Mitotic-exit control as an evolved complex system

Cell

Volumn 121, Issue 3, 2005, Pages 325-333

  Bosl, William J ^a,b   Li, Rong ^c  

^a UNIVERSITY OF CALIFORNIA   (United States)

^b LAWRENCE LIVERMORE NATIONAL LABORATORY   (United States)

^c HARVARD MEDICAL SCHOOL   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

BIOENGINEERING; CELL CYCLE; CELL DIVISION; ELECTRONICS; GENE INTERACTION; MEDICAL DECISION MAKING; MITOSIS; MOLECULAR EVOLUTION; PRIORITY JOURNAL; REGULATORY MECHANISM; REVIEW; YEAST;

EID: 18844422454     PISSN: 00928674     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cell.2005.04.006     Document Type: Review

References (53)

1. U. Alon Biological networks: the tinkerer as an engineer Science 301 2003 1866 1867
2. E.K. Antonsson, and J. Cagan Formal Engineering Design Synthesis 2001 Cambridge University Press Cambridge, United Kingdom
3. Antonsson, E.K., Zhang, Y., and Martinoli, A. (2003). Evolving Engineering Design Trade-offs. Paper presented at DETC'03 ASME 2003 Design Engineering Technical Conferences and Computers and Information in Engineering Conference (Chicago, Illinois). http://www.design.caltech.edu/∼yizhen/ papers/dtm48676.pdf.
4. R. Azzam, S.L. Chen, W. Shou, A.S. Mah, G. Alexandru, K. Nasmyth, R.S. Annan, S.A. Carr, and R.J. Deshaies Phosphorylation by cyclin B-Cdk underlies release of mitotic exit activator Cdc14 from the nucleolus Science 305 2004 516 519
5. Bar-Yam, Y. (2003). When systems engineering fails - Toward complex systems engineering. International Conference on Systems, Man & Cybernetics. IEEE Press 2, 2021-2028.
6. A.J. Bardin, R. Visintin, and A. Amon A mechanism for coupling exit from mitosis to partitioning of the nucleus Cell 102 2000 21 31
7. A. Becskei, and L. Serrano Engineering stability in gene networks by autoregulation Nature 405 2000 590 593
8. P. Bentley Evolutionary Design by Computers 1999 Morgan Kaufmann Publishers San Francisco
9. T. Berners-Lee Weaving the Web 2000 HarperInformation New York
10. A. Bloecher, G.M. Venturi, and K. Tatchell Anaphase spindle position is monitored by the BUB2 checkpoint Nat. Cell Biol. 2 2000 556 558
11. H.R. Bourne GTPases: a family of molecular switches and clocks Philos. Trans. R. Soc. Lond. B Biol. Sci. 349 1995 283 289
12. D. D'Amours, and A. Amon At the interface between signaling and executing anaphase-Cdc14 and the FEAR network Genes Dev. 18 2004 2581 2595
13. D. D'Amours, F. Stegmeier, and A. Amon Cdc14 and condensin control the dissolution of cohesin-independent chromosome linkages at repeated DNA Cell 117 2004 455 469
14. M. Geymonat, S. Jensen, and L.H. Johnston Mitotic exit: the Cdc14 double cross Curr. Biol. 12 2002 R482 R484
15. M. Geymonat, A. Spanos, S.J. Smith, E. Wheatley, K. Rittinger, L.H. Johnston, and S.G. Sedgwick Control of mitotic exit in budding yeast. In vitro regulation of Tem1 GTPase by Bub2 and Bfa1 J. Biol. Chem. 277 2002 28439 28445
16. M. Geymonat, A. Spanos, P.A. Walker, L.H. Johnston, and S.G. Sedgwick In vitro regulation of budding yeast Bfa1/Bub2 GAP activity by Cdc5 J. Biol. Chem. 278 2003 14591 14594
17. M. Hartmann, and P.C. Haddow Evolution of fault-tolerant and noise-robust digital designs IEEE Proc. Comput. Digit. Tech. 151 2004 287 294
18. Hartmann, M., Eskelund, F., Haddow, P.C., and Miller, J.F. (2002). Evolving Fault Tolerance on an Unreliable Technology Platform. Paper presented at 4th Genetic and Evolutionary Computation Conference (New York). http://www.idi.ntnu.no/∼mortehar/publications/gecco2002.pdf.
19. L.H. Hartwell, J.J. Hopfield, S. Leibler, and A.W. Murray From molecular to modular cell biology Nature 402 1999 C47 C52
20. T. Hofken, and E. Schiebel A role for cell polarity proteins in mitotic exit EMBO J. 21 2002 4851 4862
21. T. Hofken, and E. Schiebel Novel regulation of mitotic exit by the Cdc42 effectors Gic1 and Gic2 J. Cell Biol. 164 2004 219 231
22. J. Holland Hidden Order: How Adaptation Builds Complexity 1995 Addison-Wesley Publishing Co. New York
23. F. Hu, Y. Wang, D. Liu, Y. Li, J. Qin, and S.J. Elledge Regulation of the Bub2/Bfa1 GAP complex by Cdc5 and cell cycle checkpoints Cell 107 2001 655 665
24. T.C. Huffaker, J.H. Thomas, and D. Botstein Diverse effects of beta-tubulin mutations on microtubule formation and function J. Cell Biol. 106 1988 1997 2010
25. N.T. Ingolia, and A.W. Murray The ups and downs of modeling the cell cycle Curr. Biol. 14 2004 R771 R777
26. S.L. Jaspersen, and D.O. Morgan Cdc14 activates cdc15 to promote mitotic exit in budding yeast Curr. Biol. 10 2000 615 618
27. S. Jensen, M. Geymonat, A.L. Johnson, M. Segal, and L.H. Johnston Spatial regulation of the guanine nucleotide exchange factor Lte1 in Saccharomyces cerevisiae J. Cell Sci. 115 2002 4977 4991
28. D. McCollum, and K.L. Gould Timing is everything: regulation of mitotic exit and cytokinesis by the MEN and SIN Trends Cell Biol. 11 2001 89 95
29. S. Mitra, N.R. Saxena, and E.J. McCluskey A design diversity metric and analysis of redundant systems IEEE Trans. Comput. 51 2002 498 510
30. J.N. Molk, S.C. Schuyler, J.Y. Liu, J.G. Evans, E.D. Salmon, D. Pellman, and K. Bloom The differential roles of budding yeast Tem1p, Cdc15p, and Bub2p protein dynamics in mitotic exit Mol. Biol. Cell 15 2004 1519 1532
31. D.O. Morgan Regulation of the APC and the exit from mitosis Nat. Cell Biol. 1 1999 E47 E53
32. A.W. Murray Recycling the cell cycle: cyclins revisited Cell 116 2004 221 234
33. G. Pereira, C. Manson, J. Grindlay, and E. Schiebel Regulation of the Bfa1p-Bub2p complex at spindle pole bodies by the cell cycle phosphatase Cdc14p J. Cell Biol. 157 2002 367 379
34. S. Prinz, and A. Amon Dual control of mitotic exit Nature 402 1999 133 135
35. D. Pruyne, A. Legesse-Miller, L. Gao, Y. Dong, and A. Bretscher Mechanisms of polarized growth and organelle segregation in yeast Annu. Rev. Cell Dev. Biol. 20 2004 559 591
36. K.L. Richards, K.R. Anders, E. Nogales, K. Schwartz, K.H. Downing, and D. Botstein Structure-function relationships in yeast tubulins Mol. Biol. Cell 11 2000 1887 1903
37. F. Roegiers, and Y.N. Jan Asymmetric cell division Curr. Opin. Cell Biol. 16 2004 195 205
38. Schmid, A. and Leblebici, Y. (2004). Robust and Fault-Tolerant Circuit Design for Nanometer-Scale Devices and Single-Electron Transistors. Paper presented at 2004 IEEE International Symposium on Circuits and Systems (Vacouver, Canada). http://lsmwww.epfl.ch/Publications/Papers/iscas04n02.pdf.
39. A. Seshan, and A. Amon Linked for life: temporal and spatial coordination of late mitotic events Curr. Opin. Cell Biol. 16 2004 41 48
40. A. Seshan, A.J. Bardin, and A. Amon Control of Lte1 localization by cell polarity determinants and Cdc14 Curr. Biol. 12 2002 2098 2110
41. V. Simanis The mitotic exit and septation initiation networks J. Cell Sci. 116 2003 4261 4262
42. F. Stegmeier, R. Visintin, and A. Amon Separase, polo kinase, the kinetochore protein Slk19, and Spo12 function in a network that controls Cdc14 localization during early anaphase Cell 108 2002 207 220
43. Thompson, A. (1997). Temperature in Natural and Artificial Systems. Paper presented at 4th Eur. Conf. on Artificial Life (ECAL97) (Cambridge, MA: MIT Press). http://www.informatics.sussex.ac.uk/users/adrianth/er97/paper.ps.
44. Thompson, A. (1996). Evolutionary Techniques for Fault Tolerance. Proc. UKACC Int. Conf. on Control (CONTROL'96), IEEE Conference Publication 427, 693-698. http://www.informatics.sussex.ac.uk/users/adrianth/control96/paper.ps.
45. Thompson, A. (1998). On the Automatic Design of Robust Electronics Through Artificial Evolution. Paper presented at ICES'98 (Springer-Verlag). http://www.informatics.sussex.ac.uk/users/avdrianth/ices98/paper.ps.
46. A. Thompson, and P. Layzell Analysis of unconventional evolved electronics Commun. ACM 42 1999 71 79
47. Thompson, A., and Layzell, P. (1999b). Evolutionary Design for Novel Technologies. Paper presented at IEEE Colloquium on Evolutionary Hardware Systems (London). http://www.informatics.sussex.ac.uk/users/adrianth/cacm99/ paper.ps.
48. A. Thompson, and C. Wasshuber Design of single-electron systems through artificial evolution Int. J. Circ. Theor. Appl. 28 2000 585 599
49. J. Torres-Rosell, F. Machin, and L. Aragon Cdc14 and the temporal coordination between mitotic exit and chromosome segregation Cell Cycle 4 2005 109 112
50. J.H. Toyn, and L.H. Johnston Spo12 is a limiting factor that interacts with the cell cycle protein kinases Dbf2 and Dbf20, which are involved in mitotic chromatid disjunction Genetics 135 1993 963 971
51. Tyrrell, A.M., Hollingsworth, G., and Smith, S.L. (2001). Evolutionary Strategies and Intrinsic Fault Tolerance. Paper presented at The Third NASA/DoD Workshop on Evolvable Hardware (Long Beach, CA). http://www.elec.york.ac.uk/bio/ publications/amt-nasa2001.pdf.
52. R. Visintin, F. Stegmeier, and A. Amon The role of the polo kinase Cdc5 in controlling Cdc14 localization Mol. Biol. Cell 14 2003 4486 4498
53. S. Yoshida, R. Ichihashi, and A. Toh-e Ras recruits mitotic exit regulator Lte1 to the bud cortex in budding yeast J. Cell Biol. 161 2003 889 897