Table 2 Summary of global properties for the 16 designs in the general class of two-gene circuits

Design identifier	Indices for the mode of control ^a	Phenotypic fraction ^b	No. of oscillatory phenotypes
D.1	π₁=0, δ₁=0, π₃=0, δ₃=0	6/16	0
D.2	π₁=0, δ₁=1, π₃=0, δ₃=0	10/36	0
D.3	π₁=0, δ₁=0, π₃=0, δ₃=1	15/36	1
D.4	π₁=0, δ₁=1, π₃=0, δ₃=1	25/81	2
D.5	π₁=1, δ₁=0, π₃=0, δ₃=0	4/16	0
D.6	π₁=1, δ₁=1, π₃=0, δ₃=0	10/36	0
D.7	π₁=1, δ₁=0, π₃=0, δ₃=1	10/36	0
D.8	π₁=1, δ₁=1, π₃=0, δ₃=1	25/81	1
D.9	π₁=0, δ₁=0, π₃=1, δ₃=0	9/16	1
D.10	π₁=0, δ₁=1, π₃=1, δ₃=0	15/36	2
D.11	π₁=0, δ₁=0, π₃=1, δ₃=1	15/36	2
D.12	π₁=0, δ₁=1, π₃=1, δ₃=1	25/81	4
D.13	π₁=1, δ₁=0, π₃=1, δ₃=0	6/16	0
D.14	π₁=1, δ₁=1, π₃=1, δ₃=0	15/36	1
D.15	π₁=1, δ₁=0, π₃=1, δ₃=1	10/36	0
D.16	π₁=1, δ₁=1, π₃=1, δ₃=1	25/81	2

^aThe meaning of the π and δ symbols is described in the caption of Figure 1.
^bThe phenotypic fraction is shown as the number of valid phenotypes divided by the maximum number of potential phenotypes.

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