Table 1 Fittings parameters using Hill equations for transfer functions of receiver and sender circuits.

From: Synthetic neural-like computing in microbial consortia for pattern recognition

 

Kd

β0

βm

n

R_PF

0.28 μM

3.95E−02

2.25E+04

1.97

R_OL

3.41 μM

7.23E−03

2.57E+04

0.809

S_mut40

15 μM

4.95E−03

5521

0.352

S_mut7

50 μM

9.1E−02

1906

0.482

S_mut8

50 μM

1.91E−01

729

0.54

S_mut15

50 μM

4.45E−02

2679

0.426

S_plux_rep

0.252 μM

3.41E−01

735

0.669

R_mCh

1103

1.95E−02

2.16E04

2.33

  1. R_PF: the transfer function of receiver circuits with positive feedback (Fig. 2d).
  2. R_OL: the transfer function of receiver circuits with open loop (Fig. 2d).
  3. Row S_mut40 - S_mut15: transfer functions of activator senders with mutated Plux (Fig. 2e).
  4. Row S_plux_rep: transfer functions of Plux repressor senders (Fig. 2e).
  5. Row R_mCh: transfer function of receiver circuits with horizontal axis as mCherry levels (Fig. 4c).
Back to article page