seminar in mathematical biology theoretical issues in modeling yoram louzoun nadav shnerb eldad...
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![Page 1: Seminar in mathematical Biology Theoretical issues in modeling Yoram Louzoun Nadav Shnerb Eldad Bettelheim Sorin Solomon](https://reader035.vdocuments.mx/reader035/viewer/2022062421/56649d535503460f94a2edb8/html5/thumbnails/1.jpg)
Seminar in mathematical BiologyTheoretical issues in modeling
Yoram Louzoun
Nadav Shnerb
Eldad Bettelheim
Sorin Solomon
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Overview Dynamical systems are traditionally modeled using
ODEs. However most of the assumptions under which
ODEs are correct are not valid in biological systems.
We analyze some prototypic systems and present a new method to analyze the behavior of stochastic spatially extended systems.
Using our results, we show that well known concepts, such as Malthusian growth and ecological niche are the result of over simplifications.
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Fisher Equation
The simplest system contains a single agent and three processes: Birth, death and competition.
Such system is represented by a Fisher Equation.
is the birth rate- the death rate, is the competition rate
),(),(),( 22 txbDtxbtxbt
b
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Fisher waves This equation has two solution (0) and (/). The
first solution is stable for (0 ) and the second solution is stable for ( >0).
If ( >0) the stable solution will invade the unstable solution forming a Fisher front with a width advancing with a velocity
Small fluctuation from the stable steady state of wavelength k decay at as exp[- (||+k2)t].
Fisher R.A 1937
/Dw
.2 Dv
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Catalytic noise
In many biological and especially in social systems the creation of a new substance is induced by a catalyst.
The catalyst can have a very low density. This low density induces fluctuation in its local density.
The fluctuations in the catalyst density affects the reaction rates of the reaction they catalyze.
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Full system
In order to asses the effect of such noise we model a spatially extended systems with a catalyst and a simple reaction.
We model an agent (B) proliferating in the presence of a catalyst (A) with a probability , and dying with a rate .
Both the catalyst and the agent are diffusing We ignore at this stage the non linear term.
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System description A+B->A+B+B , B->,
A
B+
A
B B
B
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Naive PDE The PDE describing this system is:
If we let the A diffuse for a long time, before B reactions starts the A distribution will be:
A(x)=A0
ADt
A
BxmBDBDBABt
B
A
BB
2
22 )(
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Malthus
The solution to these equation is an extrapolation from Malthus:
c is a positive constant, and is 0 for the mode representing uniform initial conditions of B(x).
c
tcuAc exxB )()()(
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Naïve PDE II
The fastest growing mode has an exponent of: -
If ->0, the population will grow until saturated by non linear terms, while if -<0 the population will exponentially decrease to zero (since B is discrete).
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Simulation
We simulate this system, with a lattice constant l containing As and Bs.
Each point in the lattice can contain an infinite number of A and Bs.
Interaction are only within the same lattice point. The interaction rate is /ld
The diffusion probability from a lattice point to its neighbor is: D/l2
We simulate a case when the death rate is much higher than the birth rate: (A /ld -) < <0 .
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Simulation Results
Even for a very high death rate the total population increases indefinitely (A= 0.1, /ld =2, =1, A-=-0.8).
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Even Simpler Example I
In order to understand this strange result, lets simplify our system. We will make it one dimensional with 18 cells.
Assume an A concentration of A=0.2, /l =1 and =0.5.
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Even Simpler Example II
At t=0 The Bs have a random distribution . At t=1 Half the B disappeared and 20% of
new Bs were created. At t=2 the same process takes place…..
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Even Simpler Example III
But this is not the social reality, the As are discrete entities.
At places where there are no As all the Bs will disappear.
At places where at least one A exists the Bs will prosper.
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Basic Idea This is the result of the combination of an exponential
growth and a linear cut-off In an inhomogeneous situation, regions where the local
birth rate is lower than the death rate, the total population will simply shrink to zero.
In regions where the local birth rate is higher than the death rate the total population will increase to infinity.
After a finite time, only regions with a high B population will influence the average B population.
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Single A Approximation
If only a single A exists, then the average A population is close to zero.
If the A is fixed in space then the B at the location of the A obeys:
tldDlBLn
BldDBBldt
dB
Bd
Bd
)/2/()(
/2/
2
2
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But, What About Diffusion???
After a some time the A will diffuse, and all this story will not work any more.
Yes!, but the B also diffuses, and by the time the A diffuses there will already be Bs at the new position for the island to keep growing.
In every jump the A performs it lands in a region occupied by Bs, but with a lower concentration then at the center of the island.
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Diffusion Only Makes it More Interesting
The size of the B island is growing linearly.
The As on the other hand diffuses, so that they move with a rate proportional to the square root of t.
tlD
ldDlRR
dB
Bd
)/ln(
)/2/()0(
2
2
2/)( ltDtS A
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Island Shape The neighboring cells have a constant input
from the cell containing the A and the same diffusion and death rate:
)(/2)(
)0(/)(
2
)/2/(2 2
rBldDrB
eBlDdt
rdB
B
tldDlB
Bd
)/ln())(( 2
d
BlDr
rBLn
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A jumps
When A jumps to a neighboring cell, the Ln of the B population at the A position decreases by:
The population at the center of the island is thus:
)/ln( 2 dBlD
tlDldD
ldDlBLnd
BA
Bd
))/ln(/2
/2/()(22
2
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Emerging Island
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Cooperative effects
We simulate a system with =0.5, =1, and <A>=0.5
( <A>- )=-0.75 Although in lattice points containing a single A
the B population decreases. In points containing 3 or more As the B population increases.
If the distribution of As is poissonian, there will be a macroscopically large number of points with 3 or more As in them
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Low A diffusion
The A concentration has a Poisson distribution.
For any m and any value of <A>, if the volume of space is large enough there will be a point containing m A agents.
!1
mA
eVm
A
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Low A diffusion
For any value of , and DB, there is a value m that will obey:
The B population will grow precisely in these points.
In other words, in the low A diffusion regime the B population grows following the maximum of A and not its average.
0/2/ 2 ldDlm Bd
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Low A diffusion
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Master Equation
The situation of the system can be described using a master equation for the probability to have A1 As and B1 Bs in the first cell… P(A1B1..ANBN).
The master equation for a single point on the lattice is:
termDiffusionPmmP
PmnmnPPH
PHdt
dP
mnnm
mnnm
nm
])1([
])1([)(
)(
)1(
)1(
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Translation to quantum formalism
In order to solve this equation,we replace the classical probability function by a quantum wave function:
>=Pnm/n!/m!(a†)n(b †)m|0>. We define creation and destruction of A and Bs
using the quantum creation and annihilation operators: a, a†,b, b† .
Adding a new A particle is simply: a†| >, and destroying a particle is: a| >.
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Creation and annihilation.
These operators follows the following simple rules:
a†|n,m>= |n+1,m>; a|n,m>= n|n-1,m> b†|n,m>= |n,m+1>; b|n,m>= m|n,m-1> [a,b]=0 ; [a, a†]= a a†- a† a =1 Counting particles in a given location is: a†a|n,m>= n a†|n-1,m>=n|n,m>
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Hamiltonian
We replace the Hamiltonian with a quantum Hamiltonian, and obtain a non imaginary schroedinger equation.
’=H
nneii
b
nneii
a
iiiiiidiii
bbbl
Daaa
l
D
bbbaabbaal
bbbH
)()(
][][
†2
†2
†i
†i
††i
††
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Mean field
We replace the operators by their vacum expectation values, scale the system and replace the the interaction with neighbors to a continous gradient of a and b.
bbl
naal
bbaa
a
iiii
22
††
1 ,
1
1 ,1
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RG -2D
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RG 3D In 3D on the other hand there is a phase
transition, and in some of phase space the ODEs are precise.
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Local Competition
The Bs may compete over a local resource (food, space ,light…). This local competition is limited to Bs living on the same lattice site.
The local competition will mot change the overall dynamics, but it will limit the size and total population of each B island.
Any first order interaction can be described in the form of proliferation and death, while any second order mechanism can be described as a competition mechanism.
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Simulation of competition
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Global Competition
The B agents may also compete over a global resource. This happens if the radius in which B compete is larger then the interaction scale between Bs.
For example cells competing for a resource in the blood, animals competing over water, plankton competing over oxygen.
Large scale competition is described as an interaction with the total population over some scale The competition reaction is :
B+<B>-><B>
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The world company
When the A diffusion rate is low only one island of Bs is created around the maximal A concentration. The high B population in this island will inhibit the creation of any other B island.
When the As diffuse fast, a number of large B islands are created. These islands look for food (High A concentration ). They can split, merge or die.
The life-span of these islands is much larger than the life-span of a single B.
These emerging islands will lead to the creation of intermittent fluctuations in the total B population.
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Predator prey systems
We have shown that the classical PDE treatment of a ver simple autocatalytic systems is wrong.
One of the reasons for the large difference is the high correlation between a and b fluctuations.
We will show that PDE fail in system with anti-correlation terms
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Predator pray systems
Lets denote a pray by a, and a predator by b. The pray population grows, unless destroyed
by the predator. The predator population is growing when it
is “eating” the pray. The predator population is limited by death
(linear) and competition (non-linear)
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Ecological niches
The equations describing the system are:
These equations have 2 fix points: (0,0) and ([/+]/,/) , but only the non zero fix
point is stable. This is the origin of the ecological niche
concept.
aDbbabb
aDabaa
a
a
22
2
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Infection Dynamics-ODE
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Infection Dynamics-ODE
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Infection
The mean field approximation of similar predator pray dynamics are used to describe infection dynamics, where the pathogen is the pray and the immune system cells are the predator.
As in the previous cases, the ODEs fail to take into account some elemental biological features which makes their results obsolete.
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Missing elements. The two main elements missing from the
differential equations are:– The discreteness of the immune cells and pathogens.– The time required to produce an immune cell.– The saturation of immune cells reproduction capacity.
We are explicitly simulating an immune system, but these elements are present in every P-P system.
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Simulations.
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Spatial distribution.
The previous result can be obtained either from a simulation where every point in space have the same random initial distribution, or from a SDE.
One can ask what happens if the pathogen is presented in a single point of space.
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Infection Dynamics Simulations.
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Random Spatial structure
The immune system is dwelling in an Euclidean space.
A more realistic simulation should contain random neighbors.
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Global destruction.
An even more interesting dynamics can take place if the predator has a preying range much larger than the prey diffusion radius.
This situation is very frequent. For example lions and tigers have a very wide preying range compared to the grazing range of zebras or antilopes.
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Infection Dynamics Simulations.
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P-P delay
We have ignored up to now the explicit delay between the activation of the predator, and its capacity to destroy the pathogen.
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Summary ODEs fail completely in describing autocatalytic systems. The total population of an agent with a lower proliferation
rate than death will increase, in contradiction with the homogenous description.
The chance of survival are much more important in 2D than in 3D.
Very simple dynamics can create emerging objects with a long lifespan. In our case these objects are islands of high B concentration around regions of high A concentration.
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This is only one of the reasons that ODEs fail.
Other important aspects that ODEs fail to describe are:
The effect of delays (ODEs assume that the results of any interaction is immediate).
The limited capacity of space (ODES usually assume point like objects)
…..
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