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Publication List

(* - most significant papers)

  1. Use of C-13 NMR spectral editing techniques as a possible procedure to follow the fate of deuterium atoms in mechanistic and biosynthetic studies. Doddrell DM, Staunton J, Laue ED, Journal of the Chemical Society – Chemical Communications [1983, (11): 602-605]
  2. Multipulse techniques to edit C-13 NMR-spectra of deuterated compounds – useful methods to follow deuterium in biosynthesis. Doddrell DM, Staunton J, Laue ED, Journal of Magnetic Resonance [1983, 52(3): 523-528]
  3. Biosynthesis of the polyketide mullein from CD3CO2H and (CD3CO2H)-C-13 in aspergillus-melleus – detection of deuterium by H-2 NMR and edited C-13 NMR-spectra. Abell C, Doddrell DM, Garson MJ, Laue ED, Staunton J, Journal of the Chemical Society – Chemical Communications [1983, (12): 694-696]
  4. *Maximum entropy signal–processing in practical NMR–spectroscopy. Sibisi S, Skilling J, Brereton RG, Laue ED, Staunton J, Nature [1984, 311(5985): 446-447]
  5. Biosynthesis of the polyether antibiotic ICL139603 in streptomyces-longisporoflavus investigation of deuterium retention after incorporation of (CD3CO2H)-C-13, (CD3CO2H)-CD-13, and (CH3CD2CO2H)-C-13 using H-2 NMR and edited C-13 NMR-spectra. Doddrell DM, Laue ED, Leeper FJ, Staunton J, Davies A, Davies AB, Ritchie GA, Journal of the Chemical Society – Chemical Communications [1984, (19): 1302-1304]
  6. Biosynthesis of the polyketide antibiotic ICL 139603 in streptomyces-longisporoflavus-assignment of the C13 NMR-spectrum by two-dimensional methods, and determination of the origin of the carbon-atoms. Bulsing JM, Laue ED, Leeper FJ, Staunton J, Davies DH, Ritchie GAF, Davies A, Davies AB, Mabelis RP, Journal of the Chemical Society –Chemical Communications [1984, (19): 1301-1302]
  7. *Maximum-entropy method in nuclear magnetic resonance spectroscopy. Laue ED, Skilling J, Staunton J, Sibisi S, Brereton RG, Journal of Magnetic Resonance [1985, 62(3): 437-452]
  8. Maximum-entropy reconstruction of spectra containing antiphase peaks. Laue ED, Skilling J, Staunton J, Journal of Magnetic Resonance [1985, 63(2): 418-424]
  9. The biosynthesis of the polyketide metabolite palitantin from deuterium and oxygen labelled acetates in penicillium-brefeldianum. Demetriadou AK, Laue ED, Staunton J, Journal of the Chemical Society – Chemical Communications [1985, (16): 1125-1127]
  10. A study of the biosynthesis of the polyketide polivione in penicillium-frequentans, using C-13-labelled, H-2-labelled and O-18-labelled precursors. Demetriadou AK, Laue ED, Staunton J, Journal of the Chemical Society – Chemical Communications [1985, (12): 764-766]
  11. The structure of polivione, a polyketide co-metabolite of citromycetin in penicillium-frequentans. Demetriadou AK, Laue ED, Leeper FJ, Staunton J, Journal of the Chemical Society – Chemical Communications [1985, (12): 762-764]
  12. Biosynthesis of the polyketide polyether antibiotic ICI-139603 in streptomyces-longisporoflavus from O-18-labelled acetate and propionate. Demetriadou AK, Laue ED, Staunton J, Ritchie GAF, Davies A, Davies AB, Journal of the Chemical Society – Chemical Communications [1985, (7): 408-410]
  13. NMR-Spectroscopy studies of the flexible linkages between lipoyl domains in the pyruvate-dehydrogenase multienzyme complex from Escherichia-Coli. Radford SE, Laue ED, Perham RN, Biochemical Society Transactions [1986, 14(6): 1231-1232]
  14. *Reconstruction of phase-sensitive two-dimensional NMR-spectra using maximum-entropy. Barna JCJ, Laue ED, Mayger MR, Skilling J, Worrall SJP, Biochemical Society Transactions [1986, 14(6): 1262-1263]
  15. Use of the maximum-entropy method to correct for acoustic ringing and pulse breakthrough in O-17 NMR-spectra. Laue ED, Pollard KOB, Skilling J, Staunton J, Sutkowski AC, Journal of Magnetic Resonance [1987, 72(3): 493-501]
  16. Conventional and exponential sampling for 2D NMR experiments with application to a 2D NMR-spectrum of a protein. Barna JCJ, Laue ED, Journal of Magnetic Resonance [1987, 75(2): 384-389]
  17. *Exponential sampling, an alternative method for sampling in two-dimensional NMR experiments. Barna JCJ, Laue ED, Mayger MR, Skilling J, Worrall SJP, Journal of Magnetic Resonance, [1987, 73(1): 69-77]
  18. Segmental structure and protein domains in the pyruvate dehydrogenase multienzyme complex of Escherichia coli. Genetic reconstruction in vitro and 1H-n.m.r. spectroscopy. Radford SE, Laue ED, Perham RN, Miles JS, Guest JR, Biochemical Journal [1987, 247(3):641-9]
  19. Biosynthesis of palatantin, a polyketide metabolite of penicillium brefeldianum-C-13 NMR assignment and incorporation of C-13-labelled, H-2-labelled and O-18(2)-labelled acetates. Demetriadou AK, Laue ED, Staunton J, Journal of the Chemical Society – Perkin Transactions [1988, 1(4): 773-778]
  20. A study of biosynthesis of the polyketide polivione in penicillium-frequentans using C-13-labelled, H-2-labelled and O-18-labelled precursors. Demetriadou AK, Laue ED, Staunton J, Journal of the Chemical Society-Perkin Transactions [1988, 1(4): 769-772]
  21. Isolation and structure elucidation of polivione, a polyketide co-metabolite of citromycetin in penicillium-frequentans. Demetriadou AK, Laue ED, Leeper FJ, Staunton J, Journal of the Chemical Society – Perkin Transactions [1988, 1(4): 763-768]
  22. Use of clean in conjunction with selective data sampling for 2D NMR experiments. Barna JCJ, Tan SM, Laue ED, Journal of Magnetic Resonance [1988, 78(2): 327-332]
  23. Site-directed mutagenesis and 1H NMR spectroscopy of an interdomain segment in the pyruvate dehydrogenase multienzyme complex of Escherichia coli. Texter FL, Radford SE, Laue ED, Perham RN, Miles JS, Guest JR, Biochemistry [1988, 27(1):289-96]
  24. Conformational flexibility and folding of synthetic peptides representing an interdomain segment of polypeptide chain in the pyruvate dehydrogenase multienzyme complex of Escherichia coli. Radford SE, Laue ED, Perham RN, Martin SR, Appella E, Journal of Biological Chemistry [1989, 264(2):767-75]
  25. Structural studies on the transcriptional activator GAL4. Povey JF, Diakun GP, Laue ED, Journal of Cellular Biochemistry Supplement [1990, 14 Part B: 136]
  26. Metal ion co-ordination in the DNA binding domain of the yeast transcriptional activator GAL4. Povey JF, Diakun GP, Garner CD, Wilson SP, Laue ED, FEBS Letters [1990, 266(1-2):142-6]
  27. Complete assignment of the 1H NMR spectrum and secondary structure of the DNA binding domain of GAL4. Gadhavi PL, Raine AR, Alefounder PR, Laue ED, FEBS Letters [1990, 276(1-2):49-53]
  28. Determination of the tertiary structure of a lipoyl domain from the Escherichia-Coli pyruvate dehydragenase multienzyme complex. Green JDF, Laue ED, Perham RN Journal of Cellular Biochemistry Supplement [1991, 15 Part G: 95]
  29. *Absorption-mode 2-dimensional NMR-spectra recorded using pulsed field gradients. Davis AL, Laue ED, Keeler J, Moskau D, Lohman J, Journal of Magnetic Resonance [1991, 94 (3): 637-644]
  30. NMR data-processing and structure calculations using parallel computers. Boucher W, Raine ARC, Laue ED, Computational aspects of the study of biological macromolecules by nuclear magnetic resonance spectroscopy, Nata advanced research workshop on computational aspects of the study of biological macromolecules by nuclear magnetic resonance spectroscopy in Ciocco, Italy [1991, 22587-103]
  31. Polypeptide-metal cluster connectivities in Cd(II) GAL4. Gadhavi PL, Davis AL, Povey JF, Keeler J, Laue ED, FEBS Letters [1991, 281(1-2):223-6]
  32. Sequence-specific 1H-NMR assignments and secondary structure of the lipoyl domain of the Bacillus stearothermophilus pyruvate dehydrogenase multienzyme complex. Dardel F, Laue ED, Perham RN., European Journal of Biochemistry [1991 201(1):203-9]
  33. *Experiments for recording pure-absorption heteronuclear correlation spectra using pulsed field gradients. Davis AL, Keeler J, Laue ED, Moskau D, Journal of Magnetic Resonance [1992, 98(1): 207-216]
  34. *Four-dimensional heteronuclear triple resonance NMR methods for the assignment of backbone nuclei in proteins. Boucher W, Laue ED, Campbell-Burk SL, Domaille PJ, Journal of the American Chemical Society [1992, 114(6): 2262-2264]
  35. The lipoyl domain and its role in thiamin diphosphate-dependent oxidative decarboxylation. Perham RN, Borges A, Dardel F, Graham LD, Hawkins CF, Laue ED, Packman LC, Journal of Nutritional Science and Vitaminology [1992, 457-60]
  36. *Structure of the DNA-binding domain of zinc GAL4. Kraulis PJ, Raine AR, Gadhavi PL, Laue ED, Nature [1992, 356(6368):448-50]
  37. Improved 4D-NMR experiments for the assignment of backbone nuclei in C-13/N-15 labelled proteins. Boucher W, Laue ED, Campbell-Burk SL, Domaille PJ, Journal of Biomolecular NMR [1992, 2(6): 631-637]
  38. Sequential assignment of the backbone nuclei (1H, 15N, 13C) of c-H-ras p21.GDP (1-166) using a novel 4D NMR strategy. Campbell-Burk SL, Domaille PJ, Starovasnick MA, Boucher W, Laue ED, Journal of Biomolecular NMR [1992, 2, 639-646]
  39. The use of heteronuclear cross polarization to enhance the sensitivity of triple-resonance NMR experiments – Improved 4D HCNNH pulse sequences. Richardson JM, Clowes RT, Boucher W, Domaille PJ, Hardman CH, Keeler J, Laue ED, Journal of Magnetic Resonance [1993, Series B 101(2): 223-227]
  40. Improvement of Z filters and purging pulses by the use of zero-quantum dephasing in inhomogeneous B1 or B0 fields. Davis AL, Estcourt G, Keeler J, Laue ED, Titman JJ, Journal of Magnetic Resonance Series [1993, Series A105(2): 167-183]
  41. A 4D HCC(CO)NNH experiment for the correlation of aliphatic side-chain and backbone resonances in C-13/N-15 labelled proteins. Clowes RT, Boucher W, Hardman CH, Domaille PJ, Laue ED, Journal of Biomolecular NMR [1993, 3(3): 349-354]
  42. *The three-dimensional structure of the lipoyl domain from Bacillus steathermophilus pyruvate dehydrogenase multienzyme complex. Dardel F, Davis AL, Laue ED, Perham RN, Journal of Molecular Biology [1993, 229, 1037-1048]
  43. *Structure of the HMG-box motif in the B-domain of HMG1. Weir HM, Kraulis PJ, Hill CS, Raine ARC, Laue ED, Thomas JO, The EMBO Journal [1993, 12, 1311-1319]
  44. NMR-Studies of RAS P21 and HIV Protease. Campbell-Burk S, Deloskey R, Vanaken T, Domaille P, Weber P, Hillman M, Yates R, Laue E, Journal of Cellular Biochemistry [1993, Suppl. 17C: 203-203]
  45. *Minimizing sensitivity losses in gradient selected N-15 H1 HSQC spectra of proteins. Stonehouse J, Shaw GL, Keeler J, Laue ED, Journal of Magnetic Resonance [1994, Series A 107(2): 178-184]
  46. The sensitivity of experiments which use gradient pulses for coherence-pathway selection. Kontaxis G, Stonehouse J, Laue ED, Keeler J, Journal of Magnetic Resonance [1994, Series A 111(1): 70-76]
  47. Pulsed Field Gradients: Theory and Practice. Keeler J, Clowes RT, Davis AL, Laue ED, Methods in Enzymology [1994, 239, 145]
  48. *Solution structure and dynamics of ras p21.GDP determined by heteronuclear three- and four-dimensional NMR spectroscopy. Kraulis PJ, Domaille PJ, Campbell-Burk SL,Van Aken T, Laue ED, Biochemistry [1994, 33, 3515-3531]
  49. Spectroscopic evidence for the flexibility of PsaD in solution. Xia Z, Broadhurst RW, Laue ED, Bryant DA, Goldbeck JH, Bendall DS, Photosynthesis: From Light to Biosphere, Xth International Photosynthesis Congress in Montpellier [1995, Vol. II741-744]
  50. Minimization Of Sensitivity Losses Due To The Use Of Gradient Pulses In Triple-Resonance NMR Of Proteins. Stonehouse J, Clowes RT, Shaw GL, Keeler J, Laue ED, Journal of Biomolecular NMR [1995, 5, 226-232]
  51. Zinc coordination in the DNA-binding domain of the yeast transcriptional activator PPR1. Ball LJ, Diakun GP, Gadhavi PL, Young NA, Armstrong EM, Garner CD, Laue ED, FEBS Letters [1995, 358, 278-282]
  52. Improved methods for structural studies of proteins using nuclear magnetic resonance spectroscopy. Clowes RT, Crawford A, Raine ARC, Smith BO, Laue ED, Current Opinion in Biotechnology [1995, 6, 81-88]
  53. Three-dimensional structure of a lipoyl domain from the dihydrolipoyl acetyltransferase component of the pyruvate dehydrogenase multienzyme complex of Escherichia coli. Green JDF, Laue ED, Perham RN, Journal of Molecular Biology [1995, 248, 328-343]
  54. Two mutations in the HMG-box with very different structural consequences provide insights into the nature of binding to 4-way junction DNA. Teo SH, Grasser KD, Hardman CH, Broadhurst RW, Laue ED, Thomas JO, The EMBO Journal [1995, 14, 3844-3853]
  55. Structure of the A domain of HMG1 and its interaction with DNA as studied by heteronuclear three and four dimensional NMR spectroscopy. Hardman CH, Broadhurst RW, Raine ARC, Grasser KD, Thomas JO, Laue ED, Biochemistry, [1995, 34, 16596-16607]
  56. Improved methods for structural studies of proteins using NMR spectroscopy. Clowes RT, Crawford A, Raine ARC, Smith BO, Laue ED, Current Opinion in Biotechnology [1995, 6, 81-88]
  57. *Backbone dynamics of the A domain of HMG1 as studied by 15N NMR spectroscopy. Broadhurst RW, Hardman CH, Thomas JO, Laue ED, Biochemistry [1995, 34, 16608-16617]
  58. *An approach to the structure determination of larger proteins using triple resonance NMR experiments in conjunction with random fractional deuteration. Nietlispach D, Clowes RT, Broadhurst RW, Keeler J, Kelly M, Ashurst J, Oschkinat H, Domaille PJ, Laue ED, Journal of the American Chemical Society [1996, 118, 407-415]
  59. *An approach to global fold determination using limited NMR data from larger proteins selectively protonated at specific residue types. Smith BO, Ito Y, Raine ARC, Teichmann S, Ben-Tovim L, Nietlispach D, Broadhurst RW, Terada T, Kelly M, Oschkinat H, Shibata T, Yokoyama S, Laue ED, Journal of Biomolecular NMR [1996, 8, 360-368]
  60. New NMR methods for structural studies of proteins to aid in drug design. Archer, S.J., Domaille, P.J., Laue, E.D., Annual Reports in Medicinal Chemistry [1996, 31, 299-307]
  61. *Structure of the Chromatin-Binding (Chromo) Domain from Mouse Modifier Protein 1. Ball LJ, Murzina NV, Broadhurst RW, Raine ARC, Archer SJ, Stott FJ, Murzin AG, Singh PB, Domaille PJ, Laue ED, The EMBO Journal [1997, 16, 2473-2481]
  62. *Regional polysterism in the GTP-bound form of the human c-Ha-Ras protein. Ito Y, Yamasaki K, Iwahara J, Terada T, Kamiya A, Shirouzu M, Muto Y, Kawai G, Yokoyama S, Laue ED, Walchli M, Shibata T, Nishimura S, Miyazawa T, Biochemistry [1997, 36, 9109-9119]
  63. *Structure of the Cyclin Dependent Kinase Inhibitor p19INK4d. Luh FY, Archer SJ, Domaille PJ, Smith BO, Owen D, Brotherton DH, Raine ARC, Xu X, Brizuela L, Brenner SL, Laue ED, Nature [1997, 389, 999-1003]
  64. Crystal structure of a small G protein in complex with the GTPase-activating protein rhoGAP. Rittinger K, Walker PA, Eccleston JF, Nurmahomed K, Owen D, Laue E, Gamblin SJ, Smerdon SJ, Nature [1997, 388 (6643):693-697]
  65. *Structure of the complex of the cyclin D-dependent kinase Cdk6 bound to the cell cycle inhibitor p19INK4d. Brotherton DH, Dhanaraj V, Wick S, Brizuela L, Domaille PJ, Volyanik E, Xu X, Parisini E, Smith BO, Archer SJ, Serrano M, Brenner SL, Blundell TL, Laue ED, Nature [1998, 395: 244-250]
  66. Dual amino acid-selective and site-directed stable-isotope labelling of the human c-Ha-Ras protein by cell-free synthesis. Yabuki T, Kigawa T, Dohmae N, Takio K, Terada T, Ito Y, Laue ED, Cooper JA, Kainosho M, Yokoyama S, Journal of Biomolecular NMR [1998, 11, 295-306]
  67. Structure and properties in solution of PsaD, an extrinsic polypeptide of photosystem I. Xia ZC, Broadhurst RW, Laue ED, Bryant DA, Golbeck JH, Bendall DS, European Journal of Biochemistry [1998, 225, 309-316]
  68. *Heterochromatin dynamics in mouse cells: Interaction between chromatin assembly factor 1 and HP1 proteins. Murzina N, Verreault A, Laue ED, Stillman B, Molecular Cell [1999, 4: 529-540]
  69. Nuclear magnetic resonance and molecular dynamics studies of the interaction of the Ras-binding domain of Raf-1 with wild-type and mutant Ras proteins. Terada T, Ito Y, Shirouzu M, Tateno M, Hashimoto K, Kigawa T, Ebisuzaki T, Takio K, Shibata T, Yokoyama S, Smith BO, Laue ED, Cooper JA, Journal of Molecular Biology [1999, 286, 219-232]
  70. *Structure of the small G protein Cdc42 bound to the GTPase-binding domain of ACK. Mott HR, Owen DO, Nietlispach D, Lowe PN, Manser E, Lim L, Laue ED, Nature [1999, 399(6734), 384-388]
  71. Residues in Cdc42 which specify binding to individual CRIB effector proteins. Owen DO, Mott HR, Laue ED, Lowe PN, Biochemistry [2000, 39(6), 1243-1250]
  72. *The structure of mouse HP1 suggests a unique mode of single peptide recognition by the shadow chromo domain dimer. Brasher SV, Smith BO, Fogh RH, Nietlispach D, Thiru A, Nielsen PR, Broadhurst RW, Ball LJ, Murzina NV, Laue ED, The EMBO Journal [2000, 19(7), 1587-1597]
  73. Structure of Cdc42 bound to the GTPase-binding domain of PAK. Morreale A, Venkatesan M, Mott HR, Owen D, Nietlispach D, Lowe PN, Laue ED, Nature Structural Biology [2000, 7(5), 384-388]
  74. New approaches to studying macromolecular structure and function. Brunger AT, Laue ED, Current Opinion in Structural Biology [2000, 10(5):557]
  75. *Structure of the HP1 chromodomain bound to histone H3 methylated at lysine 9. Nielsen PR, Nietlispach D, Mott HR, Callaghan J, Bannister A, Kouzarides T, Murzin AG, Murzina NV, Laue ED, Nature [2002, 416(6876)]
  76. The CCPN project: an interim report on a data model for the NMR community. Fogh R, Ionides J, Ulrich E, Boucher W, Vranken W, Linge JP, Habeck M, Rieping W, Bhat TN, Westbrook J, Henrick K, Gilliland G, Berman H, Thornton J, Nilges M, Markley J, Laue ED, Nature Structural Biology [2002, 9, 416 – 418]
  77. *A novel approach for the sequential backbone assignment of larger proteins: Selective intra-HNCA and DQ-HNCA. Nietlispach D, Ito Y, Laue ED, Journal of the American Chemical Society [2002, 124(37):11199-207]
  78. A novel method for the biosynthesis of deuterated proteins with selective protonation at the aromatic rings of Phe, Tyr and Trp. Rajesh S, Nietlispach D, Nakayama H, Takio K, Laue ED, Shibata T, Ito Y, Journal of Biomolecular NMR [2003, 27(1):81-6]
  79. Structure determination of protein complexes by NMR. Nietlispach D, Mott HR, Stott KM, Nielsen PR, Thiru A, Laue ED, Methods in Molecular Biology [2004, 278:255-88]
  80. Expression, purification and biophysical studies of chromo domain proteins. Nielsen PR, Callaghan J, Murzin AG, Murzina NV, Laue ED, Methods in Enzymology [2004, 376:148-70]
  81. *Structural basis of HP1/PXVXL motif peptide interactions and HP1 localisation to heterochromatin. Thiru A, Nietlispach D, Mott HR, Okuwaki M, Lyon D, Nielsen PR, Hirshberg M, Verreault A, Murzina NV, Laue ED, The EMBO Journal [2004, 23(3):489-99]
  82. Biochemical and structural studies of the interaction of Cdc37 and Hsp90. Zhang W, Hirshberg M, McLaughlin S, Lazar GA, Grossmann GJ, Nielsen PR, Sobott F, Robinson CV, Jackson SE, Laue ED, Journal of Molecular Biology [2004, 340(4):891-907]
  83. *A framework for scientific data modelling and automated software development. Fogh RH, Boucher W, Vranken WF, Pajon A, Stevens TJ, Bhat TN, Westbrook J, Laue ED, et al., Bioinformatics [2005, 21(8):1678-84]
  84. *The CCPN data model for NMR spectroscopy: Development of a software pipeline. Vranken WF, Boucher W, Stevens TJ, Fogh RH, Pajon A, Llinas P, Ulrich EL, Markley JL, Ionides J, Laue ED, Proteins – Structure, Function and Bioinformatics [2005, 59(4): 687-96]
  85. Structure of the chromo barrel domain from the MOF acetyltransferase. Nielsen PR, Nietlispach D, Buscaino A, Warner RJ, Akhtar A, Murzin AG, Murzina NV, Laue ED, The Journal of Biological Chemistry [2005, 280(37): 32326-31]
  86. Specificity determinants on Cdc42 for binding its effector protein ACK. Elliot-Smith AE, Mott HR, Lowe PN, Laue ED, Owen D, Biochemistry [2005, 44(37): 12373-83]
  87. Design of a data model for developing laboratory information management and analysis systems for protein production. Pajon A, Ionides J, Diprose J, Fillon J, Fogh R, Ashton AW, Berman H, Boucher W, Cygler M, Deleury E, Esnouf R, Janin J, Kim R, Krimm I, Lawson CL, Oeuillet E, Poupon A, Raymond S, Stevens T, van Tilbeurgh H, Westbrook J, Wood P, Ulrich E, Vranken W, Li XL, Laue E, Stuart DI, Henrick K, Proteins-Structure Function and Bioinformatics [2005, 58(2): 278-284]
  88. The co-chaperone p23 arrests the Hsp90 ATPase cycle to trap client proteins. McLaughlin SH, Sobott F, Yao ZP, Zhang W, Nielsen PR, Grossman JG, Laue ED, Journal of Molecular Biology [2006, 356(3):746-58]
  89. The crystal structure of the BAR domain from human Bin1/amphiphysin II and its implications for molecular recognition. Casal E, Federici L, Zhang W, Fernandez-Recio J, Priego EM, Miguel RN, DuHadaway JB, Prendergast GC, Luisi BF, Laue ED, Biochemistry [2006, 45(43):12917-12928]
  90. A nomenclature and data model to describe NMR experiments. Fogh RH, Vranken WF, Boucher W, Stevens TJ, Laue ED, Journal of Biomolecular NMR [2006, 36(3): 147-155]
  91. Molecular analysis of core kinetochore composition and assembly in Drosophila melanogaster. Przewloka MR, Zhang W, Costa P, Archambault V, D’Avino PP, Lilley KS, Laue ED et al., PloS One [2007, 2(5):e478]
  92. Genome-wide studies of histone demethylation catalysed by the fission yeast homologues of mammalian LSD1. Opel M, Lando D, Bonilla C, Trewick SC, Boukaba A, Walfridsson J, Cauwood J, Werler PJH, Carr AM, Kouzarides T, Murzina NV, Allshire RC, Ekwall K, Laue ED, PloS One [2007, 2(4):e386]
  93. Multiple protein phosphatases are required for mitosis in Drosophila. Chen F, Archambault V, Kar A, Lio P, D’Avino PP, Sinka R, Lilley K, Laue ED, Deak P, Capalbo L, Glover DM, Current Biology [2007, 17(4):293-303]
  94. Investigation of biotin-streptavidin binding interactions using microcantilever sensors. Shu W, Laue ED, Seshia AA, Biosensors and Bioelectronics [2007, 22(9-10):2003-2009]
  95. Folding mechanism of an ankyrin repeat protein:scaffold and active site formation of human CDK inhibitor p19(INK4d). Löw C, Weininger U, Zeeb M, Zhang W, Laue ED, Schmid FX, Balbach J, Journal of Molecular Biology [2007, 373(1):219-231]
  96. Conformational Dynamics of the molecular chaperone Hsp90 in complexes with a co-chaperone and anticancer drugs. Phillips JJ, Yao ZP, Zhang W, McLaughlin S, Laue ED, Robinson CV, Jackson SE, Journal of Molecular Biology [2007, 372(5):1189-1203]
  97. Recruitment of Polo Kinase to the Spindle Midzone during Cytokinesis Requires the Feo/Klp3A Complex. D’Avino PP, Archambault V, Przewloka MR, Zhang W, Lilley KS, Laue E, Glover DM, Plos One [2007, 2(6): Art No. e572]
  98. *Structural basis for the recognition of histone H4 by the histone-chaperone RbAp46. Murzina NV, Pei XY, Zhang W, Sparkes M, Vicente-Garcia J, Pratap JV, McLaughlin SH, Ben-Shahar TR, Verreault A, Luisi BF, Laue ED, Structure [2008, 16(7) 1077-1085]
  99. Interaction between Anillin and RacGAP50C connects the actomyosin contractile ring with spindle microtubules at the cell division site. D’Avino PP, Takeda T, Capalbo L, Zhang W, Lilley KS, Laue ED, Glover DM, Journal of Cell Science [2008, 121 (Pt 8):1151-8]
  100. The SCF/Slimb Ubiquitin Ligase Limits Centrosome Amplification through Degradation of SAK/PLK4. Cunha-Ferreira I, Rodrigues-Martins A, Bento I, Riparbelli M, Zhang W, Laue E, Callaini G, Glover DM, Bettencourt-Dias M, Current Biology [2009, 19(1): 43-49]
  101. Isolation of protein complexes involved in mitosis and Cytokinesis from Drosophila cultured cells. D’Avino PP, Archambault V, Przewloka MR, Zhang W, Laue ED, Glover DM, Methods in Molecular Biology [2009, 545:99-112]
  102. MEMOPS: Data modelling and automatic code generation. Fogh RH, Boucher W, Ionides JM, Vranken WF, Stevens TJ, Laue ED, Journal of Integrative Bioinformatics [2010, 7(3)]
  103. Nessun Dorma, a novel centralspindlin partner, is required for cytokinesis in Drosophila spermatocytes. Montembault E, Zhang W, Przewloka MR, Archambault V, Sevin EW, Laue ED, Glover DM, D'Avino PP, Journal of Cell Biology [2010, 191(7):1351-65]
  104. *Insights into Association of the NuRD Complex with FOG-1 from the Crystal Structure of an RbAp48 FOG-1 Complex. Lejon S, Thong SY, Murphy A, AlQarni S, Murzina NV, Blobel GA, Laue ED, Mackay JD, Journal of Biological Chemistry [2011, 286(2):1196-203]
  105. A software framework for analysing solid-state MAS NMR data. Stevens TJ, Fogh RH, Boucher W, Higman VA, Eisenmenger F, Bardiaux B, van Rossum BJ, Oschkinat H, Laue ED, J Biomol NMR [2011, 51(4): 437-47]
  106. The S. pombe histone H2A dioxygenase Ofd2 regulates gene expression during hypoxia. Lando D, Balmer J, Laue E D, Kouzarides T, PLoS One [2012, 7 (1): e29765]
  107. The PHD and Chromo Domains Regulate the ATPase Activity of the Human Chromatin Remodeler CHD4. Watson AA, Mahajan P, Mertens HD, Deery MJ, Zhang W, Pham P, Du X, Bartke T, Edlich C, Berridge G, Chen Y, Burgess-Brown NA, Kouzarides T, Wiechens N, Owen-Hughes T, Svergun DI, Gileadi O, Laue ED, J Mol Biol [2012, 422 (1): 3-17]
  108. Quantitative single-molecule microscopy reveals that CENP-A(Cnp1) deposition occurs during G2 in fission yeast. Lando D, Endesfelder U, Berger H, Subramanian L, Dunne PD, McColl J, Klenerman D, Carr AM, Sauer M, Allshire RC, Heilemann M, Laue ED, Open Biol [2012, 2 (7): 120078]
  109. Structural plasticity of histones H3-H4 facilitates their allosteric exchange between RbAp48 and ASF1. Zhang W, Tyl M, Ward R, Sobott F, Maman J, Murthy AS, Watson AA, Fedorov O, Bowman A, Owen-Hughes T, EL-Mkami H, Murzina NV, Norman D, Laue ED, Nat Struct Mol Biol [25.11.2012, DOI: 10.1038/nsmb.2446]

 

© 2011 Department of Biochemistry, University of Cambridge