Institute for Advanced Biosciences, Keio UniversityInstitute for Advanced Biosciences, Keio University

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Douglas Murray

Project Associate Professor
Institute for Advanced Biosciences
Keio University

Contact:
dougie <at> ttck.keio.ac.jp
Institute for Advanced Biosciences
403-1 Daihoji, Tsuruoka, Yamagata
997-0017 Japan
Tel: Fax: +81-235-29-0529

Research

Publications

1. Murray, D.B. and Lloyd, D., A tuneable attractor underlies yeast respiratory dynamics. Biosystems, 2007. 90(1): p. 287-94.

2. Murray, D.B., Beckmann, M., and Kitano, H., Regulation of yeast oscillatory dynamics. Proceedings of the National Academy of Sciences, USA, 2007. 104(7): p. 2241-6.

3. Lloyd, D. and Murray, D.B., Redox rhythmicity: clocks at the core of temporal coherence. Bioessays, 2007. 29(5): p. 465-73.

4. Lloyd, D. and Murray, D.B., The temporal architecture of eukaryotic growth. FEBS Letters, 2006. 580(12): p. 2830-5.

5. Lloyd, D. and Murray, D.B., Ultradian metronome: timekeeper for orchestration of cellular coherence. Trends Biochemical Sciences, 2005. 30(7): p. 373-7.

6. Knowles, J.R., Roller, S., Murray, D.B., and Naidu, A.S., Antimicrobial action of carvacrol at different stages of dual-species biofilm development by Staphylococcus aureus and Salmonella enterica serovar Typhimurium. Applied and Environmental Microbiology, 2005. 71(2): p. 797-803.

7. Murray, D.B., On the Temporal Self-Organisation of Saccharomyces cerevisiae. Current Genomics, 2004. 5(8): p. 665-671.

8. Lloyd, D., Lloyd, A., Olsen, L.F., Stolyarov, M.N., Volkov, E.I., and Murray, D.B., Ultradian clock timekeeping: periodic, quasiperiodic and chaotic outputs. WSEAS Transactions on Biology and Biomedicine, 2004. 1(3): p. 390-395.

9. Klevecz, R.R., Bolen, J., Forrest, G., and Murray, D.B., A genomewide oscillation in transcription gates DNA replication and cell cycle. Proceedings of the National Academy of Sciences, USA, 2004. 101(5): p. 1200-5.

10. Murray, D.B., Klevecz, R.R., and Lloyd, D., Generation and maintenance of synchrony in Saccharomyces cerevisiae. Experimental Cell Research, 2003. 287(1): p. 10-5. continuous culture

11. Lloyd, D., Lemar, K.M., Salgado, L.E., Gould, T.M., and Murray, D.B., Respiratory oscillations in yeast: mitochondrial reactive oxygen species, apoptosis and time; a hypothesis. FEMS Yeast Research, 2003. 3(4): p. 333-9.

12. Adams, C.A., Kuriyama, H., Lloyd, D., and Murray, D.B., The Gts1 protein stabilizes the autonomous oscillator in yeast. Yeast, 2003. 20(6): p. 463-70.

13. Salgado, J., Suller, M.T., Murray, D.B., and Lloyd, D., Some Antidepressant Agents (Li+, Monoamine Oxidase Type ASaccharomyces cerevisiae. Biological Rhythm Research, 2002. 33(3): p. 351-361.

14. Lloyd, D., Salgado, L.E., Turner, M.P., Suller, M.T., and Murray, D., Cycles of mitochondrial energization driven by the ultradian clock in a continuous culture of Saccharomyces cerevisiae. Microbiology, 2002. 148(11): p. 3715-24.

15. Lloyd, D., Eshantha, L., Salgado, J., Turner, M.P., and Murray, D.B., Respiratory oscillations in yeast: clock-driven mitochondrial cycles of energization. FEBS Letters, 2002. 519(1-3): p. 41-4.

16. Murray, D.B., Roller, S., Kuriyama, H., and Lloyd, D., Clock control of ultradian respiratory oscillation found during yeast continuous culture. Journal of Bacteriology, 2001. 183(24): p. 7253-9.

17. Klevecz, R.R. and Murray, D.B., Genome wide oscillations in expression. Wavelet analysis of time series data from yeast expression arrays uncovers the dynamic architecture of phenotype. Molecular Biology Reports, 2001. 28(2): p. 73-82.

18. ·Murray, D.B., Engelen, F., Lloyd, D., and Kuriyama, H., Involvement of glutathione in the regulation of respiratory oscillation during a continuous culture of Saccharomyces cerevisiae. Microbiology, 1999. 145: p. 2739-45.

19. Murray, D.B., Engelen, F.A., Keulers, M., Kuriyama, H., and Lloyd, D., NO+, but not NO., inhibits respiratory oscillations in ethanol-grown chemostat cultures of Saccharomyces cerevisiae. FEBS Letters, 1998. 431(2): p. 297-9.

20. Murray, D.B., Engelen, F.A., Keulers, M., Kuriyama, H., and Lloyd, D., NO+, but not NO., inhibits respiratory oscillations in ethanol-grown chemostat cultures of Saccharomyces cerevisiae. Biochemical Society Transactions, 1998. 26(4): p. S339.

21. Murray, D.B., Hayashida, Y., and Nishimura, K., Trehalose analysis using ion exchange HPLC coupled with electrochemical detection. Biotechnology Techniques, 1997. 11(4): p. 269-270.

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