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Peter L. Davies - Publications

Affiliations: 
1977- Biological and Molecular Sciences Queen's University, Kingston, ON, Canada 
Area:
Protein Structure-Function
Website:
https://www.peterldavies.com/
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252 high-probability publications. We are testing a new system for linking publications to authors. You can help! If you notice any inaccuracies, please sign in and mark papers as correct or incorrect matches. If you identify any major omissions or other inaccuracies in the publication list, please let us know.

Year Citation  Score
2023 Hansen T, Lee J, Reicher N, Ovadia G, Guo S, Guo W, Liu J, Braslavsky I, Rudich Y, Davies PL. Ice nucleation proteins self-assemble into large fibres to trigger freezing at near 0 °C. Elife. 12. PMID 38109272 DOI: 10.7554/eLife.91976  0.3
2023 Hansen T, Lee JC, Reicher N, Ovadia G, Guo S, Guo W, Liu J, Braslavsky I, Rudich Y, Davies PL. Highly conserved, positively charged tandem repeats mediate multimerization of ice nucleation proteins. Biorxiv : the Preprint Server For Biology. PMID 37577566 DOI: 10.1101/2023.08.03.551873  0.315
2023 Scholl CL, Holmstrup M, Graham LA, Davies PL. Polyproline type II helical antifreeze proteins are widespread in Collembola and likely originated over 400 million years ago in the Ordovician Period. Scientific Reports. 13: 8880. PMID 37264058 DOI: 10.1038/s41598-023-35983-y  0.35
2022 Scholl CL, Davies PL. Protein engineering of antifreeze proteins reveals that their activity scales with the area of the ice-binding site. Febs Letters. PMID 36460826 DOI: 10.1002/1873-3468.14552  0.335
2022 Forbes J, Bissoyi A, Eickhoff L, Reicher N, Hansen T, Bon CG, Walker VK, Koop T, Rudich Y, Braslavsky I, Davies PL. Water-organizing motif continuity is critical for potent ice nucleation protein activity. Nature Communications. 13: 5019. PMID 36028506 DOI: 10.1038/s41467-022-32469-9  0.329
2022 Davies PL. Reflections on antifreeze proteins and their evolution. Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire. PMID 35580352 DOI: 10.1139/bcb-2022-0029  0.371
2021 Gruneberg AK, Graham LA, Eves R, Agrawal P, Oleschuk RD, Davies PL. Ice recrystallization inhibition activity varies with ice-binding protein type and does not correlate with thermal hysteresis. Cryobiology. PMID 33529683 DOI: 10.1016/j.cryobiol.2021.01.017  0.337
2021 Scholl CL, Tsuda S, Graham LA, Davies PL. Crystal waters on the nine polyproline type II helical bundle springtail antifreeze protein from Granisotoma rainieri match the ice lattice. The Febs Journal. PMID 33460499 DOI: 10.1111/febs.15717  0.356
2020 Hobbs RS, Hall JR, Graham LA, Davies PL, Fletcher GL. Antifreeze protein dispersion in eelpouts and related fishes reveals migration and climate alteration within the last 20 Ma. Plos One. 15: e0243273. PMID 33320906 DOI: 10.1371/journal.pone.0243273  0.304
2020 Ye Q, Eves R, Campbell RL, Davies PL. Crystal structure of an insect antifreeze protein reveals ordered waters on the ice-binding surface. The Biochemical Journal. PMID 32794579 DOI: 10.1042/Bcj20200539  0.445
2020 Bredow M, Tomalty HE, Graham LA, Gruneberg AK, Middleton AJ, Vanderbeld B, Davies PL, Walker VK. Isolation and Characterization of Ice-Binding Proteins from Higher Plants. Methods in Molecular Biology (Clifton, N.J.). 2156: 303-332. PMID 32607990 DOI: 10.1007/978-1-0716-0660-5_21  0.319
2020 Wang Y, Graham LA, Han Z, Eves R, Gruneberg AK, Campbell RL, Zhang H, Davies PL. Carrot "antifreeze" protein has an irregular ice-binding site that confers weak freezing point depression but strong inhibition of ice recrystallization. The Biochemical Journal. PMID 32459306 DOI: 10.1042/Bcj20200238  0.483
2020 Graham LA, Boddington ME, Holmstrup M, Davies PL. Antifreeze protein complements cryoprotective dehydration in the freeze-avoiding springtail Megaphorura arctica. Scientific Reports. 10: 3047. PMID 32080305 DOI: 10.1038/S41598-020-60060-Z  0.421
2019 Kinrade B, Davies PL, Vance TDR. Bacterial sugar-binding protein as a one-step affinity purification tag on dextran-containing resins. Protein Expression and Purification. 105564. PMID 31883939 DOI: 10.1016/J.Pep.2019.105564  0.43
2019 Berger T, Meister K, DeVries AL, Eves R, Davies PL, Drori R. Synergy between Antifreeze Proteins is Driven by Complementary Ice-Binding. Journal of the American Chemical Society. PMID 31710222 DOI: 10.1021/Jacs.9B10905  0.408
2019 Vance TDR, Guo S, Assaie-Ardakany S, Conroy B, Davies PL. Structure and functional analysis of a bacterial adhesin sugar-binding domain. Plos One. 14: e0220045. PMID 31335890 DOI: 10.1371/Journal.Pone.0220045  0.372
2019 Guo S, Campbell R, Davies PL, Allingham JS. Phasing with calcium at home. Acta Crystallographica. Section F, Structural Biology Communications. 75: 377-384. PMID 31045567 DOI: 10.1107/S2053230X19004151  0.3
2019 Guo S, Vance TDR, Stevens CA, Voets IK, Davies PL. RTX Adhesins are Key Bacterial Surface Megaproteins in the Formation of Biofilms. Trends in Microbiology. PMID 30826181 DOI: 10.1016/J.Tim.2019.02.001  0.349
2019 Vance TDR, Bayer-Giraldi M, Davies PL, Mangiagalli M. Ice-binding proteins and the 'domain of unknown function' 3494 family. The Febs Journal. PMID 30680879 DOI: 10.1111/Febs.14764  0.474
2019 McCartney CE, Davies PL. FRET-Based Assays to Determine Calpain Activity. Methods in Molecular Biology (Clifton, N.J.). 1915: 39-55. PMID 30617794 DOI: 10.1007/978-1-4939-8988-1_4  0.301
2019 McCartney CE, Davies PL. Bacterial Expression and Purification of Calpains. Methods in Molecular Biology (Clifton, N.J.). 1915: 13-27. PMID 30617792 DOI: 10.1007/978-1-4939-8988-1_2  0.321
2019 Iovine JC, Gallo PN, Callaway KA, Davies PL, Nucci NV. Studying the Dynamic Motions of Water Surrounding the Ice-Binding Face of M1.1 Antifreeze Protein Biophysical Journal. 116: 186a. DOI: 10.1016/J.Bpj.2018.11.1033  0.364
2018 McCartney CE, Ye Q, Campbell RL, Davies PL. Insertion sequence 1 from calpain-3 is functional in calpain-2 as an internal propeptide. The Journal of Biological Chemistry. PMID 30254072 DOI: 10.1074/Jbc.Ra118.004803  0.318
2018 Davies PL, Graham LA. Protein evolution revisited. Systems Biology in Reproductive Medicine. 1-14. PMID 30176752 DOI: 10.1080/19396368.2018.1511764  0.376
2018 Guo S, Langelaan DN, Phippen SW, Smith SP, Voets IK, Davies PL. Conserved structural features anchor biofilm-associated RTX-adhesins to the outer membrane of bacteria. The Febs Journal. PMID 29575515 DOI: 10.1111/Febs.14441  0.341
2018 Vance TDR, Graham LA, Davies PL. An ice-binding and tandem beta-sandwich domain-containing protein in Shewanella frigidimarina is a potential new type of ice adhesin. The Febs Journal. PMID 29498209 DOI: 10.1111/Febs.14424  0.457
2018 Graham LA, Agrawal P, Oleschuk RD, Davies PL. High-capacity ice-recrystallization endpoint assay employing superhydrophobic coatings that is equivalent to the 'splat' assay. Cryobiology. PMID 29397921 DOI: 10.1016/J.Cryobiol.2018.01.011  0.33
2018 Ye Q, Campbell RL, Davies PL. Structures of human calpain-3 protease core with and without bound inhibitor reveal mechanisms of calpain activation. Journal of Biological Chemistry. 293: 4056-4070. DOI: 10.2210/Pdb6Bkj/Pdb  0.354
2018 Guo S, Voets IK, Davies PL. Structure of a 1.5 MDa bacterial adhesin reveals its role in the mixed-species biofilm formation with diatoms on ice Acta Crystallographica Section a Foundations and Advances. 74: a137-a137. DOI: 10.1107/S0108767318098628  0.412
2018 Ye Q, Basu K, Eves R, Campbell RL, Phippen S, Davies PL. Do diverse antifreeze protein structures bind ice by the same mechanism? Acta Crystallographica Section a Foundations and Advances. 74: a163-a163. DOI: 10.1107/S0108767318098367  0.458
2018 Tomalty HE, Eves R, Graham LA, Walker VK, Davies PL. Supercooled renal graft preservation using hyperactive ice-binding proteins Cryobiology. 81: 233-234. DOI: 10.1016/J.Cryobiol.2017.12.083  0.385
2017 McCartney CE, MacLeod JA, Greer PA, Davies PL. An easy-to-use FRET protein substrate to detect calpain cleavage in vitro and in vivo. Biochimica Et Biophysica Acta. PMID 29104086 DOI: 10.1016/J.Bbamcr.2017.10.013  0.359
2017 Guo S, Stevens CA, Vance TDR, Olijve LLC, Graham LA, Campbell RL, Yazdi SR, Escobedo C, Bar-Dolev M, Yashunsky V, Braslavsky I, Langelaan DN, Smith SP, Allingham JS, Voets IK, ... Davies PL, et al. Structure of a 1.5-MDa adhesin that binds its Antarctic bacterium to diatoms and ice. Science Advances. 3: e1701440. PMID 28808685 DOI: 10.1126/Sciadv.1701440  0.42
2017 Stevens CA, Semrau J, Chiriac D, Litschko M, Campbell RL, Langelaan DN, Smith SP, Davies PL, Allingham JS. Peptide backbone circularization enhances antifreeze protein thermostability. Protein Science : a Publication of the Protein Society. PMID 28691252 DOI: 10.1002/Pro.3228  0.485
2017 Oude Vrielink AS, Vance TD, de Jong AM, Davies PL, Voets IK. Unusually high mechanical stability of bacterial adhesin extender domains having calcium clamps. Plos One. 12: e0174682. PMID 28376122 DOI: 10.1371/Journal.Pone.0174682  0.306
2017 Mahatabuddin S, Hanada Y, Nishimiya Y, Miura A, Kondo H, Davies PL, Tsuda S. Concentration-dependent oligomerization of an alpha-helical antifreeze polypeptide makes it hyperactive. Scientific Reports. 7: 42501. PMID 28211917 DOI: 10.1038/Srep42501  0.428
2017 Bar-Dolev M, Guo S, Haleva L, Celik Y, Davies PL, Braslavsky I. Ice-Binding Proteins - Not Only for Ice Growth Control Biophysical Journal. 112: 589a. DOI: 10.1016/J.BPJ.2016.11.3170  0.319
2016 Phippen SW, Stevens CA, Vance TD, King NP, Baker D, Davies PL. Multivalent Display of Antifreeze Proteins by Fusion to Self-Assembling Protein Cages Enhances Ice-Binding Activities. Biochemistry. 55: 6811-6820. PMID 27951652 DOI: 10.1021/Acs.Biochem.6B00864  0.462
2016 Haleva L, Celik Y, Bar-Dolev M, Pertaya-Braun N, Kaner A, Davies PL, Braslavsky I. Microfluidic Cold-Finger Device for the Investigation of Ice-Binding Proteins. Biophysical Journal. 111: 1143-50. PMID 27653473 DOI: 10.1016/J.Bpj.2016.08.003  0.43
2016 Bar Dolev M, Bernheim R, Guo S, Davies PL, Braslavsky I. Putting life on ice: bacteria that bind to frozen water. Journal of the Royal Society, Interface. 13. PMID 27534698 DOI: 10.1098/Rsif.2016.0210  0.45
2016 Bar Dolev M, Braslavsky I, Davies PL. Ice-Binding Proteins and Their Function. Annual Review of Biochemistry. 85: 515-42. PMID 27145844 DOI: 10.1146/Annurev-Biochem-060815-014546  0.444
2016 Jung W, Campbell RL, Gwak Y, Kim JI, Davies PL, Jin E. New Cysteine-Rich Ice-Binding Protein Secreted from Antarctic Microalga, Chloromonas sp. Plos One. 11: e0154056. PMID 27097164 DOI: 10.1371/Journal.Pone.0154056  0.479
2016 Marshall CJ, Basu K, Davies PL. Ice-Shell Purification of Ice-Binding Proteins. Cryobiology. PMID 27025155 DOI: 10.1016/J.Cryobiol.2016.03.009  0.447
2016 Basu K, Campbell RL, Guo S, Sun T, Davies PL. Modeling repetitive, non-globular proteins. Protein Science : a Publication of the Protein Society. PMID 26914323 DOI: 10.1002/Pro.2907  0.362
2016 Basu K, Wasserman SS, Jeronimo PS, Graham LA, Davies PL. Intermediate activity of midge antifreeze protein is due to a tyrosine-rich ice-binding site and atypical ice plane affinity. The Febs Journal. 283: 1504-15. PMID 26896764 DOI: 10.1111/Febs.13687  0.469
2016 Davies PL. Antarctic moss is home to many epiphytic bacteria that secrete antifreeze proteins. Environmental Microbiology Reports. PMID 26790542 DOI: 10.1111/1758-2229.12360  0.351
2016 Basu K, Wasserman SS, Jeronimo PS, Graham LA, Davies PL. Intermediate activity of midge antifreeze protein is due to a tyrosine-rich ice-binding site and atypical ice plane affinity Febs Journal. DOI: 10.1111/febs.13687  0.343
2016 Guo S, Olijve L, Langelaan D, Phippen S, Campbell R, Smith S, Voets I, Davies P. Structural insight into host cell surface retention of a 1.5 MDa bacterial ice-binding adhesin Acta Crystallographica Section a Foundations and Advances. 72: s14-s14. DOI: 10.1107/S2053273316099769  0.379
2016 Davies P, Graham L, Basu K. Rapid characterization of new antifreeze proteins - and why this is important Cryobiology. 73: 426. DOI: 10.1016/J.Cryobiol.2016.09.105  0.339
2016 Stevens C, Yazdi S, Guo S, Bar-dolev M, Escobedo C, Braslavsky I, Davies P. Using microfluidics to study biofilm formation and disruption with an ice-binding bacterium Cryobiology. 73: 424. DOI: 10.1016/J.Cryobiol.2016.09.098  0.382
2015 Sun T, Davies PL, Walker VK. Structural Basis for the Inhibition of Gas Hydrates by α-Helical Antifreeze Proteins. Biophysical Journal. 109: 1698-705. PMID 26488661 DOI: 10.1016/J.Bpj.2015.08.041  0.35
2015 Sun T, Gauthier SY, Campbell RL, Davies PL. Revealing Surface Waters on an Antifreeze Protein by Fusion Protein Crystallography. The Journal of Physical Chemistry. B. PMID 26371748 DOI: 10.1021/Acs.Jpcb.5B06474  0.448
2015 Stevens CA, Drori R, Zalis S, Braslavsky I, Davies PL. Dendrimer-Linked Antifreeze Proteins Have Superior Activity and Thermal Recovery. Bioconjugate Chemistry. 26: 1908-15. PMID 26267368 DOI: 10.1021/Acs.Bioconjchem.5B00290  0.454
2015 Drori R, Davies PL, Braslavsky I. When are antifreeze proteins in solution essential for ice growth inhibition? Langmuir : the Acs Journal of Surfaces and Colloids. 31: 5805-11. PMID 25946514 DOI: 10.1021/Acs.Langmuir.5B00345  0.435
2015 Basu K, Graham LA, Campbell RL, Davies PL. Flies expand the repertoire of protein structures that bind ice. Proceedings of the National Academy of Sciences of the United States of America. 112: 737-42. PMID 25561557 DOI: 10.1073/Pnas.1422272112  0.478
2015 Drori R, Davies PL, Braslavsky I. Experimental correlation between thermal hysteresis activity and the distance between antifreeze proteins on an ice surface Rsc Advances. 5: 7848-7853. DOI: 10.1039/C4Ra12638F  0.432
2015 Braslavsky I, Drori R, Celik Y, Dolev MB, Davies PL. Characteristics of the interaction of antifreeze proteins with ice crystals Cryobiology. 71: 540. DOI: 10.1016/J.Cryobiol.2015.10.015  0.412
2015 Braslavsky I, Drori R, Celik Y, Dolev MB, Davies PL. 29. Ice-binding proteins and their interactions with ice crystals Cryobiology. 71: 172. DOI: 10.1016/J.Cryobiol.2015.05.035  0.443
2015 Braslavsky I, Drori R, Celik Y, Davies PL. Ice Growth Control with Ice-Binding Proteins Biophysical Journal. 108: 346a. DOI: 10.1016/J.Bpj.2014.11.1893  0.451
2014 Davies PL. Ice-binding proteins: a remarkable diversity of structures for stopping and starting ice growth. Trends in Biochemical Sciences. 39: 548-55. PMID 25440715 DOI: 10.1016/J.Tibs.2014.09.005  0.459
2014 Low KE, Karunan Partha S, Davies PL, Campbell RL. Allosteric inhibitors of calpains: Reevaluating inhibition by PD150606 and LSEAL. Biochimica Et Biophysica Acta. 1840: 3367-73. PMID 25196359 DOI: 10.1016/J.Bbagen.2014.08.014  0.318
2014 Drori R, Celik Y, Davies PL, Braslavsky I. Ice-binding proteins that accumulate on different ice crystal planes produce distinct thermal hysteresis dynamics. Journal of the Royal Society, Interface. 11: 20140526. PMID 25008081 DOI: 10.1098/Rsif.2014.0526  0.446
2014 Vance TD, Olijve LL, Campbell RL, Voets IK, Davies PL, Guo S. Ca2+-stabilized adhesin helps an Antarctic bacterium reach out and bind ice. Bioscience Reports. 34. PMID 24892750 DOI: 10.1042/Bsr20140083  0.44
2014 Middleton AJ, Vanderbeld B, Bredow M, Tomalty H, Davies PL, Walker VK. Isolation and characterization of ice-binding proteins from higher plants. Methods in Molecular Biology (Clifton, N.J.). 1166: 255-77. PMID 24852641 DOI: 10.1007/978-1-4939-0844-8_19  0.466
2014 Partha SK, Ravulapalli R, Allingham JS, Campbell RL, Davies PL. Crystal structure of calpain-3 penta-EF-hand (PEF) domain - a homodimerized PEF family member with calcium bound at the fifth EF-hand. The Febs Journal. 281: 3138-49. PMID 24846670 DOI: 10.1111/Febs.12849  0.335
2014 Jung W, Gwak Y, Davies PL, Kim HJ, Jin E. Isolation and characterization of antifreeze proteins from the antarctic marine microalga Pyramimonas gelidicola. Marine Biotechnology (New York, N.Y.). 16: 502-12. PMID 24609978 DOI: 10.1007/S10126-014-9567-Y  0.447
2014 Sun T, Lin FH, Campbell RL, Allingham JS, Davies PL. An antifreeze protein folds with an interior network of more than 400 semi-clathrate waters. Science (New York, N.Y.). 343: 795-8. PMID 24531972 DOI: 10.1126/Science.1247407  0.407
2014 Basu K, Garnham CP, Nishimiya Y, Tsuda S, Braslavsky I, Davies P. Determining the ice-binding planes of antifreeze proteins by fluorescence-based ice plane affinity. Journal of Visualized Experiments : Jove. e51185. PMID 24457629 DOI: 10.3791/51185  0.428
2014 Ye Q, Campbell R, Davies P. Structural Studies on Human Calpain-3 Protease Core Acta Crystallographica Section a Foundations and Advances. 70: C1785-C1785. DOI: 10.1107/S2053273314082151  0.372
2014 Drori R, Celik Y, Davies PL, Braslavsky I. New Insights on the Mechanism of Action of Ice-Binding Proteins Biophysical Journal. 106: 657a. DOI: 10.1016/J.Bpj.2013.11.3635  0.462
2013 Graham LA, Hobbs RS, Fletcher GL, Davies PL. Helical antifreeze proteins have independently evolved in fishes on four occasions. Plos One. 8: e81285. PMID 24324684 DOI: 10.1371/Journal.Pone.0081285  0.397
2013 Guo S, Garnham CP, Karunan Partha S, Campbell RL, Allingham JS, Davies PL. Role of Ca²⁺ in folding the tandem β-sandwich extender domains of a bacterial ice-binding adhesin. The Febs Journal. 280: 5919-32. PMID 24024640 DOI: 10.1111/Febs.12518  0.441
2013 Hakim A, Nguyen JB, Basu K, Zhu DF, Thakral D, Davies PL, Isaacs FJ, Modis Y, Meng W. Crystal structure of an insect antifreeze protein and its implications for ice binding. The Journal of Biological Chemistry. 288: 12295-304. PMID 23486477 DOI: 10.1074/Jbc.M113.450973  0.475
2013 Celik Y, Drori R, Pertaya-Braun N, Altan A, Barton T, Bar-Dolev M, Groisman A, Davies PL, Braslavsky I. Microfluidic experiments reveal that antifreeze proteins bound to ice crystals suffice to prevent their growth. Proceedings of the National Academy of Sciences of the United States of America. 110: 1309-14. PMID 23300286 DOI: 10.1073/Pnas.1213603110  0.448
2013 Olijve LLC, Sun T, Narayanan T, Jud C, Davies PL, Voets IK. Solution structure of hyperactive type i antifreeze protein Rsc Advances. 3: 5903-5908. DOI: 10.1039/C3Ra22729D  0.407
2013 Drori R, Celik Y, Davies PL, Braslavsky I. 144 Kinetics of hyperactive and moderate antifreeze proteins Cryobiology. 67: 439. DOI: 10.1016/J.Cryobiol.2013.09.150  0.435
2013 Dolev MB, Liu J, Qin Y, Celik Y, Drori R, Wettlaufer J, Davies PL, Braslavsky I. 143 Ice shaping in solutions of ice-binding proteins – Melting vs growing morphologies Cryobiology. 67: 438-439. DOI: 10.1016/J.Cryobiol.2013.09.149  0.441
2013 Braslavsky I, Drori R, Celik Y, Dolev MB, Davies PL. 064 The dynamic nature of antifreeze protein activity Cryobiology. 67: 415-416. DOI: 10.1016/J.Cryobiol.2013.09.070  0.449
2013 Davies P. 061 The roles of water in binding antifreeze proteins to ice Cryobiology. 67: 415. DOI: 10.1016/J.Cryobiol.2013.09.067  0.441
2012 Guo S, Garnham CP, Whitney JC, Graham LA, Davies PL. Re-evaluation of a bacterial antifreeze protein as an adhesin with ice-binding activity. Plos One. 7: e48805. PMID 23144980 DOI: 10.1371/Journal.Pone.0048805  0.476
2012 Campbell RL, Davies PL. Structure-function relationships in calpains. The Biochemical Journal. 447: 335-51. PMID 23035980 DOI: 10.1042/Bj20120921  0.34
2012 Garnham CP, Nishimiya Y, Tsuda S, Davies PL. Engineering a naturally inactive isoform of type III antifreeze protein into one that can stop the growth of ice. Febs Letters. 586: 3876-81. PMID 23017208 DOI: 10.1016/J.Febslet.2012.09.017  0.465
2012 Jo H, Meinhardt N, Wu Y, Kulkarni S, Hu X, Low KE, Davies PL, DeGrado WF, Greenbaum DC. Development of α-helical calpain probes by mimicking a natural protein-protein interaction. Journal of the American Chemical Society. 134: 17704-13. PMID 22998171 DOI: 10.1021/Ja307599Z  0.363
2012 Bar-Dolev M, Celik Y, Wettlaufer JS, Davies PL, Braslavsky I. New insights into ice growth and melting modifications by antifreeze proteins. Journal of the Royal Society, Interface. 9: 3249-59. PMID 22787007 DOI: 10.1098/Rsif.2012.0388  0.416
2012 Kondo H, Hanada Y, Sugimoto H, Hoshino T, Garnham CP, Davies PL, Tsuda S. Ice-binding site of snow mold fungus antifreeze protein deviates from structural regularity and high conservation. Proceedings of the National Academy of Sciences of the United States of America. 109: 9360-5. PMID 22645341 DOI: 10.1073/Pnas.1121607109  0.458
2012 Middleton AJ, Marshall CB, Faucher F, Bar-Dolev M, Braslavsky I, Campbell RL, Walker VK, Davies PL. Antifreeze protein from freeze-tolerant grass has a beta-roll fold with an irregularly structured ice-binding site. Journal of Molecular Biology. 416: 713-24. PMID 22306740 DOI: 10.1016/J.Jmb.2012.01.032  0.462
2012 Lin FH, Sun T, Fletcher GL, Davies PL. Thermolabile antifreeze protein produced in Escherichia coli for structural analysis. Protein Expression and Purification. 82: 75-82. PMID 22155222 DOI: 10.1016/J.Pep.2011.11.013  0.448
2012 Braslavsky I, Drori R, Celik Y, Dolev MB, Davies PL. 31. Ice binding proteins and their dynamic interaction with ice Cryobiology. 65: 348-349. DOI: 10.1016/J.Cryobiol.2012.07.032  0.451
2012 Braslavsky I, Celik Y, Drori R, Bar M, Davies PL. The Case for Irreversible Binding of Ice-Binding Proteins to Ice Biophysical Journal. 102: 461a. DOI: 10.1016/j.bpj.2011.11.2530  0.319
2011 Garnham CP, Campbell RL, Walker VK, Davies PL. Novel dimeric β-helical model of an ice nucleation protein with bridged active sites. Bmc Structural Biology. 11: 36. PMID 21951648 DOI: 10.1186/1472-6807-11-36  0.468
2011 Hobbs RS, Shears MA, Graham LA, Davies PL, Fletcher GL. Isolation and characterization of type I antifreeze proteins from cunner, Tautogolabrus adspersus, order Perciformes. The Febs Journal. 278: 3699-710. PMID 21819541 DOI: 10.1111/J.1742-4658.2011.08288.X  0.435
2011 Chou JS, Impens F, Gevaert K, Davies PL. m-Calpain activation in vitro does not require autolysis or subunit dissociation. Biochimica Et Biophysica Acta. 1814: 864-72. PMID 21549862 DOI: 10.1016/J.Bbapap.2011.04.007  0.31
2011 Lin FH, Davies PL, Graham LA. The Thr- and Ala-rich hyperactive antifreeze protein from inchworm folds as a flat silk-like β-helix. Biochemistry. 50: 4467-78. PMID 21486083 DOI: 10.1021/Bi2003108  0.445
2011 Garnham CP, Campbell RL, Davies PL. Anchored clathrate waters bind antifreeze proteins to ice. Proceedings of the National Academy of Sciences of the United States of America. 108: 7363-7. PMID 21482800 DOI: 10.1073/Pnas.1100429108  0.436
2011 Lauersen KJ, Brown A, Middleton A, Davies PL, Walker VK. Expression and characterization of an antifreeze protein from the perennial rye grass, Lolium perenne. Cryobiology. 62: 194-201. PMID 21457707 DOI: 10.1016/J.Cryobiol.2011.03.003  0.432
2011 Celik Y, Drori R, Pertaya N, Altan A, Bar M, Groisman A, Davies PL, Braslavsky I. Microfluidic experiments with ice binding proteins: Evidence for irreversible binding Cryobiology. 63: 307. DOI: 10.1016/J.Cryobiol.2011.09.010  0.421
2011 Braslavsky I, Celik Y, Drori R, Bar M, Altan A, Davies PL. The case for irreversible binding of ice-binding proteins to ice Cryobiology. 63: 307. DOI: 10.1016/J.Cryobiol.2011.09.009  0.43
2010 Yu SO, Brown A, Middleton AJ, Tomczak MM, Walker VK, Davies PL. Ice restructuring inhibition activities in antifreeze proteins with distinct differences in thermal hysteresis. Cryobiology. 61: 327-34. PMID 20977900 DOI: 10.1016/J.Cryobiol.2010.10.158  0.42
2010 Garnham CP, Natarajan A, Middleton AJ, Kuiper MJ, Braslavsky I, Davies PL. Compound ice-binding site of an antifreeze protein revealed by mutagenesis and fluorescent tagging. Biochemistry. 49: 9063-71. PMID 20853841 DOI: 10.1021/Bi100516E  0.457
2010 Modig K, Qvist J, Marshall CB, Davies PL, Halle B. High water mobility on the ice-binding surface of a hyperactive antifreeze protein. Physical Chemistry Chemical Physics : Pccp. 12: 10189-97. PMID 20668761 DOI: 10.1039/C002970J  0.432
2010 Celik Y, Graham LA, Mok YF, Bar M, Davies PL, Braslavsky I. Superheating of ice crystals in antifreeze protein solutions. Proceedings of the National Academy of Sciences of the United States of America. 107: 5423-8. PMID 20215465 DOI: 10.1073/Pnas.0909456107  0.414
2010 Mok YF, Lin FH, Graham LA, Celik Y, Braslavsky I, Davies PL. Structural basis for the superior activity of the large isoform of snow flea antifreeze protein. Biochemistry. 49: 2593-603. PMID 20158269 DOI: 10.1021/Bi901929N  0.502
2010 Braslavsky I, Bar M, Liu J, Qin Y, Celik Y, Davies PL, Wettlaufer J. 37. Ice crystal shapes in antifreeze protein solutions Cryobiology. 61: 373. DOI: 10.1016/J.Cryobiol.2010.10.041  0.399
2010 Celik Y, Graham LA, Mok Y, Bar M, Davies PL, Braslavsky I. Superheating of Ice in the Presence of Ice Binding Proteins Biophysical Journal. 98: 245a. DOI: 10.1016/J.Bpj.2009.12.1331  0.433
2009 Kelly JC, Cuerrier D, Graham LA, Campbell RL, Davies PL. Profiling of calpain activity with a series of FRET-based substrates. Biochimica Et Biophysica Acta. 1794: 1505-9. PMID 19555780 DOI: 10.1016/J.Bbapap.2009.06.013  0.304
2009 Ravulapalli R, Campbell RL, Gauthier SY, Dhe-Paganon S, Davies PL. Distinguishing between calpain heterodimerization and homodimerization. The Febs Journal. 276: 973-82. PMID 19215300 DOI: 10.1111/J.1742-4658.2008.06833.X  0.337
2009 Middleton AJ, Brown AM, Davies PL, Walker VK. Identification of the ice-binding face of a plant antifreeze protein. Febs Letters. 583: 815-9. PMID 19185572 DOI: 10.1016/J.Febslet.2009.01.035  0.374
2009 Celik Y, Pertaya N, Liu J, Qin Y, Xu D, Davies PL, Braslavsky I. 11. A new look at the concentration dependence of ice-binding proteins Cryobiology. 59: 373. DOI: 10.1016/J.Cryobiol.2009.10.025  0.434
2009 Braslavsky I, Celik Y, Davies PL. Binding Kinetics of Two Hyperactive Antifreeze Proteins are Revealed by Using Novel Microfluidic Devices Biophysical Journal. 96: 547a-548a. DOI: 10.1016/J.Bpj.2008.12.2965  0.427
2008 Hanna RA, Campbell RL, Davies PL. Calcium-bound structure of calpain and its mechanism of inhibition by calpastatin. Nature. 456: 409-12. PMID 19020623 DOI: 10.1038/Nature07451  0.331
2008 Gauthier SY, Scotter AJ, Lin FH, Baardsnes J, Fletcher GL, Davies PL. A re-evaluation of the role of type IV antifreeze protein. Cryobiology. 57: 292-6. PMID 18938150 DOI: 10.1016/J.Cryobiol.2008.10.122  0.337
2008 Graham LA, Lougheed SC, Ewart KV, Davies PL. Lateral transfer of a lectin-like antifreeze protein gene in fishes Plos One. 3. PMID 18612417 DOI: 10.1371/Journal.Pone.0002616  0.369
2008 Pertaya N, Marshall CB, Celik Y, Davies PL, Braslavsky I. Direct visualization of spruce budworm antifreeze protein interacting with ice crystals: basal plane affinity confers hyperactivity. Biophysical Journal. 95: 333-41. PMID 18339740 DOI: 10.1529/Biophysj.107.125328  0.402
2008 Graham LA, Marshall CB, Lin FH, Campbell RL, Davies PL. Hyperactive antifreeze protein from fish contains multiple ice-binding sites. Biochemistry. 47: 2051-63. PMID 18225917 DOI: 10.1021/Bi7020316  0.487
2008 Garnham CP, Gilbert JA, Hartman CP, Campbell RL, Laybourn-Parry J, Davies PL. A Ca2+-dependent bacterial antifreeze protein domain has a novel beta-helical ice-binding fold. The Biochemical Journal. 411: 171-80. PMID 18095937 DOI: 10.1042/Bj20071372  0.451
2008 Braslavsky I, Celik Y, Pertaya N, Davies PL. 65. The control of growth and melting of ice crystals by ice binding proteins Cryobiology. 57: 328. DOI: 10.1016/J.Cryobiol.2008.10.066  0.435
2008 Celik Y, Pertaya N, Garnham CP, Davies PL, Braslavsky I. 62. Hyperactive ice binding proteins and their interactions with ice crystals: A microfluidic approach Cryobiology. 57: 328. DOI: 10.1016/J.Cryobiol.2008.10.063  0.435
2007 Scotter AJ, Guo M, Tomczak MM, Daley ME, Campbell RL, Oko RJ, Bateman DA, Chakrabartty A, Sykes BD, Davies PL. Metal ion-dependent, reversible, protein filament formation by designed beta-roll polypeptides. Bmc Structural Biology. 7: 63. PMID 17908326 DOI: 10.1186/1472-6807-7-63  0.332
2007 Hanna RA, Garcia-Diaz BE, Davies PL. Calpastatin simultaneously binds four calpains with different kinetic constants. Febs Letters. 581: 2894-8. PMID 17543955 DOI: 10.1016/J.Febslet.2007.05.035  0.318
2007 Graham LA, Qin W, Lougheed SC, Davies PL, Walker VK. Evolution of hyperactive, repetitive antifreeze proteins in beetles Journal of Molecular Evolution. 64: 387-398. PMID 17443386 DOI: 10.1007/S00239-005-0256-3  0.441
2007 Pertaya N, Marshall CB, DiPrinzio CL, Wilen L, Thomson ES, Wettlaufer JS, Davies PL, Braslavsky I. Fluorescence microscopy evidence for quasi-permanent attachment of antifreeze proteins to ice surfaces. Biophysical Journal. 92: 3663-73. PMID 17325008 DOI: 10.1529/Biophysj.106.096297  0.427
2007 García-Arribas O, Mateo R, Tomczak MM, Davies PL, Mateu MG. Thermodynamic stability of a cold-adapted protein, type III antifreeze protein, and energetic contribution of salt bridges. Protein Science : a Publication of the Protein Society. 16: 227-38. PMID 17189482 DOI: 10.1110/Ps.062448907  0.327
2007 Lin FH, Graham LA, Campbell RL, Davies PL. Structural modeling of snow flea antifreeze protein. Biophysical Journal. 92: 1717-23. PMID 17158562 DOI: 10.1529/Biophysj.106.093435  0.411
2007 Pertaya N, Celik Y, Diprinzio CL, Wettlaufer JS, Davies PL, Braslavsky I. Growth-melt asymmetry in ice crystals under the influence of spruce budworm antifreeze protein Journal of Physics Condensed Matter. 19. DOI: 10.1088/0953-8984/19/41/412101  0.445
2006 Scotter AJ, Marshall CB, Graham LA, Gilbert JA, Garnham CP, Davies PL. The basis for hyperactivity of antifreeze proteins. Cryobiology. 53: 229-39. PMID 16887111 DOI: 10.1016/J.Cryobiol.2006.06.006  0.435
2006 Cuerrier D, Moldoveanu T, Inoue J, Davies PL, Campbell RL. Calpain inhibition by alpha-ketoamide and cyclic hemiacetal inhibitors revealed by X-ray crystallography. Biochemistry. 45: 7446-52. PMID 16768440 DOI: 10.1021/Bi060425J  0.32
2006 Scotter AJ, Kuntz DA, Saul M, Graham LA, Davies PL, Rose DR. Expression and purification of sea raven type II antifreeze protein from Drosophila melanogaster S2 cells. Protein Expression and Purification. 47: 374-83. PMID 16330225 DOI: 10.1016/J.Pep.2005.10.028  0.439
2006 Tyshenko MG, d'Anjou M, Davies PL, Daugulis AJ, Walker VK. Challenges in the expression of disulfide bonded, threonine-rich antifreeze proteins in bacteria and yeast. Protein Expression and Purification. 47: 152-61. PMID 16290006 DOI: 10.1016/J.Pep.2005.10.009  0.405
2005 Graham LA, Davies PL. Glycine-rich antifreeze proteins from snow fleas. Science (New York, N.Y.). 310: 461. PMID 16239469 DOI: 10.1126/Science.1115145  0.388
2005 Gauthier SY, Marshall CB, Fletcher GL, Davies PL. Hyperactive antifreeze protein in flounder species. The sole freeze protectant in American plaice. The Febs Journal. 272: 4439-49. PMID 16128813 DOI: 10.1111/J.1742-4658.2005.04859.X  0.382
2005 Gilbert JA, Davies PL, Laybourn-Parry J. A hyperactive, Ca2+-dependent antifreeze protein in an Antarctic bacterium Fems Microbiology Letters. 245: 67-72. PMID 15796981 DOI: 10.1016/J.Femsle.2005.02.022  0.39
2005 Marshall CB, Chakrabartty A, Davies PL. Hyperactive antifreeze protein from winter flounder is a very long rod-like dimer of alpha-helices. The Journal of Biological Chemistry. 280: 17920-9. PMID 15716269 DOI: 10.1074/Jbc.M500622200  0.393
2004 Marshall CB, Daley ME, Sykes BD, Davies PL. Enhancing the activity of a beta-helical antifreeze protein by the engineered addition of coils. Biochemistry. 43: 11637-46. PMID 15362848 DOI: 10.1021/Bi0488909  0.472
2004 Marshall CB, Cuerrier D, Dourdin N, Davies PL. A novel antifreeze protein in fish Medecine/Sciences. 20: 746-747. PMID 15361337 DOI: 10.1051/Medsci/2004208-9746  0.341
2004 Marshall CB, Fletcher GL, Davies PL. Hyperactive antifreeze protein in a fish Nature. 429: 153. PMID 15141201 DOI: 10.1038/429153A  0.38
2004 Diaz BG, Moldoveanu T, Kuiper MJ, Campbell RL, Davies PL. Insertion sequence 1 of muscle-specific calpain, p94, acts as an internal propeptide. The Journal of Biological Chemistry. 279: 27656-66. PMID 15073171 DOI: 10.1074/Jbc.M313290200  0.331
2004 Marshall CB, Tomczak MM, Gauthier SY, Kuiper MJ, Lankin C, Walker VK, Davies PL. Partitioning of fish and insect antifreeze proteins into ice suggests they bind with comparable affinity. Biochemistry. 43: 148-54. PMID 14705940 DOI: 10.1021/Bi035605X  0.449
2004 Moldoveanu T, Jia Z, Davies PL. Calpain activation by cooperative Ca2+ binding at two non-EF-hand sites. The Journal of Biological Chemistry. 279: 6106-14. PMID 14581465 DOI: 10.1074/Jbc.M310460200  0.311
2004 Leinala EK, Arthur JS, Grochulski P, Davies PL, Elce JS, Jia Z. A second binding site revealed by C-terminal truncation of calpain small subunit, a penta-EF-hand protein. Proteins. 53: 649-55. PMID 14579356 DOI: 10.1002/Prot.10453  0.398
2003 Tomczak MM, Marshall CB, Gilbert JA, Davies PL. A facile method for determining ice recrystallization inhibition by antifreeze proteins. Biochemical and Biophysical Research Communications. 311: 1041-6. PMID 14623287 DOI: 10.1016/J.Bbrc.2003.10.106  0.415
2003 Graham LA, Brewer D, Lajoie G, Davies PL. Characterization of a subfamily of beetle odorant-binding proteins found in hemolymph. Molecular & Cellular Proteomics : McP. 2: 541-9. PMID 12883044 DOI: 10.1074/Mcp.M300018-Mcp200  0.403
2003 Baardsnes J, Kuiper MJ, Davies PL. Antifreeze protein dimer: when two ice-binding faces are better than one. The Journal of Biological Chemistry. 278: 38942-7. PMID 12869550 DOI: 10.1074/Jbc.M306776200  0.45
2003 Graether SP, Gagné SM, Spyracopoulos L, Jia Z, Davies PL, Sykes BD. Spruce budworm antifreeze protein: changes in structure and dynamics at low temperature. Journal of Molecular Biology. 327: 1155-68. PMID 12662938 DOI: 10.1016/S0022-2836(03)00235-3  0.427
2003 Kuiper MJ, Lankin C, Gauthier SY, Walker VK, Davies PL. Purification of antifreeze proteins by adsorption to ice. Biochemical and Biophysical Research Communications. 300: 645-8. PMID 12507497 DOI: 10.1016/S0006-291X(02)02900-5  0.471
2003 Rey MA, Davies PL. The protease core of the muscle-specific calpain, p94, undergoes Ca2+-dependent intramolecular autolysis. Febs Letters. 532: 401-6. PMID 12482600 DOI: 10.1016/S0014-5793(02)03722-5  0.302
2002 Baardsnes J, Davies PL. Contribution of hydrophobic residues to ice binding by fish type III antifreeze protein. Biochimica Et Biophysica Acta. 1601: 49-54. PMID 12429502 DOI: 10.1016/S1570-9639(02)00431-4  0.451
2002 Marshall CB, Daley ME, Graham LA, Sykes BD, Davies PL. Identification of the ice-binding face of antifreeze protein from Tenebrio molitor. Febs Letters. 529: 261-7. PMID 12372611 DOI: 10.1016/S0014-5793(02)03355-0  0.454
2002 Davies PL, Baardsnes J, Kuiper MJ, Walker VK. Structure and function of antifreeze proteins. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences. 357: 927-35. PMID 12171656 DOI: 10.1098/Rstb.2002.1081  0.466
2002 Graham LA, Davies PL. The odorant-binding proteins of Drosophila melanogaster: annotation and characterization of a divergent gene family. Gene. 292: 43-55. PMID 12119098 DOI: 10.1016/S0378-1119(02)00672-8  0.375
2002 Leinala EK, Davies PL, Doucet D, Tyshenko MG, Walker VK, Jia Z. A beta-helical antifreeze protein isoform with increased activity. Structural and functional insights. The Journal of Biological Chemistry. 277: 33349-52. PMID 12105229 DOI: 10.1074/Jbc.M205575200  0.447
2002 Leinala EK, Davies PL, Jia Z. Elevated temperature and tyrosine iodination aid in the crystallization and structure determination of an antifreeze protein. Acta Crystallographica. Section D, Biological Crystallography. 58: 1081-3. PMID 12037324 DOI: 10.1107/S0907444902005334  0.352
2002 Leinala EK, Davies PL, Jia Z. Crystal structure of beta-helical antifreeze protein points to a general ice binding model. Structure (London, England : 1993). 10: 619-27. PMID 12015145 DOI: 10.1016/S0969-2126(02)00745-1  0.422
2002 Daley ME, Spyracopoulos L, Jia Z, Davies PL, Sykes BD. Structure and dynamics of a beta-helical antifreeze protein. Biochemistry. 41: 5515-25. PMID 11969412 DOI: 10.1021/Bi0121252  0.465
2002 Moldoveanu T, Hosfield CM, Lim D, Elce JS, Jia Z, Davies PL. A Ca(2+) switch aligns the active site of calpain. Cell. 108: 649-60. PMID 11893336 DOI: 10.1016/S0092-8674(02)00659-1  0.309
2002 Jia Z, Davies PL. Antifreeze proteins: an unusual receptor-ligand interaction. Trends in Biochemical Sciences. 27: 101-6. PMID 11852248 DOI: 10.1016/S0968-0004(01)02028-X  0.415
2002 Doucet D, Tyshenko MG, Davies PL, Walker VK. A family of expressed antifreeze protein genes from the moth, Choristoneura fumiferana. European Journal of Biochemistry / Febs. 269: 38-46. PMID 11784296 DOI: 10.1046/J.0014-2956.2001.02628.X  0.343
2002 Baardsnes J, Jelokhani-Niaraki M, Kondejewski LH, Kuiper MJ, Kay CM, Hodges RS, Davies PL. Antifreeze protein from shorthorn sculpin: identification of the ice-binding surface. Protein Science : a Publication of the Protein Society. 10: 2566-76. PMID 11714925 DOI: 10.1110/Ps.Ps.26501  0.443
2001 Kuiper MJ, Davies PL, Walker VK. A theoretical model of a plant antifreeze protein from Lolium perenne Biophysical Journal. 81: 3560-3565. PMID 11721016 DOI: 10.1016/S0006-3495(01)75986-3  0.472
2001 Graether SP, Slupsky CM, Davies PL, Sykes BD. Structure of type I antifreeze protein and mutants in supercooled water. Biophysical Journal. 81: 1677-83. PMID 11509380 DOI: 10.1016/S0006-3495(01)75821-3  0.42
2001 Baardsnes J, Davies PL. Sialic acid synthase: the origin of fish type III antifreeze protein? Trends in Biochemical Sciences. 26: 468-9. PMID 11504613 DOI: 10.1016/S0968-0004(01)01879-5  0.467
2001 Moldoveanu T, Hosfield CM, Jia Z, Elce JS, Davies PL. Ca(2+)-induced structural changes in rat m-calpain revealed by partial proteolysis. Biochimica Et Biophysica Acta. 1545: 245-54. PMID 11342050 DOI: 10.1016/S0167-4838(00)00286-7  0.302
2001 Graham LA, Tang W, Baust JG, Liou YC, Reid TS, Davies PL. Characterization and cloning of a Tenebrio molitor hemolymph protein with sequence similarity to insect odorant-binding proteins. Insect Biochemistry and Molecular Biology. 31: 691-702. PMID 11267907 DOI: 10.1016/S0965-1748(00)00177-6  0.42
2001 Fletcher GL, Hew CL, Davies PL. Antifreeze proteins of teleost fishes Annual Review of Physiology. 63: 359-390. PMID 11181960 DOI: 10.1146/Annurev.Physiol.63.1.359  0.456
2001 Hosfield CM, Moldoveanu T, Davies PL, Elce JS, Jia Z. Calpain mutants with increased Ca2+ sensitivity and implications for the role of the C(2)-like domain. The Journal of Biological Chemistry. 276: 7404-7. PMID 11102442 DOI: 10.1074/Jbc.M007352200  0.3
2000 Graham LA, Walker VK, Davies PL. Developmental and environmental regulation of antifreeze proteins in the mealworm beetle Tenebrio molitor European Journal of Biochemistry. 267: 6452-6458. PMID 11029589 DOI: 10.1046/J.1432-1327.2000.01734.X  0.312
2000 Doucet D, Tyshenko MG, Kuiper MJ, Graether SP, Sykes BD, Daugulis AJ, Davies PL, Walker VK. Structure-function relationships in spruce budworm antifreeze protein revealed by isoform diversity European Journal of Biochemistry. 267: 6082-6088. PMID 10998070 DOI: 10.1046/J.1432-1327.2000.01694.X  0.501
2000 Graether SP, Kuiper MJ, Gagné SM, Walker VK, Jia Z, Sykes BD, Davies PL. Beta-helix structure and ice-binding properties of a hyperactive antifreeze protein from an insect. Nature. 406: 325-8. PMID 10917537 DOI: 10.1038/35018610  0.472
2000 Liou YC, Tocilj A, Davies PL, Jia Z. Mimicry of ice structure by surface hydroxyls and water of a beta-helix antifreeze protein. Nature. 406: 322-4. PMID 10917536 DOI: 10.1038/35018604  0.474
2000 Liou YC, Daley ME, Graham LA, Kay CM, Walker VK, Sykes BD, Davies PL. Folding and structural characterization of highly disulfide-bonded beetle antifreeze protein produced in bacteria. Protein Expression and Purification. 19: 148-57. PMID 10833402 DOI: 10.1006/Prep.2000.1219  0.374
2000 Liou YC, Davies PL, Jia Z. Crystallization and preliminary X-ray analysis of insect antifreeze protein from the beetle Tenebrio molitor. Acta Crystallographica. Section D, Biological Crystallography. 56: 354-6. PMID 10713525 DOI: 10.1107/S0907444999016844  0.303
2000 Baardsnes J, Kondejewski LH, Hodges RS, Chao H, Kay C, Davies PL. New ice-binding face for type I antifreeze protein. Febs Letters. 463: 87-91. PMID 10601644 DOI: 10.1016/S0014-5793(99)01588-4  0.42
1999 Hew C, Poon R, Xiong F, Gauthier S, Shears M, King M, Davies P, Fletcher G. Liver-specific and seasonal expression of transgenic Atlantic salmon harboring the winter flounder antifreeze protein gene. Transgenic Research. 8: 405-14. PMID 10767985 DOI: 10.1023/A:1008900812864  0.382
1999 Hosfield CM, Elce JS, Davies PL, Jia Z. Crystal structure of calpain reveals the structural basis for Ca(2+)-dependent protease activity and a novel mode of enzyme activation. The Embo Journal. 18: 6880-9. PMID 10601010 DOI: 10.1093/Emboj/18.24.6880  0.331
1999 Rothemund S, Liou YC, Davies PL, Krause E, Sönnichsen FD. A new class of hexahelical insect proteins revealed as putative carriers of small hydrophobic ligands. Structure (London, England : 1993). 7: 1325-32. PMID 10574794 DOI: 10.1016/S0969-2126(00)80022-2  0.404
1999 Kenward KD, Brandle J, McPherson J, Davies PL. Type II fish antifreeze protein accumulation in transgenic tobacco does not confer frost resistance. Transgenic Research. 8: 105-17. PMID 10481310 DOI: 10.1023/A:1008886629825  0.341
1999 Liou YC, Thibault P, Walker VK, Davies PL, Graham LA. A complex family of highly heterogeneous and internally repetitive hyperactive antifreeze proteins from the beetle Tenebrio molitor Biochemistry. 38: 11415-11424. PMID 10471292 DOI: 10.1021/Bi990613S  0.445
1999 Duncker BP, Davies PL, Walker VK. Increased gene dosage augments antifreeze protein levels in transgenic Drosophila melanogaster Transgenic Research. 8: 45-50. PMID 10399366 DOI: 10.1023/A:1008873906177  0.362
1999 Watson CE, Gauthier SY, Davies PL. Structure and expression of the highly repetitive histone H1-related sperm chromatin proteins from winter flounder. European Journal of Biochemistry / Febs. 262: 258-67. PMID 10336606 DOI: 10.1046/J.1432-1327.1999.00342.X  0.349
1999 Graether SP, Ye Q, Davies PL, Jia Z. Crystallization and preliminary X-ray crystallographic analysis of spruce budworm antifreeze protein. Journal of Structural Biology. 126: 72-5. PMID 10329490 DOI: 10.1006/Jsbi.1999.4087  0.366
1999 Graether SP, DeLuca CI, Baardsnes J, Hill GA, Davies PL, Jia Z. Quantitative and qualitative analysis of type III antifreeze protein structure and function. The Journal of Biological Chemistry. 274: 11842-7. PMID 10207002 DOI: 10.1074/Jbc.274.17.11842  0.445
1999 Loewen MC, Chao H, Houston ME, Baardsnes J, Hodges RS, Kay CM, Sykes BD, Sönnichsen FD, Davies PL. Alternative roles for putative ice-binding residues in type I antifreeze protein Biochemistry. 38: 4743-4749. PMID 10200162 DOI: 10.1021/Bi982602P  0.45
1999 Watson CE, Davies PL. Recent and rapid amplification of the sperm basic nuclear protein genes in winter flounder. Biochimica Et Biophysica Acta. 1444: 337-45. PMID 10095057 DOI: 10.1016/S0167-4781(99)00007-X  0.321
1999 Sönnichsen FD, Davies PL, Sykes BD. NMR structural studies on antifreeze proteins. Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire. 76: 284-93. PMID 9923697 DOI: 10.1139/Bcb-76-2-3-284  0.459
1999 Doucet D, Tyshenko MG, Davies PL, Walker VK. Cloning and characterization of genes encoding an antifreeze protein from the spruce budworm, Choristoneura fumiferana Biochemistry and Cell Biology. 77: 391. DOI: 10.1139/O99-903F  0.342
1998 Loewen MC, Gronwald W, Sönnichsen FD, Sykes BD, Davies PL. The ice-binding site of sea raven antifreeze protein is distinct from the carbohydrate-binding site of the homologous C-type lectin Biochemistry. 37: 17745-17753. PMID 9922140 DOI: 10.1021/Bi9820513  0.488
1998 Gauthier SY, Kay CM, Sykes BD, Walker VK, Davies PL. Disulfide bond mapping and structural characterization of spruce budworm antifreeze protein European Journal of Biochemistry. 258: 445-453. PMID 9874210 DOI: 10.1046/J.1432-1327.1998.2580445.X  0.422
1998 Houston ME, Chao H, Hodges RS, Sykes BD, Kay CM, Sönnichsen FD, Loewen MC, Davies PL. Binding of an oligopeptide to a specific plane of ice. The Journal of Biological Chemistry. 273: 11714-8. PMID 9565593 DOI: 10.1074/Jbc.273.19.11714  0.454
1998 Gronwald W, Loewen MC, Lix B, Daugulis AJ, Sönnichsen FD, Davies PL, Sykes BD. The solution structure of type II antifreeze protein reveals a new member of the lectin family. Biochemistry. 37: 4712-21. PMID 9537986 DOI: 10.1021/Bi972788C  0.385
1998 DeLuca CI, Comley R, Davies PL. Antifreeze proteins bind independently to ice. Biophysical Journal. 74: 1502-8. PMID 9512046 DOI: 10.1016/S0006-3495(98)77862-2  0.481
1998 Watson CE, Davies PL. The high molecular weight chromatin proteins of winter flounder sperm are related to an extreme histone H1 variant. The Journal of Biological Chemistry. 273: 6157-62. PMID 9497335 DOI: 10.1074/Jbc.273.11.6157  0.343
1998 DeLuca CI, Davies PL, Ye Q, Jia Z. The effects of steric mutations on the structure of type III antifreeze protein and its interaction with ice. Journal of Molecular Biology. 275: 515-25. PMID 9466928 DOI: 10.1006/Jmbi.1997.1482  0.467
1998 Davies PL, Sykes BD. Antifreeze proteins. Current Opinion in Structural Biology. 7: 828-34. PMID 9434903 DOI: 10.1016/s0959-440x(97)80154-6  0.337
1998 Loewen MC, Liu X, Davies PL, Daugulis AJ. Biosynthetic production of type II fish antifreeze protein: fermentation by Pichia pastoris. Applied Microbiology and Biotechnology. 48: 480-6. PMID 9390456 DOI: 10.1007/S002530051083  0.42
1998 Sönnichsen FD, Davies PL, Sykes BD. NMR structural studies on antifreeze proteins Biochemistry and Cell Biology. 76: 284-293. DOI: 10.1139/o98-052  0.358
1997 Chao H, Houston ME, Hodges RS, Kay CM, Sykes BD, Loewen MC, Davies PL, Sönnichsen FD. A diminished role for hydrogen bonds in antifreeze protein binding to ice. Biochemistry. 36: 14652-60. PMID 9398184 DOI: 10.1021/Bi970817D  0.421
1997 Rothemund S, Liou YC, Davies PL, Sönnichsen FD. Backbone structure and dynamics of a hemolymph protein from the mealworm beetle Tenebrio molitor. Biochemistry. 36: 13791-801. PMID 9374855 DOI: 10.1021/Bi971529K  0.337
1997 Elce JS, Davies PL, Hegadorn C, Maurice DH, Arthur JS. The effects of truncations of the small subunit on m-calpain activity and heterodimer formation. The Biochemical Journal. 31-8. PMID 9337847 DOI: 10.1042/Bj3260031  0.32
1997 Tyshenko MG, Doucet D, Davies PL, Walker VK. The antifreeze potential of the spruce budworm thermal hysteresis protein Nature Biotechnology. 15: 887-890. PMID 9306405 DOI: 10.1038/Nbt0997-887  0.424
1997 Graham LA, Liou YC, Walker VK, Davies PL. Hyperactive antifreeze protein from beetles [8] Nature. 388: 727-728. PMID 9285581 DOI: 10.1038/41908  0.372
1997 Blanchard H, Grochulski P, Li Y, Arthur JS, Davies PL, Elce JS, Cygler M. Structure of a calpain Ca(2+)-binding domain reveals a novel EF-hand and Ca(2+)-induced conformational changes. Nature Structural Biology. 4: 532-8. PMID 9228945 DOI: 10.1038/Nsb0797-532  0.317
1997 Duncker BP, Davies PL, Walker VK. Introns boost transgene expression in Drosophila melanogaster. Molecular & General Genetics : Mgg. 254: 291-6. PMID 9150263 DOI: 10.1007/S004380050418  0.355
1997 Gronwald W, Chao H, Reddy DV, Davies PL, Sykes BD, Sönnichsen FD. NMR characterization of side chain flexibility and backbone structure in the type I antifreeze protein at near freezing temperatures. Biochemistry. 35: 16698-704. PMID 8988006 DOI: 10.1021/Bi961934W  0.392
1997 Sönnichsen FD, DeLuca CI, Davies PL, Sykes BD. Refined solution structure of type III antifreeze protein: hydrophobic groups may be involved in the energetics of the protein-ice interaction. Structure (London, England : 1993). 4: 1325-37. PMID 8939756 DOI: 10.1016/S0969-2126(96)00140-2  0.457
1997 DeLuca CI, Chao H, Sönnichsen FD, Sykes BD, Davies PL. Effect of type III antifreeze protein dilution and mutation on the growth inhibition of ice. Biophysical Journal. 71: 2346-55. PMID 8913575 DOI: 10.1016/S0006-3495(96)79476-6  0.435
1997 Jia Z, DeLuca CI, Chao H, Davies PL. Correction: Structural basis for the binding of a globular antifreeze protein on ice Nature. 385: 555-555. DOI: 10.1038/385555A0  0.366
1996 Jia Z, DeLuca CI, Chao H, Davies PL. Structural basis for the binding of a globular antifreeze protein to ice. Nature. 384: 285-8. PMID 8918883 DOI: 10.1038/384285A0  0.461
1996 Blanchard H, Li Y, Cygler M, Kay CM, Simon J, Arthur C, Davies PL, Elce JS. Ca(2+)-binding domain VI of rat calpain is a homodimer in solution: hydrodynamic, crystallization and preliminary X-ray diffraction studies. Protein Science : a Publication of the Protein Society. 5: 535-7. PMID 8868491 DOI: 10.1002/Pro.5560050317  0.327
1996 Chao H, Hodges RS, Kay CM, Gauthier SY, Davies PL. A natural variant of type I antifreeze protein with four ice-binding repeats is a particularly potent antifreeze. Protein Science : a Publication of the Protein Society. 5: 1150-6. PMID 8762146 DOI: 10.1002/Pro.5560050617  0.469
1996 Duncker BP, Gauthier SY, Davies PL. Evidence for a proprotein intermediate during maturation of type II antifreeze protein in sea raven, Hemitripterus americanus. Biochimica Et Biophysica Acta. 1292: 312-6. PMID 8597578 DOI: 10.1016/0167-4838(95)00212-X  0.371
1995 Elce JS, Hegadorn C, Gauthier S, Vince JW, Davies PL. Recombinant calpain II: improved expression systems and production of a C105A active-site mutant for crystallography. Protein Engineering. 8: 843-8. PMID 8637855 DOI: 10.1093/Protein/8.8.843  0.326
1995 Duncker BP, Chen CP, Davies PL, Walker VK. Antifreeze protein does not confer cold tolerance to transgenic Drosophila melanogaster. Cryobiology. 32: 521-7. PMID 8556858 DOI: 10.1006/Cryo.1995.1054  0.342
1995 Chao H, Sönnichsen FD, DeLuca CI, Sykes BD, Davies PL. Structure-function relationship in the globular type III antifreeze protein: identification of a cluster of surface residues required for binding to ice. Protein Science : a Publication of the Protein Society. 3: 1760-9. PMID 7849594 DOI: 10.1002/Pro.5560031016  0.414
1995 Heman C, DeLuca CI, Davies PL. Mixing antifreeze protein types changes ice crystal morphology without affecting antifreeze activity. Febs Letters. 357: 183-186. PMID 7805887 DOI: 10.1016/0014-5793(94)01357-7  0.481
1995 Jia Z, DeLuca CI, Davies PL. Crystallization and preliminary X-ray crystallographic studies on Type III antifreeze protein. Protein Science : a Publication of the Protein Society. 4: 1236-8. PMID 7549887 DOI: 10.1002/Pro.5560040621  0.327
1995 Sönnichsen FD, Sykes BD, Davies PL. Comparative modeling of the three-dimensional structure of type II antifreeze protein. Protein Science : a Publication of the Protein Society. 4: 460-71. PMID 7540906 DOI: 10.1002/Pro.5560040313  0.435
1994 Duncker BP, Gauthier SY, Davies PL. Cystine-rich fish antifreeze is produced as an active proprotein precursor in fall armyworm cells. Biochemical and Biophysical Research Communications. 203: 1851-7. PMID 7945337 DOI: 10.1006/Bbrc.1994.2403  0.403
1993 Sönnichsen FD, Sykes BD, Chao H, Davies PL. The nonhelical structure of antifreeze protein type III. Science (New York, N.Y.). 259: 1154-7. PMID 8438165 DOI: 10.1126/Science.8438165  0.417
1993 Chao H, Davies PL, Sykes BD, Sönnichsen FD. Use of proline mutants to help solve the NMR solution structure of type III antifreeze protein. Protein Science : a Publication of the Protein Society. 2: 1411-28. PMID 8401227 DOI: 10.1002/Pro.5560020906  0.404
1993 DeLuca CI, Davies PL, Samis JA, Elce JS. Molecular cloning and bacterial expression of cDNA for rat calpain II 80 kDa subunit. Biochimica Et Biophysica Acta. 1216: 81-93. PMID 8218419 DOI: 10.1016/0167-4781(93)90040-K  0.309
1993 Peters ID, Rancourt DE, Davies PL, Walker VK. Isolation and characterization of an antifreeze protein precursor from transgenic Drosophila: evidence for partial processing. Biochimica Et Biophysica Acta. 1171: 247-54. PMID 8093842 DOI: 10.1016/0167-4781(93)90062-I  0.383
1992 Rancourt DE, Davies PL, Walker VK. Differential translatability of antifreeze protein mRNAs in a transgenic host. Biochimica Et Biophysica Acta. 1129: 188-94. PMID 1730058 DOI: 10.1016/0167-4781(92)90486-J  0.348
1992 Davies PL, Gauthier SY. Antifreeze protein pseudogenes. Gene. 112: 171-8. PMID 1555766 DOI: 10.1016/0378-1119(92)90373-W  0.303
1990 Gauthier S, Wu YL, Davies PL. Nucleotide sequence of a variant antifreeze protein gene. Nucleic Acids Research. 18: 5303. PMID 2402466 DOI: 10.1093/Nar/18.17.5303  0.341
1990 Davies PL, Hew CL. Biochemistry of fish antifreeze proteins Faseb Journal. 4: 2460-2468. PMID 2185972 DOI: 10.1096/Fasebj.4.8.2185972  0.425
1990 Rancourt DE, Peters ID, Walker VK, Davies PL. Wolffish antifreeze protein from transgenic Drosophila. Bio/Technology (Nature Publishing Company). 8: 453-7. PMID 1367435 DOI: 10.1038/Nbt0590-453  0.359
1989 Scott GK, Hayes PH, Fletcher GL, Davies PL. Wolffish antifreeze protein genes are primarily organized as tandem repeats that each contain two genes in inverted orientation. Molecular and Cellular Biology. 8: 3670-5. PMID 2851724 DOI: 10.1128/mcb.8.9.3670-3675.1988  0.346
1989 Peters ID, Hew CL, Davies PL. Biosynthesis of winter flounder antifreeze proprotein in E.coli Protein Engineering, Design and Selection. 3: 145-151. PMID 2687848 DOI: 10.1093/Protein/3.2.145  0.34
1988 Hew CL, Wang NC, Joshi S, Fletcher GL, Scott GK, Hayes PH, Buettner B, Davies PL. Multiple genes provide the basis for antifreeze protein diversity and dosage in the ocean pout, Macrozoarces americanus Journal of Biological Chemistry. 263: 12049-12055. PMID 3403560  0.354
1988 Young DC, Davies PL. Repeated sequence elements in the high molecular weight basic nuclear proteins from the winter flounder. Biochemistry and Cell Biology = Biochimie Et Biologie Cellulaire. 65: 909-16. PMID 3328981 DOI: 10.1139/O87-117  0.366
1988 Scott GK, Davies PL, Kao MH, Fletcher GL. Differential amplification of antifreeze protein genes in the pleuronectinae. Journal of Molecular Evolution. 27: 29-35. PMID 3133486 DOI: 10.1007/Bf02099727  0.336
1988 Davies PL, Hew CL, Fletcher GL. Fish antifreeze proteins: physiology and evolutionary biology Canadian Journal of Zoology. 66: 2611-2617. DOI: 10.1139/Z88-385  0.398
1988 Fletcher GL, Shears MA, King MJ, Davies PL, Hew CL. Evidence for Antifreeze Protein Gene Transfer in Atlantic Salmon (Salmo salar) Canadian Journal of Fisheries and Aquatic Sciences. 45: 352-357. DOI: 10.1139/F88-042  0.337
1987 Scott GK, Davies PL, Shears MA, Fletcher GL. Structural variations in the alanine-rich antifreeze proteins of the pleuronectinae. European Journal of Biochemistry / Febs. 168: 629-33. PMID 3665937 DOI: 10.1111/J.1432-1033.1987.Tb13462.X  0.464
1986 Scott GK, Fletcher GL, Davies PL. Fish Antifreeze Proteins: Recent Gene Evolution Canadian Journal of Fisheries and Aquatic Sciences. 43: 1028-1034. DOI: 10.1139/F86-128  0.372
1985 Scott GK, Hew CL, Davies PL. Antifreeze protein genes are tandemly linked and clustered in the genome of the winter flounder Proceedings of the National Academy of Sciences of the United States of America. 82: 2613-2617. PMID 3857603 DOI: 10.1073/Pnas.82.9.2613  0.328
1985 Li XM, Trinh KY, Hew CL, Buettner B, Baenziger J, Davies PL. Structure of an antifreeze polypeptide and its precursor from the ocean pout, Macrozoarces americanus Journal of Biological Chemistry. 260: 12904-12909. PMID 3840475  0.586
1985 Flynn TG, Davies PL, Kennedy BP, de Bold ML, de Bold AJ. Alignment of rat cardionatrin sequences with the preprocardionatrin sequence from complementary DNA. Science (New York, N.Y.). 228: 323-5. PMID 3157217 DOI: 10.1126/Science.3157217  0.3
1984 Pickett M, Scott G, Davies P, Wang N, Joshi S, Hew C. Sequence of an antifreeze protein precursor. European Journal of Biochemistry. 143: 35-8. PMID 6547905 DOI: 10.1111/J.1432-1033.1984.Tb08335.X  0.378
1984 Kennedy BP, Marsden JJ, Flynn TG, de Bold AJ, Davies PL. Isolation and nucleotide sequence of a cloned cardionatrin cDNA Biochemical and Biophysical Research Communications. 122: 1076-1082. PMID 6236804 DOI: 10.1016/0006-291X(84)91201-4  0.305
1983 Pickett MH, Hew CL, Davies PL. Seasonal variation in the level of antifreeze protein mRNA from the winter flounder Bba - Gene Structure and Expression. 739: 97-104. PMID 6830805 DOI: 10.1016/0167-4781(83)90049-0  0.334
1983 Speckert W, Kennedy B, Daisley SL, Davies P. Primary structure of protamine from the Northern pike Esox lucius Febs Journal. 136: 283-289. PMID 6628381 DOI: 10.1111/J.1432-1033.1983.Tb07739.X  0.358
1982 Davies PL, Roach AH, Hew CL. DNA sequence coding for an antifreeze protein precursor from winter flounder. Proceedings of the National Academy of Sciences of the United States of America. 79: 335-9. PMID 6952188 DOI: 10.1073/Pnas.79.2.335  0.392
1979 Davies PL, van de Sande JH, Dixon GH. Base compositional analysis of nanogram quantities of unlabeled nucleic acids Analytical Biochemistry. 93: 26-30. PMID 434467 DOI: 10.1016/S0003-2697(79)80111-6  0.445
1979 Davies PL, Dixon GH, Simoncsits A, Brownlee GC. Sequences of large T1 ribonuclease-resistant oligoribonucleotides from protamine mRNA: the overall architecture of protamine mRNA. Nucleic Acids Research. 7: 2323-45. PMID 118437 DOI: 10.1093/nar/7.8.2323  0.487
1979 Davies PL, Dixon GH, Dugaiczyk A. Double-stranded protamine cDNA: synthesis and characterization Canadian Journal of Biochemistry. 57: 259-266. PMID 86381 DOI: 10.1139/O79-033  0.52
1977 Gedamu L, Dixon GH, Davies PL. Identification and isolation of protamine messenger ribonucleoprotein particles from rainbow trout testis Biochemistry. 16: 1383-1391. PMID 849423 DOI: 10.1021/Bi00626A023  0.459
1977 Davies PL, Ferrier LN, Dixon GH. Sequence analysis of protamine mRNA from the rainbow trout. Depurination and nearest neighbor analysis of protamine cDNA Journal of Biological Chemistry. 252: 1386-1393. PMID 838721  0.491
1977 Ferrier LN, Davies PL, Dixon GH. Protamine messenger RNA from rainbow trout testis contains the nucleotide sequence A-A-U-A-A-A in an untranslated region Bba Section Nucleic Acids and Protein Synthesis. 479: 460-470. PMID 72566 DOI: 10.1016/0005-2787(77)90039-9  0.474
1976 Davies PL, Dixon GH, Ferrier LN, Gedamu L, Iatrou K. The structure and function of protamine mRNA from developing trout testis Progress in Nucleic Acid Research and Molecular Biology. 19: 135-155. PMID 798239 DOI: 10.1016/S0079-6603(08)60915-0  0.509
1973 Bragg P, Davies P, Hou C. Effect of removal or modification of subunit polypeptides on the coupling factor and hydrolytic activities of the Ca2+ and Mg2+-activated adenosine triphosphatase of Escherichia coli Archives of Biochemistry and Biophysics. 159: 664-670. DOI: 10.1016/0003-9861(73)90505-5  0.513
1972 Bragg PD, Davies PL, Hou C. Function of energy-dependent transhydrogenase in Escherichia coli. Biochemical and Biophysical Research Communications. 47: 1248-55. PMID 4337747 DOI: 10.1016/0006-291X(72)90969-2  0.499
1972 Davies PL, Bragg PD. Properties of a soluble Ca 2+ - and Mg 2+ -activated ATPase released from Escherichia coli membranes. Biochimica Et Biophysica Acta. 266: 273-84. PMID 4261173 DOI: 10.1016/0005-2736(72)90142-3  0.502
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