Conformational properties of 2,4-methanoproline (2,carboxy-2,4-methanopyrrolidine) in peptides: Evidence for 2,4-methanopyrrolidine asymmetry based on solid state X-ray crystallography, 1H-NMR in aqueous solution, and CNDO/2 conformational energy calculations. (pdf)
10. Haas, E.; Montelione, G.T.; McWherter, C.A.; Scheraga, H.A. Biochemistry 1987, 26: 1672 - 1682. Local structure in a tryptic fragment of performic acid oxidized ribonuclease A corresponding to a proposed polypeptide chain-folding initiation site detected by tyrosine fluorescence lifetime and proton MR measurements. (pdf)
11. Montelione, G.T.; Wüthrich, K.; Nice, E.C.; Burgess, A.W.; Scheraga, H.A. Proc. Natl. Acad. Sci. U.S.A. 1987, 84: 5226 - 5230. Solution structure of murine epidermal growth factor: Determination of the polypeptide backbone chain-fold by nuclear magnetic resonance and distance geometry. (pdf)
12. Montelione, G.T.; Wüthrich, K.; Scheraga, H.A. Biochemistry 1988, 27: 2235 - 2243. Sequence-specific 1H-NMR assignments and identification of slowly exchanging amide protons in murine epidermal growth factor. (pdf)
13. Ray, P.; Moy, F.; Montelione, G.T.; Narang, S.A.; Scheraga, H.A.; Wu, R. Biochemistry 1988, 27: 7289 - 7295. Structure-function studies of murine epidermal growth factor: Expression and site-directed mutagenesis of the epidermal growth factor gene. (pdf)
14. Montelione, G.T.; Winkler, M.; Rinderknecht, E.; Burton, L.E.; Sporn, M.B.; Wagner, G. Proc. Natl. Acad. Sci. U.S.A. 1989, 86: 1519 - 1523. Sequence-specific 1H-NMR assignments and identification of two small anti-parallel β-sheets in the solution structure of recombinant human transforming growth factor a. (pdf)
15. Montelione, G.T.; Wagner, G. J. Amer. Chem. Soc. 1989, 111: 3096 - 3098. 2D chemical exchange NMR spectroscopy by proton-detected heteronuclear correlation. (pdf)
16. Montelione, G.T.; Winkler, M.; Rinderknecht, E.; Wagner, G. J. Magn. Reson. 1989, 82: 198 - 204. Accurate measurements of long-range heteronuclear coupling constants from homonuclear 2D NMR spectra of isotope-enriched proteins.
17. Montelione, G.T.; Wagner, G. J. Amer. Chem. Soc. 1989, 111: 5474 - 5475. Accurate measurements of homonuclear HN-Hα coupling constants in polypeptides using heteronuclear 2D NMR experiments. (pdf)
18. Moy, F.J.; Scheraga, H.A.; Lui, J.-F.; Wu, R.; Montelione, G.T. Proc. Natl. Acad. Sci. U.S.A. 1989, 86: 9836 - 9840. Conformational characterization of a single-site mutant of murine epidermal growth factor (EGF) by 1H-NMR provides evidence that leucine-47 is involved in interactions with the EGF receptor. (pdf)
19. Montelione, G.T.; Scheraga, H.A.  Accts. Chem. Research 1989, 22: 70 - 76. Formation of local structures in protein folding.
20. Wagner, G.; Nirmala, N.R.; Montelione, G.T.; Hyberts, S. "Frontiers of NMR in Molecular Biology" pp. 129 - 143.  1990. A.D. Liss, Inc. Static and dynamic aspects of protein structure.
21. Montelione, G.T.; Wagner, G. J. Magn. Reson. 1990, 83: 183 - 188. Conformation-independent sequential NMR connections in isotope-enriched polypeptides by 1H-13C-15N triple-resonance experiments.
22. Engler, D.A.; Montelione, G.T.; Niyogi, S.K. FEBS Lett. 1990, 271: 47 - 50. Human epidermal growth factor: Roles of Arg-41 and Tyr-37 in receptor binding. (pdf)
23. Montelione, G.T.; Wüthrich, K.; Burgess, A.W.; Nice, E.C.; Wagner, G.; Scheraga, H.A. Biochemistry 1992, 31: 236 - 249. Solution structure of murine epidermal growth factor determined by NMR spectroscopy and refined by energy minimization with restraints. (pdf)
24. Emerson, S.D.; Montelione, G.T. J. Amer. Chem. Soc. 1992, 114: 354 - 356. Accurate measurements of proton scalar coupling constants using carbon-13 isotropic mixing spectroscopy. (pdf)
25. Montelione, G.T.; Emerson, S.D.; Lyons, B.A. Biopolymers 1992, 32: 327 - 334.  A general approach for determining scalar coupling constants in polypeptides and proteins. (PubMed)
26. Moy, F.J.; Scheraga, H.A.; Patt, S.L.; Montelione, G.T. J. Magn. Reson. 1992, 98: 451 - 457. Application of frequency-shifted shaped pulses for overcoming solvent-saturation transfer and pre-irradiation associated spin-diffusion effects in aqueous solutions of polypeptides and proteins.
27. Emerson, S.D.; Montelione, G.T. J. Magn. Reson. 1992, 99: 413 - 420. 2D and 3D HCCH TOCSY experiments for determining 3J(Hα-Hβ) coupling constants of amino acid residues.
28. Montelione, G.T.; Lyons, B.A.; Emerson, S.D.; Tashiro, M. J. Amer. Chem. Soc. 1992, 114: 10974 - 10975. An efficient triple resonance experiment using carbon-13 isotropic mixing for determining sequence-specific resonance assignments of isotopically enriched proteins. (pdf)
29. Lyons, B.A.; Montelione, G.T. J. Magn. Reson. 1993, B101: 206 - 209. An HCCNH triple-resonance experiment using carbon-13 isotropic mixing for correlating backbone amide and side-chain aliphatic resonances in isotopically enriched proteins. (pdf)
30. Celda, B.; Montelione, G.T. J. Magn. Reson. 1993, B101: 189 - 193. Total correlation spectroscopy (TOCSY) of proteins using co-addition of spectra recorded with several mixing times. (pdf)
31. Moy, F.J.; Li, Y.-C.; Winkler, M.E.; Scheraga, H.A.; Montelione, G.T. Biochemistry 1993, 32: 7334 - 7353. Solution structure of human type-α transforming growth factor determined by heteronuclear NMR spectroscopy and refined by energy minimization with restraints. (pdf)
32. Campion, S.R.; Biamonti, C.; Montelione, G.T.; Niyogi, S.K. Protein Engineering 1993, 6: 651 - 659. The role of asparagine-32 in forming the receptor-binding epitope of human epidermal growth factor. (featured on cover of August 1994 issue of Protein Engineering). (PubMed)
33. Lyons, B.A.; Tashiro, M; Cedergren, L., Nilsson, B.; Montelione, G.T. Biochemistry 1993, 32: 7839 - 7845.  An improved strategy for determining sequence-specific resonance assignments of isotopically enriched proteins and its application on an engineered domain of staphylococcal Protein A. (pdf)
34. Li, Y.-C.; Montelione, G.T. J. Magn. Reson. 1993, B101: 315 - 319. Solvent saturation-transfer effects in pulsed-field-gradient heteronuclear single-quantum coherence (PFG-HSQC) spectra of polypeptides and proteins. (pdf)
35. Zimmerman, D., Kulikowski, C., Montelione, G.T. Proceedings of the First International Conference of Intelligent Systems for Molecular Biology. 1993, AAAI Press, Washington, D.C. A constraint reasoning system for automating sequence-specific resonance assignments in multidimensional protein NMR spectra. (link)
36. Zimmerman, D.; Kulikowski, C.; Wang, L.; Lyons, B.; Montelione, G.T. J. Biomol. NMR 1994, 4: 241 - 256. Automated sequencing of amino acid spin systems in proteins using multidimensional HCC(CO)NH-TOCSY spectroscopy and constraint propagation methods from artificial intelligence. (PubMed)
37. Li, Y.-C.; Montelione, G.T. J. Magn. Reson. 1994, B105: 45 - 51. Overcoming solvent saturation-transfer artifacts in protein NMR at neutral pH: Application of pulsed-field gradients in measurements of 1H-15N Overhauser effects. (pdf)
38. Newkirk, K.; Feng, W.; Jiang, W.; Tejero, R.; Emerson, S.D.; Inouye, M.; Montelione, G.T. Proc. Natl. Acad. Sci. U.S.A. 1994, 91: 5114 - 5118. Solution NMR structure of the major cold-shock protein (CspA) from Escherichia coli:Identification of a binding epitope for single-stranded DNA. (pdf)
39. Shang, Z.; Isaac, V.E.; Li, H.; Patel, L.; Catron, K.M.; Curran, T.; Montelione, G.T.; Abate, C. Proc. Natl. Acad. Sci. U.S.A. 1994, 91: 8373 - 8377. Design of a "minimA1" homeodomain: The N-terminal arm modulates DNA binding affinity and stabilizes homeodomain structure. (pdf)
40. Biamonti, C.; Ríos, C. B.; Lyons, B.A.; Montelione, G.T. Advances in Biophysical Chemistry 1994, 4: 51 - 120. Multidimensional NMR experiments and analysis techniques for determining homo- and heteronuclear scalar coupling constants in proteins and nucleic acids.
41. Tashiro, M.; Montelione, G. T. Current Opin. in Struct. Biol. 1995,5: 471 - 481. Structures of bacterial immunoglobulin-binding domains and their complexes with immunoglobulins. (pdf)
42. Zimmerman, D.E.; Montelione, G. T. Current Opin. in Struct. Biol. 1995, 5: 664 - 673. Automated analysis of nuclear magnetic resonance assignments for proteins. (pdf)
43. Celda, B.; Biamonti, C.; Arnau, M. J.; Tejero, R.; Montelione, G.T. J. Biomol. NMR 1995, 5: 161 - 172. Combined use of 13C chemical shift and 1Hα-13Cαheteronuclear NOE data in monitoring a protein NMR structure refinement. (PubMed)
44. Li, Y.-C.; Montelione, G. T. Biochemistry 1995, 34: 2408 - 2423. Human type-α transforming growth factor undergoes slow conformational exchange between multple backbone conformations as characterized by 15N relaxation time measurements. (pdf)
45. Tashiro, M.; Ríos, C. B., Montelione, G. T. J. Biomol. NMR 1995, 6: 211 - 216.  Classification of amino acid spin systems using PFG HCC(CO)NH-TOCSY with constant-time aliphatic carbon-13 frequency labeling. (PubMed)
46. Fadel, A. R.; Jin, D. Q.; Montelione, G. T.; Levy, R. M. J. Biomol. NMR 1995, 6: 221 - 226. Crankshaft motions of the polypeptide backbone in molecular dynamics simulations of human type-α transforming growth factor. (PubMed)
47. Qian, X.-Y.; Chien, C.-Y.; Lu, Y.; Montelione, G.T.; Krug, R.M. RNA. 1995, 1: 948 - 956. An amino-terminal polypeptide fragment of the influenza virus NS1 protein possesses specific RNA-binding activity and largely helical backbone structure. (pdf)
48. Jendeberg, L.; Tashiro, M.; Tejero, R.; Lyons, B.A.; Uhlén, M.; Montelione, G.T.; Nilsson, B. Biochemistry 1996, 35: 22 - 31.  The mechanism of binding staphylococcal protein A to immunoglobulin G does not involve helix unwinding. (pdf)
49. Jansson, M.; Li, Y.-C.; Jendeberg, L.; Anderson, S.; Montelione, G.T.; Nilsson, B. J. Biomol. NMR 1996, 7: 131 - 141. High level production of uniformly 15N- and 13C-enriched fusion proteins in Escherichia coli. (PubMed)
50. Bassolino-Klimas, D.; Tejero, R.; Krystek, S.R.; Metzler, W.J.; Montelione, G.T.; Bruccoleri, R.E.  Protein Science 1996, 5: 593 - 603. Simulated annealing with restrained molecular dynamics using a flexible restraint potential: Theory and evaluation with simulated NMR constraints. (pdf)
51. Tejero, R.; Bassolino-Klimas, D.; Bruccoleri, R.E.; Montelione, G.T.  Protein Science 1996, 5: 578 - 592. Application of simulated annealing with restrained molecular dynamics using CONGEN: Energy refinement of the NMR solution structures of epidermal and type-α transforming growth factors. (pdf)
52. Feng, W.; Ríos, C.B.; Montelione, G. T. J. Biomol. NMR. 1996, 8: 98 - 104. Phase labeling of C-H and C-C spin-system topologies: Applications in PFG-HACANH and PFG-HACA(CO)NH triple-resonance experiments for determining backbone resonance assignments in proteins. (PubMed)
53. Ríos, C.B.; Feng, W.; Tashiro, M.; Shang, Z.; Montelione, G.T. J. Biomol. NMR. 1996, 8: 345 - 350. Phase labeling of C-H and C-C spin sytem topologies: Application in constant-time PFG-CBCA(CO)NH experiments for discriminating amino-acid spin-system types. (PubMed)
54. Swapna, G.V.T.; Ríos, C.B.; Montelione, G. T. J. Biomol. NMR. 1997, 9: 105 - 111. Application of multiple-quantum line narrowing with simultaneous 1H and 13C constant-time scalar-coupling evolution in PFG-HACANH
    and PFG-HACA(CO)NH triple-resonance experiments. (pdf)
55. Li, H.; Tejero, R.; Monleon, D.; Bassolino-Klimas, D.; Abate-Shen, C.; Bruccoleri, R.E.; Montelione, G.T.  Protein Science 1997, 6: 956 - 970. Homology modeling using simulated annealing of restrained molecular dynamics and conformational search calculations with CONGEN: Application in predicting the three-dimensional structure of murine homeodomain Msx-1. (pdf)
56. Zimmerman, D.E.; Kulikowski, C.A.; Feng, W.; Tashiro, M.; Chien, C-Y.; Ríos, C.B.; Moy, F.J.; Powers, R.; Montelione G.T. J. Mol. Biol. 1997, 269: 592 - 610. Automated analysis of protein NMR assignments using methods from artificial intelligence. (pdf)
57. Shimotakahara, S.; Ríos, C.B.; Laity, J.H.; Zimmer,man, D.E.; Scheraga, H.A.; Montelione, G.T. Biochemistry. 1997, 36 : 6915 - 6929.  NMR structural analysis of an analog of an intermediate formed in the rate-determining step of one pathway in the oxidative folding of bovine pancreatic ribonuclease A: Automated analysis of 1H, 13C, and 15N resonance assignments for wild-type and [C65S, C72S] mutant forms. (pdf)
58. Laity, J.H.; Lester, C.; Shimotakahara, S.; Zimmerman, D.E.; Scheraga, H.A.; Montelione, G.T. Biochemistry 1997, 36: 12683 - 12699. Structural characterization of an analog of the major rate-determining disulfide folding intermediate of bovine pancreatic ribonuclease A. (pdf)
59. Shang, Z.; Swapna, G.V.T.; Ríos, C.B.; Montelione, G.T. J. Am. Chem. Soc. 1997, 119: 9274 - 9278. Sensitivity Enhancement of Triple-Resonance Protein NMR Spectra by Proton Evolution of Multiple-Quantum Coherences Using a Simultaneous ¹H and ¹³C Constant-Time Evolution Period. (pdf)
60. Tashiro, M.; Tejero, R.; Zimmerman, D.E.; Celda, B.; Nilsson, B.; Montelione, G.T. J. Mol. Biol. 1997, 272: 573 - 590. High resolution solution NMR structure of the Z domain of staphylococcal protein A. (pdf)
61. Chien, C.-Y.; Tejero, R.; Huang, Y.; Zimmerman, D.E.; Krug, R.M.; Montelione, G.T.  Nature Struct. Biol. 1997, 4: 891 - 895.  NMR solution structure of the N-terminal domain of non-structural protein 1 from influenza A virus: A novel RNA-binding motif. (pdf)
62. Liu, J.; Lynch, P.; Chien, C.-Y; Montelione, G.T.; Krug, R.M.; Berman, H. Nature Struct. Biol. 1997, 4: 895 - 899. Crystal structure of the N-terminal fragment of NS1 protein from influenza A virus: A multifunctional RNA-binding domain. (pdf)
63. Jin, D.; Figueirido, F.; Montelione, G.T.; Levy, R.M. J. Am. Chem. Soc. 1997, 119: 6923 - 6924. Impact of the precision in NMR relaxation measurements on the interpretation of protein dynamics. (pdf)
64. Sahasrabudhe, P. V.; Tejero, R.; Kitao, S.; Furuichi, Y.; Montelione, G. T. PROTEINS: Struct. Funct. Genetics 1998, 33: 558 - 566. Homology modeling of an RNP domain from a human RNA-binding protein: Homology-constrained energy optimization provides a criterion for distinguishing potential sequence alignments. (pdf)
65. Feng, W.; Tejero, R.; Zimmerman, D.E.; Inouye, M.; Montelione, G.T. Biochemistry 1998, 37: 10881 - 10896. Solution NMR structure and backbone dynamics of the major cold shock protein (CspA) from Escherichia coli Evidence for conformational dynamics in the proposed ssRNA-binding site. (pdf)
66. Greenfield, N. J.; Montelione, G. T.; Farid, R. S.; Hitchcock-DeGregori, S. E. Biochemistry 1998, 37: 7834 - 7843. The structure of the N-terminus of striated muscle alpha-tropomyosin in a chimeric peptide: Solution NMR structure and circular dichroism studies. (pdf)
67. Mullenbach, G. T.; Chiu, C. Y.; Gyenes, A.; Blaney, J.; Rosenberg, S.; Marlowe, C. K.; Brown, S.; Stratton-Thomas, J.; Montelione, G. T.; George-Nascimento, C.; and Stauber, G.  Protein Engineering 1998, 11: 473 - 480. Modification of a receptor-binding surface of epidermal growth factor (EGF): analogs with enhanced receptor affinity at low pH or at neutrality. (pdf)
68. Jin, D.; Andrec, M.; Montelione, G. T.; Levy, R. M. J. Biomol. NMR 1998, 12: 471 - 492.  Propagation of experimental uncertainties using the Lipari-Szabo model-free analysis of protein dynamics. (pdf)
69. Kulikowski, C.A.; Zimmerman, D.; Anderson, S.; Montelione, G.T.  Structural-functional bioinformatics: Knowledge-based NMR interpretations. In: Cesnik B, McCray AT, Scherrer J-R (eds) MEDINFO '98 - Proceedings of the Ninth World Congress on Medical Informatics. Amsterdam: IOS Press, 1998, 365-366.
70. Montelione, G. T. and Anderson, S.  Nature Struct. Biol. 1999, 6: 11 - 12. Structural genomics: Keystone for a Human Proteome Project. (pdf)
71. Wang, W.; Riedel, K.; Lynch, P.; Chien, C.-Y.; Montelione, G. T.; and Krug, R. M. RNA 1999, 5: 195 - 205. RNA-binding by the novel helical domain of the Influenza virus NS1 protein requires its dimer structure and a small number of specific basic amino acids. (pdf)
72. 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. (pdf)
73. Andrec, M.; Montelione, G. T.; Levy, R. M. J. Magn. Reson. 1999, 139: 408 - 421. Estimation of global dynamic parameters from NMR relaxation data using the Lipari-Szabo Model-free approach and bayesian statistical methods. (pdf)
74. Moseley, H. N. B. and Montelione, G. T.  Curr. Opin. Struct. Biol. 1999, 9: 635 - 642.  Automated analysis of NMR assignments and structures for proteins. (pdf)
75. Tejero, R.; Monleon, D.; Celda, B.; Montelione, G.T. J. Biomol. NMR 1999, 15: 251 - 264. 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. (pdf)
76. Laity, J. H.; Montelione, G. T.; Scheraga, H. A. Biochemistry 1999, 38: 16432 - 16442.  Comparison of local and global stability of an analog of a disulfide-folding intermediate with those of the wild-type protein in bovine pancreatic ribonuclease A: Identification of specific regions of stable structure along the oxidative folding pathway. (pdf)
77. Montelione, G.T.; Rios, C.B.; Swapna, G.V.T.; Zimmerman, D.E. in Berliner and N.R. Krishna, Eds. 1999, Biological Magnetic Resonance, v 17: Structural Computation and Dynamics in Protein NMR, pp. 81 - 130. NMR pulse sequences and computational approaches for automated analysis of sequence-specific backbone resonance assignments in proteins.
78. Xiong, Y.; Juminaga, D.; Swapna, G. V. T.; Wedemayer, W. J.; Scheraga, H. A.; Montelione, G. T.  Protein Science 2000, 9: 421-426. Solution NMR evidence for a cis Tyr-Ala peptide group in the structure of [Pro93Ala] bovine pancreatic ribonuclease A. (pdf)
79. McDermott, A.; Polenova, T.; Bockmann, A.; Zilm, Kurt W.; Montelione, G. T. J. Biomol. NMR 2000, 16: 209 - 219. Partial NMR resonance assignments of uniformly (13C,15N)-labeled BPTI in the solid state. (pdf)
80. Montelione, G.T. & Anderson, S.  The Investigational Drugs Database (IDdb) March 15, 2000.  Quantitative challenges in the post-genomic sequence era.
81. Andrec, M.; Inman, K. G.; Weber, D. J.; Levy, R. M.; Montelione, G. T.  J. Magn. Reson. 2000, 146: 66 - 80. A Bayesian statistical method for the detection and qualification of rotational diffusion anistropy from NMR relaxational data. (pdf)
82. Andrec, M.; Montelione, G.T.; and Levy, R.  J. Biomol. NMR 2000, 18: 83 - 100.  Lipari-Szabo mapping: A graphical approach to Lipari-Szabo analysis of NMR relaxation data using reduced spectral density mapping. (pdf)
83. Montelione, G.T.; Zheng, D.; Huang, Y.J.; Gunsalus, K.C; Szyperski, T.  Nature Struct. Biol. 2000, 7: 982 - 985. Protein NMR spectroscopy in structural genomics. (pdf)
84. Moseley, H.N.B.; Monleon, D.; Montelione, G.T. Meth. Enzymology 2001, 339: 91-108.  Automatic determination of protein backbone resonance assignments from triple-resonance NMR data. (PubMed)
85. Sahasrabudhe, P.V.; Xiao, R.; Montelione, G.T. J. Biomol. NMR  2001, 19: 285-286.  Resonance assignments for the N-terminal domain from human RNA-binding protein with multiple splicing (RBP-MS). (pdf)
86. Bertone, P.; Kluger, Y.; Zheng, D.; Edwards, A.M.; Arrowsmith, C.H.; Montelione, G.T.; Gerstein, M.  Nucleic Acids Res. 2001, 29: 2884-2898.  SPINE: An integrated tracking database and data mining approach for prioritizing feasible targets in high-throughput structural proteomics. (pdf)
87. Kulikowski, C.A.; Muchnik, I.; Yun, H.J.; Dayanik, A.A.; Zheng, D.; Song, Y.; and Montelione, G.T.  MedInfo 2001 - 10th World Congress on Health and Medicinal Informatics 2001, 965-969.  Protein structural domain parsing by consensus reasoning over multiple knowledge sources and methods.
88. Greenfield, N.J.; Huang, Y.; Palm, T.; Swapna, G.V.T.; Monleon, D.; Montelione, G.T.; Hitchcock-DeGregori, S.E. J. Mol. Biol.  2001, 312: 833-847.  Solution NMR structure and folding dynamics of the N-terminus of a rat non-muscle α-tropomyosin in an engineered chimeric protein. (pdf)
89. Das, K.; Xiao, R.; Wahlberg, E.; Hsu, F.; Arrowsmith, C.A.; Montelione, G.T.; Arnold, E.  PROTEINS: Struct. Func. Genetics 2001, 45: 486-488  X-ray crystal structure of MTH938 from Methanobacterium thermoautotrophicum at 2.2 Å resolution reveals a novel tertiary protein fold. (pdf)
90. Montelione, G.T.  Proc. Natl. Acad. Sci. USA 2001, 98: 13488-13489.  Structural genomics: An approach to the protein folding problem. (pdf)
91. Swapna, G.V.T.; Shukla, K.; Huang, Y.J.; Ke, H.; Xia, B.; Inouye, M.; Montelione, G.T.  J. Biomol. NMR  2001, 21: 389-390.  Resonance assignments for cold-shock protein ribosome-binding factor A (RbfA) for Escherichia coli. (pdf)
92. Cassetti, M.C.; Noah, D.L.; Montelione; G.T.; Krug, R.M.  Virology 2001, 25: 180-185.  Efficient translation of mRNAs in Influenza A virus-infected cells is independent of the viral 5í untranslated region. (pdf)
93. McFeeters, R.L.; Swapna, G.V.T.; Montelione, G.T.; Oswald, R.E.  J. Biomol. NMR  2002, 22: 297-298.  Semi-automated backbone resonance assignments of the extracellular ligand-binding domain of an ionotropic glutamate receptor. (pdf)
94. Chen, J.; Acton, T.B.; Basu, S.K.; Montelione, G.T.; Inouye, M.  J. Molec. Microbiol. Biotech.  2002, 4: 53-59.  Enhancement of the solubility of proteins overexpressed in Escherichia coli by heat shock. (link)
95. Monleón, D.; Colson, K.; Moseley, H.N.B.; Anklin, C.; Oswald, R.; Szyperski, T.; Montelione, G.T.  J. Struct. Funct. Genomics 2002, 2: 93 - 101.  High throughput analysis of protein assignments and secondary structure: Rapid data collection using triple resonance CryoProbesTM, parallel processing on LINUX-based processor architectures and automated analysis using AutoAssign software. (pdf)
96. Mueller, L.; Montelione, G.T.  J. Struct. Funct. Genomics 2002, 2: 67 - 70.  Structural genomics in pharmaceutical design (Meeting Review). (pdf)
97. Szyperski, T.; Yeh, D.C.; Sukumaran, D.K.; Moseley, H.N.B.; Montelione, G.T.  Proc. Natl. Acad. Sci. 2002, 99: 8009-8014.  Reduced-dimensionality NMR spectroscopy for high-throughput protein resonance assignment. (pdf)
98. Cort, J.R.; Chiang, Y.; Zheng, D.; Montelione, G.T.; Kennedy, M.A.  PROTEINS: Struct. Funct. Genetics 2002, 48, 733-736.  NMR structure of conserved eukaryotic protein ZK652.3 from C. elegans: A ubiquitin-like fold. (pdf)
99. Kennedy, M.A.; Montelione, G.T.; Arrowsmith, C.H.; Markley, J.L.  J. Struct. Funct. Genomics 2002, 2: 155-169.  Role for NMR in structural genomics. (pdf)
100. Baran, M.; Moseley, H.N.B.; Sahota, G.; Montelione, G.T.  J. Biomol. NMR 2002, 24: 113-121.  SPINS: Standardized ProteIn NMR Storage. A data dictionary and object-oriented relational database for archiving protein NMR spectra. (pdf)
101. Lan, N.; Montelione, G.T.; Gerstein, M.  Curr. Opin. Chem. Biol. 2003, 7: 44-54.  Ontologies for proteomics – Towards a systematic definition  of structure and function that scales to the genome level. (pdf)
102. Yuan, E.; Aramini, J.M.; Montelione, G.T.; Krug, R. M.  Virology 2002, 304: 291-301.  Structural Basis for Ubiquitin-like ISG 15 Protein Binding to the NS1 Protein of Influenza B Virus: A Protein–Protein Interaction Function That Is Not Shared by the Corresponding N-terminal Domain of the NS1 Protein of Influenza A Virus. (pdf)
103. Greenfield, N.J.; Swapna, G.V.T.; Huang, Y.; Palm, T.; Graboski, S.; Montelione, G.T.; Hitchcock-DeGregori, S.E.  Biochemistry 2003, 42: 614-619.  The structure of the carboxyl terminus of striated α-tropomysosin in solution reveals an unusual parallel arrangement of interacting α-helices. (pdf)
104. Huang, Y.P.; Swapna, G.V.T.; Rajan, P.K.; Ke, H.; Xia, B.; Shukla, K.; Inouye, M.; Montelione, G. T.  J. Molec. Biol. 2003, 327: 521-536.  Solution NMR structure of ribosome binding factor A (RbfA), A cold-shock adaptation protein from Escherichia coli. (pdf)
105. Gerstein, M.; Edwards, A.; Arrowsmith, C.; Montelione, G.T.  Science 2003, 299: 1663-1664.  Structural Genomics: Current progress. (pdf)
106. Zheng, D.; Huang, Y.J.; Moseley, H.N.B.; Xiao, R.; Aramini, J.; Swapna, G.V.T.; Montelione, G.T.  Protein Science  2003, 12: 1232-1246.  Automated protein fold determination using a minimal NMR constraint strategy. (pdf)
107. Zheng, D.; Cort, J.R.; Chiang, Y.; Acton, T.; Kennedy, M.A.; Montelione, G.T.  J. Biomol. NMR  2003, 27: 183-184.  1H, 13C and 15N resonance assignments for methionine sulfoxide reductase B from Bacillus subtilis. (pdf)
108. Goh, C.-S.; Lan, N.; Echols, N.; Douglas, S.; Milburn, D.; Bertone, P.; Xiao, R.; Ma, L.-C.; Zheng, D.; Wunderlich, Z.; Acton, T. ; Montelione, G.T.; Gerstein, M.  Nucleic Acids Res.  2003, 31: 2833-2838.  SPINE 2: A system for collaborative structural proteomics within a federated database framework. (pdf)
109. Bayro, M.J.; Mukhopadhyay, J.; Swapna, G.V.T.; Huang, J.Y.; Ma, L.-C.; Sineva, E.; Dawson, P.; Montelione, G.T.; Ebright, R.H.  J. Amer. Chem. Soc. 2003, 125: 12382-12383.  Structure of antibacterial peptide microcin J25: A 21-residue lariat protoknot. (pdf)
110. Forouhar, F.; Shen, J.; Xiao, R.; Acton, T.B.; Montelione, G.T.; Tong, L.  PROTEINS: Struct. Funct. Genetics 2003, 53: 329-332.  Functional assignment based on structural analysis: The yggJ protein (HI0303) of Haemophilus influenzae is an RNA methyltransferase with a deep trefoil knot. (pdf)
111. Li, W.; Zhang, Y.; Kihara, D.; Huang, Y.J.; Zheng, D.; Montelione, G.T.; Kolinski, A.; Skolnick, J.  PROTEINS: Struct. Funct. Genetics  2003, 53: 290-306.  TOUCHSTONEX: Protein structure prediction using sparse NMR data. (pdf)
112. Aramini, J.M.; Mills, J.L.; Xiao, R.; Acton, T.B.; Wu, M.J.; Szyperski, T. Montelione, G.T.  J. Biomol. NMR  2003, 27: 285-286.  Resonance assignments for the hypothetical protein yggU from Escherichia coli. (pdf)
113. Benach, J.; Lee, I.; Edstrom, W.C.; Kuzin, A.; Chiang, Y.; Acton, T.B.; Montelione, G.T.; Hunt, J.F.  J. Biol. Chem.  2003, 278: 19176-19182.  The 2.3 Å crystal structure of the shikimate 5-dehydrogenase orthologue YdiB from E. coli suggests a novel catalytic environment for an NAD-dependent dehydrogenase. (pdf)
114. Aramini, J.M.; Huang, Y.J.; Cort, J.R.; Goldsmith-Fischman, S.; Xiao, R.; Shih, L.-Y.; Ho, C.K.; Liu, J.; Rost, B.; Honig, B.; Kennedy, M.A.; Acton, T.B.; Montelione, G.T.  Protein Science 2003, 12: 2823-2830.  Solution NMR structure of the 30S ribosomal protein S28E from Pyrococcus horikoshii. (pdf)
115. Monleon, D.; Chiang, Y.; Aramini, J.M.; Swapna, G.V.T.; Macapagal, D.; Gunsalus, K.C.; Kim, S.; Szyperski, T; Montelione, G.T.  J. Biomol. NMR 2004, 28: 91-92.  Resonance assignments for the 21 kDa Caenorhabditis elegans protein CE32E8.3. (pdf)
116. Zheng, D.; Aramini, J.; Montelione, G.T.  Protein Science  2004, 13: 549-554.  Validation of helical tilt angles in the solution NMR structure of the Z domain of Staphylococcal protein A by combined analysis of residual dipolar and NOE data. (pdf)
117. Goh, C.-S.; Lan, N.; Douglas, S.; Wu, B.; Bertone, P.; Echols, N.; Milburn, D.; Montelione, G.T.; Zhao, H.; Gerstein, M.  J. Mol. Biol. 2004, 336: 115-130.  Mining the structural genomics pipeline: Identification and analysis of protein properties that affect high-throughput experimental analysis. (pdf)
118.  Chien, C.-Y.; Xu, Y.; Xiao, R.; Aramini, J.M.; Sahasrabudhe, P.V.; Krug, R.M.; Montelione, G.T.  Biochemistry 2004, 43: 1950-1962.  Biophysical characterization of the complex between double-stranded RNA and the N-terminal domain of the NS1 protein from Influenza A virus: Evidence for a novel RNA-binding mode. (pdf)
119. Moseley, H.N.B.; Sahota, G.; Montelione, G.T.  J. Biomol. NMR 2004, 28: 341-355.  Assignment validation software suite for the evaluation and presentation of protein resonance assignment data. (pdf)
120. Das, K.; Acton, T.B.; Chiang, Y.; Shih, L.; Arnold, E.; Montelione, G.T. Proc. Natl. Acad. Sci. U.S.A.  2004, 101: 4041-4046.  Crystal structure of E. coli RlmAI: Implications in understanding G745/G748-Methylation that confers resistance to macrolide antibiotics. (pdf)
121. Liu, G.; Sukumaran, D.K.; Xu, D.; Chiang, Y.; Acton, T.B. Goldsmith-Fischman, S.; Honig, B.; Montelione, G.T.; Szyperski, T.  PROTEINS: Struct. Funct. Genet.  2004, 55: 756-758.  NMR structure of the hypothetical protein NMA1147  from Neisseria meningitidis reveals a distinct 5-helix bundle. (pdf)
122. Herve Du Penhoat, C.; Atreya, H.S.; She,n Y.; Liu, G.; Acton, T.B.; Xiao, R.; Li, Z.; Murray, D.; Montelione, G.T.; Szyperski, T. Protein Sci. 2004, 13:1407-1416.  The NMR solution structure of the 30S ribosomal protein S27e encoded in gene RS27_ARCFU of Archaeoglobus fulgidis reveals a novel protein fold. (pdf)
123. Xu, D.; Liu, G.; Xiao, R.; Acton, T.; Goldsmith-Fischman, S.; Honig, B.; Montelione, G.T.; Szyperski, T.  PROTEINS: Struct. Funct. Genetics  2004, 54: 794-796.  NMR structure of the hypothetical protein AQ-1857 encoded by the Y157 gene from Aquifex aeolicus reveals a novel protein fold. (pdf)
124. Forouhar, F.; Lee, I-S.; Benach, J.; Xiao, R.; Acton, T.B.; Montelione, G.T.; Tong, L.  J. Biol. Chem.  2004, 279: 13148 - 13155.  A novel NAD binding mode revealed by the crystal structure of E. coli 2,3-diketogulonate reductase (YiaK). (pdf)
125. Makokha, M.; Huang, Y.J.; Montelione, G.T.; Edison, A.S.; Barbar, E.  Protein Science  2004, 13: 727-734.  The solution structure of monomeric dyein light chain LC8. (pdf)
126. Everett, J.K.; Acton, T.B.; Montelione, G.T.  J. Struct. Funct. Genomics  2004, 5: 1-2.  Primer Prim’r: A web based server for automated primer design. (pdf)
127. Adams, M.; Joachimiak, A.; Kim, R.; Montelione, G.T.; Norvell, J.  J. Struct. Funct. Genomics 2004, 5: 13-21.  2003 NIH protein structure initiative workshop in protein production and crystallization for structural and functional genomics. (pdf)
128. Wunderlich, Z.; Acton, T.B.; Liu, J.; Kornhaber, G.; Everett, J.; Carter, P.; Lan, N.; Echols, N.; Gerstein, M.; Rost, B.; Montelione, G.T.  PROTEINS: Struct. Funct. Bioinformatics  2004, 56: 181-187.  The protein target list of the Northeast Structural Genomics Consortium. (pdf)
129. Shen, Y.; Atreya, H.S.; Xiao, R.; Acton, T.B.; Shastry, R.; Ma, L.; Montelione, G.T.; Szyperski, T.  J. Biomol. NMR 2004, 29: 549-550.  Resonance assignments for the 18kDa protein CC1736 from Caulobacter crescentus. (pdf)
130. Liu, J.; Hegyi, H.; Acton, T.B.; Montelione, G.T.; Rost, B.   PROTEINS: Struct. Funct. Bioinformatics 2004, 56: 188-200.  Automatic target selection for structural genomics on eukaryotes. (pdf)
131. Qing, G; Ma, L.; Khorchid, A; Swapna, G. V. T. ;  Mal, T.K.; Takayama, M.M.; Xia, B.; Sangita Phadtare, S.; Ke, H.; Acton, T.; Montelione, G.T.; Ikura, M.; Inouye, M.  Nature Biotechnology 2004, 22:877-882. Cold-shock induced high-yield protein production in Escherichia coli.
132. Baran, M.C.; Huang, Y.J.; Moseley, H.N.; Montelione, G.T.  Chemical Reviews  2004, 104: 3451-3555.  Automated analysis of protein NMR assignments and structures. (pdf)
133. Moseley, H.N.B.; Riaz, N.; Aramini, J.M.; Montelione,  G.T.  J. Magn. Reson. 2004, 170: 263-277.  A generalized approach to automated NMR peak list editing: Application to reduced dimensionality triple resonance spectra. (pdf)
134. Powers. R.; Acton, T.B.; Chiang, Y.; Paranji, R.; Cort, J.R.; Kennedy, M.A.; Liu, J.; Ma, L.; Rost, B.; Montelione, G.T.  J. Biomol. NMR  2004, 1: 107-108.  ¹H, ¹³C, and ¹⁵N assignments for the Archaeglobus fulgidis protein AF2095. (pdf)
135. Ramelot, T.A.; Cort, J.R.; Goldsmith-Fischman, S.; Kornhaber, G.J.  Xiao, R.; Shastry, R.; Acton, T.B.; Honig, B.; Montelione, G.T.; Kennedy, M.A.  J. Mol. Biol.  2004, 344: 567-583.  Solution NMR structure of the iron-sulfur cluster assembly protein U (IscU) with zinc bound at the active site. (pdf)
136. Goldsmith-Fischman, S.; Kuzin, A.; Edstrom, W.C.; Benach, J.; Shastry, R.; Xiao, R.; Acton, T.B.; Honig, B.; Montelione, G.T.; Hunt, J.F. J. Mol. Biol.  2004, 344: 549-565.  The SufE sulfur-acceptor protein contains a conserved core structure that mediates interdomain interactions in a variety of redox protein complexes. (pdf)
137. Huang, Y.J.; Moseley, H.N.B.; Baran, M.C.; Arrowsmith, C.; Powers, R.; Tejero, R.; Szyperski, T.; Montelione, G.T. Meth. Enzymology 2005, 394: 111-141. An integrated platform for automated analysis of protein NMR structures. (link)
138. Acton, T.B.; Gunsalus, K.C.; Xiao, R.; Ma, L-C.; Aramini, J.M.; Baran, M.C.; Chiang, Y-W.; Climent, T.; Cooper, B.; Denissova, N.; Douglas, S.M; Everett, J.K.; Ho, C.K.; Macapagal, D.; Paranji, R.K.; Shastry, R.; Shih, L-Y.; Swapna, G.V.T.; Wilson, M.; Wu, M.; Gerstein, M.; Inouye, M.; Hunt, J.F.; Montelione, G.T. Meth. Enzymology 2005, 394:210-243. Robotic cloning and protein production platform of the Northeast Structural Genomics Consortium. (pdf)
139. Shen, Y.; Goldsmith-Fischman, S.; Atreya, H.S.; Acton, T.B.; Ma, L-C.; Xiao, R.; Honig, B.; Montelione, G.T.; Szyperski, T.  PROTEINS: Struct. Funct. Bioinformatics 2005, 58:747-750.  NMR structure of the 18 kDa protein CC1736 from Caulobacter crescentus identifies a member of the “START” domain superfamily and suggests residues mediating substrate specificity. (pdf)
140. Snyder, D.A.;  Montelione, G.T.  PROTEINS: Struct. Funct. Bioinformatics 2005, 59: 673-86.  Clustering algorithms for identifying core atom sets and for assessing the precision of protein structure ensembles. (pdf)
141. Huang, Y.J.; Powers, R.; Montelione, G.T. J. Amer. Chem. Soc. 2005, 127: 1665-74. Protein NMR Recall, Precision, and F-measure scores (RPF Scores): Structure quality assessment measures based on information retrieval statistics. (pdf)
142. Liu, G.; Li, Z.; Chiang, Y.; Acton, T.B.; Montelione, G.T.; Murray, D.; Szyperski, T.  Protein Science 2005, 14:1597–1608.  High-quality homology derived from NMR and X-ray structures of E. coli. proteins YgdK and SufE suggest that all members of the YgdK/SufE protein family are enhancers of cysteine desulfurases. (pdf)
143. Forouhar, F.; Yang, Y.; Kumar, D.; Chen, Y.; Fridman, E.; Park, S.W.; Chiang, Y.; Acton, T.B.; Montelione, G.T.; Pichersky, E.; Klessig, D.F.; Tong, L. Proc. Natl. Acad. Sci. U.S.A 2005, 102: 1773-1778. Structure and biochemical studies identify tobacco SABP2 as a methylsalicylate esterase and implications for plant innate immunity. (pdf)
144. Liu, G.; Shen, Y.; Atreya, H.S.; Parish, D.; Shao, Y.; Sukumaran, D.K.; Xiao, R.; Yee, A.; Acton, T.B.; Arrowsmith, C.H.; Montelione, G.T.; Szyperski, T.  Proc. Natl. Acad. Sci. USA  2005, 102: 10487-10492.  NMR data collection and analysis protocol for high-throughput protein structure determination. (pdf)
145. Douglas, S.M.; Montelione, G.T.; Gerstein, M.  Genome Biology 2005, 6:R80.  PubNet: A flexible system for visualizing literature-derived networks, with applications to large-scale scientific collaborations. (pdf)
146. Huang, Y-J.; Tejero, R.; Powers, R.; Montelione, G.T. PROTEINS: Struct. Funct. Bioinformatics 2005 (in press). AutoStructure: A topology-constrained distance network algorithm for protein structure determination from NOESY data.
147. Snyder, D.A.; Bhattacharya, A.; Huang, Y.J.; Montelione, G.T. PROTEINS: Struct. Funct. Bioinformatics 2005, 59:655-61. Assessing precision and accuracy of protein structures derived from NMR data. (pdf)
148. Snyder, D.A.; Chen, Y.; Denissova, N.G.; Acton, T.; Aramini, J.M.; Ciano, M.; Karlin, R.; Liu, J.; Manor, P.; Paranji, R.; Rossi, P.; Swapna, G.V.T.; Xiao, R.; Rost, B.; Hunt, J.; Montelione, G.T. J. Amer. Chem. Soc. 2005, 127:16505-16511. Comparisons of NMR Spectral Quality and Success in Crystallization Demonstrate that NMR and X-ray Crystallography Are Complementary Methods for Small Protein Structure Determination. (pdf)
149. Liu, G.; Shen, Y.; Xiao, R.; Acton, T.; Ma, L.; Joachimiak, A.; Montelione, G.T.; Szyperski, T. PROTEINS: Struct. Funct. Bioinformatics 2006 62:288–291 NMR structure of protein yqbG encoded by gene yqbG BASCU From Bacillus subtilis reveals a novel alpha-helical protein fold. (pdf)
150. Baran, M.; Moseley, H.N.B.; Aramini, J.M.; Bayro, M.J.; Monleon, D.; Lau, J.; Montelione, G.T. PROTEINS: Struct. Funct. Bioinformatics. 2005 (in press) SPINS: A laboratory information management system for organizing and archiving intermediate and final results from NMR protein structure determinations.
151. Benach, J.; Edstrom, W.C.; Lee, I.; Das, K.; Cooper, B.; Xiao, R.; Liu, J.; Rost, B.; Acton, T.B.; Montelione, G.T.; Hunt, J.F. Acta Cryst. D: Biol. Cryst. 2005, D61: 589-598. The 2.35 _ structure of the TenA homolog from Pyrococcus furiosus supportsan enzymatic function in thiamine metabolism.
152. Rossi, P; Ramelot, T.; Xiao, R.; Ho, C.K.; Ma, L.; Acton, T.B.; Kennedy, M.A.; Montelione, G.T. J. Biomol. NMR. 2005 33:197: 1H, 13C, 15N resonance assignments for the protein coded by gene locus BB0938 of Bordetella bronchiseptica. (pdf)
153. Aramini, J. M.; Swapna, G.V.T.; Huang, Y.J.; Paranji, R.K.; Xiao, R.; Shastry, R.; Acton, T.B.; Cort, J.R.; Kennedy, M.A.; Montelione, G.T. J. Biomol. NMR. 2005 33:197: 1H, 13C, 15N resonance assignments for Escherichia coli ytfP, a member of the broadly conserved UPF0131 protein domain family.
154. Liu, G.; Aramini, J.; Atreya, H.S.; Eletski, A.; Xiao, R.; Acton, T.B.; Ma, L-C.; Montelione, G.T., Szyperski, T. J. Biomol. NMR 2005 32: 261. Letter to the Editor: GFT NMR based resonance assignment for the 21 kDa human protein CGI-126 (HSPC155). (pdf)
155. Forouhar. F.; Hussain, M.; Farid, R.; Abashidze, M.; Edstrom, W.C.; Vorobiev, S.M.; Xiao, R.; Acton, T.B.; Miziorko, H.M.; Montelione, G.T.; Hunt, J.F. J. Biol. Chem. 2005 (in press) Crystal structures of two bacterial HMG-COA lysases suggest a common catalytic mechanism among a family of TIM-barrel metalloenzymes cleaving carbon-carbon bonds. (pdf)
156. Forouhar, F.; Lee, I.; Vujcic, J.; Vujcic, S.; Shen, J.; Vorobiev, S.M.; Xiao, R.; Acton, T.B.; Montelione, G.T.; Porter, C.W.; Tong, L. J. Biol. Chem. 2005 14: 2849-2861. Structural and functional evidence for Bacillus subtilis PaiA as a novel N1-spermidine/spermine acetyltransferase (SSAT). (pdf)
157. Bachhawat, P.; Swapna, G.V.T.; Montelione, G.T.; Stock, A.M. Structure. 2005, 13: 1-11. Mechanism of activation for transcription factor PhoB suggested by different modes of dimerization in the inactive and active states. (pdf)
158. Powers, R.; Mirkovic, N.; Goldsmith-Fischman, S.; Acton, T.B.; Chiang, Y.; Huang, Y.J.; Ma, L.; Rajan, R.K.; Cort, J.R.; Kennedy, M.A.; Liu, J.; Rost, B.; Honig, B.; Murray, D.; Montelione, G.T. Protein Science 2005; 14: 1597 - 1608 . Solution structure of Archaeglobus fulgidis peptidyl-tRNA hydrolase (Pth2) provides evidence for an extensive conserved family of Pth2 enzymes in archea, bacteria and eukaryotes. (pdf)
159. Kornhaber, G.J.; Snyder, D.; Moseley, H.N.B.; Montelione, G.T. J. Biomol. NMR. 2005 (submitted). Identification of zinc-ligated cysteine residues based on 13 Ca and 13Cb chemical shift data.
160. Huang, Y.J.; Montelione, G.T. Nature. 2005, 438: 36-37. Proteins flex to function. (pdf)

---

12/15/05

CABM, Rutgers University