References

1

Adams, J., Rothman, E.D. and Beran, K. (1981), The age structure of populations of Saccharomyces cerevisiae Math. Biosci., 53, pp. 249-263.

2

Amon, A., Tyers, M., Futcher, B. and Nasmyth, K. (1993), Mechanisms that help the yeast cell cycle clock tick: G2 cyclins transcriptionally activate G2 cyclins and repress G1 cyclins. Cell, 74, pp. 993-1007.

3

Amon, A., Irniger, S. and Nasmyth, K. (1994), Closing the cell cycel circle in yeast: G2 cyclin proteolysis initiated at mitosis persists until the activation of G1 cyclins in the next cycle. Cell, 77, pp. 1037-1050.

4

Andrews, B.J. and Herskowitz, I. (1989), The yeast SWI4 protein contains a motif present in developmental regulators and is part of a complex involved in cell cycle dependent transcription. Nature, 342:830-833.

5

Epstein, C.B. and Cross, F.R. (1994), Genes that can bypass the CLN requirement for Saccharomyces cerevisiae cell cycle START. Molec. Cell Biol., 14, pp. 2041-2047

6

Gani, J. and Saunders, I.W. (1977), Fitting a growth model to the growth of yeast colonies. Biometrics 33, pp. 113-120.

7

Goldbeter, A. (1993), Modelling the mitotic oscillator driving the cell division cycle. Comm. Theor. Biol., 3, pp. 75-107

8

Gyllenberg, M. (1986), The size and scar distributions of the yeast Saccharomyces cerevisiae. J.Math. Biol., 24, pp. 81-101.

9

Hartwell, L.H. and Unger, M.W. (1977), Unequal division in Saccharomyces cerevisiae and its implication for the control of cell division. J. Cell Biol., 75, pp. 422-435.

10

Johnston, G.C., Pringle, J.R. and Hartwell, L.H. (1977), Coordination of growth with cell division in the yeast Saccharomyces cerevisiae. Exp. Cell. Res., 105, pp. 79-98.

11

Johnston, G.C., Ehrhardt, C.W. Lorincz, A., and Carter, B.A. (1979), Regulation of cell size in the yeast Saccharomyces cerevisiae. J. Bacteriol, 137, pp. 1-5.

12

Koch, C. and Nasmyth, K. (1994), Cell cycle regulated transcription in yeast. Curr. Opin. Cell. Biol., 6, pp. 451-459.

13

Kron, S. J., Styles, C. A. and Fink, G.R. (1994), Symmetric cell division in pseudohyphae of the yeast Saccharomyces cerevisiae. Mol. Biol. Cell, 5, pp. 1003-1022.

14

Lord P.G. and Wheals, A.E. (1981), Variability in individual cell cycles of Saccharomyces cerevisiae. J. Cell. Sci., 50, pp. 361-376.

15

Metz, J.A.J. and O. Diekmann (eds.) (1986), The dynamics of physiologically structured populations. Lecture Notes in Biomathematics, 68. Springer-Verlag.

16

Nash, R., Tokiwa, G., Anand, S., Erickson, E. and Futcher, A.B. (1988), The WHI1 gene of Saccharomyces cerevisiae tethers cell division to cell size and is a cyclin homolog. EMBO J., 7, pp. 4335-4346.

17

Nasmyth, K. and Dirick, L. (1991), The role of SWI4 and SWI6 in the activity of G1 cyclins in yeast. Cell, 66, pp. 995-1013.

18

Norel, R. and Agur, Z. (1991), A model for the adjusment of mitotic clock by cyclin and and MPF levels. Science, 251, pp. 1076-1078.

19

Novak B. and Tyson, J.J. (1995), Quantitative analysis of a Molecular Model of Mitotic Control in fission yeast. J. theor. biol., 173, pp. 283-305.

20

Richardson, H.E., Wittenberg, C., Cross, F. and Reed, S.I. (1989), An essential G1 function for cyclin-like proteins in yeasts. Cell, 57, pp. 295-303.

21

De Roos, A.M., O. Diekmann and Metz, J.A.J. (1990), Studying the dynamics of structured populations, pp. A versatile technique and its application to Daphnia. Amer. Nat., 139, pp. 123-147.

22

Smith , J.A. and Martin, L. (1973), Do cells cycle? Proc. Nat. Acad. Sci. USA., 70, pp. 1263-1267.

23

Thron, C.D. (1991), Mathematical analysis of a model of the mitotic clock. Science, 254, pp. 122-123

24

Tyers, M., Tokiwa, G., Dahmann, C., Nash, R., Linskens, M. and Futcher, B. (1991), Charactirazation of G1 and mitotic cyclins of budding yeast. Cold Spring Harb. Symp. Quant. Biol., 56, pp. 21-32