# Boolean network model of the control of flower morphogenesis in Arabidobis thaliana 
# "From Genes to Flower Patterns and Evolution: Dynamic Models of Gene Regulatory Networks"
# A. Chaos, M. Aldana, C. Espinosa-Soto, B. G. P. de Leon, A. G. Arroyo, E. R. Alvarez-Buylla,
# Journal of Plant Growth Regulation, vol. 25, n. 4, 2006, pp. 278-289
# The functions associated to nodes are minimized

#total number of nodes 
.v 15

# labels of nodes and name of corresponding genes
# 1 = AP3
# 2 = UFO
# 3 = FUL
# 4 = FT
# 5 = AP1
# 6 = EMF1
# 7 = LFY
# 8 = AP2
# 9 = WUS
# 10 = AG
# 11 = LUG
# 12 = CLF
# 13 = TFL1
# 14 = PI
# 15 = SEP

# As a result of simulation, we get the following 10 single-point attractors:
# 101100110111011 
# 110110110011011 
# 100110110011011 
# 111100110111011 
# 010001000011100 
# 010001001011100 
# 001100110111011 
# 000110110011001 
# 000001000011100 
# 000001001011100 

# 1 = AP3
.n 1 7 5 7 10 14 15 1 2
--1111- 1
1--111- 1
-1----1 1
-0-0--- 0
-0--0-- 0
-0---0- 0
---0--0 0
----0-0 0
-----00 0
000---- 0
0-0---0 0

# 2 = UFO
.n 2 1 2
1 1
0 0

# 3 = FUL
.n 3 2 5 13
00 1
1- 0
-1 0

# 4 = FT
.n 4 1 6
0 1
1 0

# 5 = AP1
.n 5 4 4 7 10 13
--00 1
-10- 1
1-0- 1
00-1 0
--1- 0

# 6 = EMF1
.n 6 1 7
0 1
1 0

# 7 = LFY
.n 7 4 3 5 6 13
---0 1
--0- 1
--11 0

# 8 = AP2
.n 8 1 13
0 1
1 0
 
# 9 = WUS
.n 9 3 9 10 15
1-0 1
10- 1
-11 0
0-- 0

# 10 = AG
.n 10 9 5 7 8 9 10 11 12 13 15
-1--1---1 1
--0----0- 1
-1----0-- 1
-1---0--- 1
-1-1----- 1
01------- 1
-10------ 1
-01------ 0
-0-----1- 0
1-10011-- 0
1-10-11-0 0

# 11 = LUG
.n 11 0
1

# 12 = CLF
.n 12 0
1

# 13 = TFL1
.n 13 4 5 6 7 8
010- 1
1--- 0
-0-- 0
--1- 0

# 14 = PI
.n 14 6 5 7 10 14 15 1
1--111 1
--1111 1
-11--- 1
-1---1 1
-0-0-- 0
-0--0- 0
-0---0 0
--0--0 0
000--- 0

# 15 = SEP
.n 15 1 7
1 1
0 0