A model of one biological 2-cells complex
28
A model of one biological 2-cells complex Akinshin A.A., Golubyatnikov V.P. Sobolev Institute of Mathematics SB RAS, Bukharina T.A., Furman D.P. Institute of Cytology and Genetics SB RAS 1
-
Upload
kenyon-craft -
Category
Documents
-
view
27 -
download
0
description
A model of one biological 2-cells complex. Akinshin A.A., Golubyatnikov V.P. Sobolev Institute of Mathematics SB RAS, Bukharina T.A., Furman D.P. Institute of Cytology and Genetics SB RAS Novosibirsk , 24 September , Geometry Days -2014. - PowerPoint PPT Presentation
Transcript of A model of one biological 2-cells complex
A model of one biological 2-cells complex
Akinshin A.A., Golubyatnikov V.P. Sobolev Institute of Mathematics SB RAS,
Bukharina T.A., Furman D.P.Institute of Cytology and Genetics SB RAS
Novosibirsk, 24 September, Geometry Days-2014
1
S.Smale “A mathematical model of two cells via Turing’s equation”, AMS, Lectures in Applied Mathematics, v. 6, 1977.
Each of these 4-dim variables describes one of two cells in a cell complex. Smale has shown that for some nice values of parameters this system can have non-trivial cycles, though its restriction to any cell has just a stable equilibrium point. .
.
2
).()(/
);()(/
2122
1211
zzzRdtdz
zzzRdtdz
., 4
21 Rzz ., 421 Rzz
21, zzcorrespond to concentrations of species in these two cells. This model is quite hypothetical.
3
negative feedbacks N ···◄ (AS-C).positive feedbacks (AS-C) → Dl ;
Two cells complex in a natural gene network:
4
;)( iii xzftd
xd ;)( ii
i yxtd
yd
i=1, 2; xi (t)= [AS-C], yi (t)=[Dl], zi (t)=[N].
;)( 12*1 zytd
zd
.)( 21*2 zytd
zd
Here f is monotonically decreasing, it corresponds to negative feedbacks N ···◄ (AS-C).Sigmoid functions σ and describe positive feedbacks (AS-C) → Dl. 2 stable equilibrium points: S1 and S3
The point S2 is unstable.
*
4
5
Trajectories of the system.
THEOREM 1. An unstable cycle can appear near S2.
6
Either K1 or K2 becomes the Parental Cell with the Central Regulatory Contour. The other one goes to the Proneural Cluster.
7
More complicated model. 7
8
Five equilibrium points in the system (DM), three of them are stable.
[AS-C] (t)
рублей.Stationary points and cycles of the system 9
;1
914
3
1 xxdt
dx
;110
241
12 xxx
dtdx
.
110
332
23 xxx
dtdx
10
APPENDIXt
.,...2;10)(;102)( nixforxLxforAxL iii
;,...2;12)(;100)( nixforAxxforx iii
“Threshold” functions describing positive feedbacks:
and negative feedbacks:
Sometimes we consider their smooth analogues.
,constAi
11
;)( 111 xxLtd
xdn
a
.,...2;)( 1 nixxLtd
xdiii
i (A1)
;)( 111 xxLtd
xdn .,...2;)( 1 nixx
td
xdiii
i (A2)
)).(max())(max( xorxLB iii
Parallelepiped ispositively invariant for both systems (A1) and (A2) and contains a unique «equilibrium» point E of (A2) for all n. For odd n it contains a unique «equilibrium» point E of (A1).
],0...[],0[],0[ 21 nn BBBQ
(A2) is the Glass-Tyson (et al) dynamical system, (A1) was considered in our previous papers.
12
(A2); (A1) n=2k+1, one equilibrium point.
(A1) n=2k, “many” equilibrium points.
13
Non-convex invariant domain of the 3-D system (A1) composed by six triangle prisms.
}001{ }011{
}110{
}100{
}001{}101{}100{}110{}010{}011{}001{
}10{}11{ cdabcdab }01{}00{ cdabcdab
;}001{}011{ F
.}001{}101{1 F
14
Potential level of a block:
How many faces of the block are intersected by outgoing trajectories,
or
How many arrows come out of the corresponding vertex of the state transition diagram of the dynamical system.
15
u1 u2 u3( ) rp1 rp2 rp3( )
;1
65x
zdt
dx
;
1
37y
xdt
dy
;7 5 ze
dt
dz y
A trajectory and a limit cycle.
!
!
Trajectories and bifurcation cycles.
17
dim = 105
18
Consider the system (A2) for n=4 and its state transition diagram (A3) (J.Tyson, L.Glass et al.)
134 \ DSEQ Trajectories of all points in (in (A4) ) do not approach E in a fixed direction.
}1110{}1100{}1000{}0000{
}1111{}0111{}0011{}0001{
(A3)Level=1
}0010{}0110{}0100{}0101{
}1010{}1011{}1001{}1101{ (A4)
Level=3
It was shown that the union of the blocks listed in (A3) can contain a cycle, and conditions of its existence were established. What about its uniqueness?
3P
.\ 313 DSEP
19
THEOREM 2. The union of the blocks listed in (A4) contains a trajectory which remains there for all t >0.
This theorem holds for smooth analogues of the system (A2) as well.
In the PL-case, there are infinitely many geometrically distinct trajectories in the diagram (A4).
4P
20
Consider the system (A1) for n=4. The state transition diagram:
}1001{}1101{}1100{}1110{
}1011{}0011{}0111{}0110{
(A5)Level=2
},0101{ }1010{ have zero potential level.
We show that in symmetric cases the union of the blocks listed in (A5) contains a cycle, conditions of its existence were established. It is unique in this union. There is an invariant 1-D manifold Δ which approaches E in the fixed direction.
5P
224 \ DSQ
21
5D case for (A1)
.],0...[],0[],0[ nRAAAQ
Invariant piece-wise linear 2-D surfaces containing 2 cycles of corresponding system were constructed in Q. n=5:
}...11011{}11001{}11101{}11100{}11110{... Level=3 ~(A4).
Level=1 ~ (A3):
}...01011{}01001{}01101{}00101{}10101{...
Homotopy properties
.
!
22
1441235 \ SDDSDSQ 2 cycles
.\ 1331134 SDDSDSEQ 2 cycles?
23
Motivation. Our current tasks are connected with: determination of conditions of regular behaviour of trajectories; studies of integral manifolds non-uniqueness of the cycles, and description of geometry of the phase portraits; bifurcations of the cycles, their dependence on the variations of the parameters, and connections of these models with other models of the Gene Networks.
24
Some recent publications:• Yu.Gaidov, V.G. On cycles and other geometric
phenomena in phase portraits of some nonlinear dynamical systems. Springer Proc. in Math. &Statistics, 2014, v.72, 225 – 233.
• N.B.Ayupova, V.G. On the uniqueness of a cycle in an asymmetric 3-D model of a molecular repressilator. Journ.Appl.Industr. Math., 2014, v.8(2), 1 – 6.
• A.Akinshin, V.G. On cycles in symmetric dynamical systems. Bulletin of Novosibirsk State University, 2012, v.2(2), 3 – 12.
• T.Bukharina, V.G., I.Golubyatnikov, D.Furman. Model investigation of central regulatory contour of gene net of D.melanogaster machrohaete morphogenesis. Russian journal of development biology. 2012, v.43(1), 49 – 53.
• Yu.Gaidov, V.G. On the existence and stability of cycles in gene networks with variable feedbacks. Contemporary Mathematics. 2011, v. 553, 61 – 74.
25
Acknowledgments: RFBR grant 12-01-00074, grant 80 of SB RAS, RAS VI.61.1.2, 6.6 and .
math+biol
26
AlekseiAndreevich Lyapunov,
1911 - 1973.
27
Thank you for your patience
Trajectories of some 3-D systems right:
left:
.1
17)(,10)(,
1
10)(
33135.0
231
2
y
yyfexf
zzf x
.1
17)(,
1
10)()(
33321 y
yyf
zwfwf
16
An inverse problem N 3: to reconstruct integral manifolds inside and outside of the cycles.
