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![Page 1: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/1.jpg)
The architecture of complexity: From the topology of the www
to thecell's genetic network
The architecture of complexity: From the topology of the www
to thecell's genetic networkAlbert-László BarabásiAlbert-László Barabási
University of Notre DameUniversity of Notre Dame
Zoltán N. Oltvai Zoltán N. Oltvai Northwestern Univ., Medical SchoolNorthwestern Univ., Medical School
H. Jeong, R. Albert, E. Ravasz, G. Bianconi,H. Jeong, R. Albert, E. Ravasz, G. Bianconi, E. AlmaasE. Almaas
www.nd.edu/~networks
![Page 2: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/2.jpg)
Complex systemsMade of
many non-identical elements connected by diverse interactions.
NETWORK
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Erdös-Rényi model (1960)
- Democratic
- Random
Pál ErdösPál Erdös (1913-1996)
Connect with probability p
p=1/6 N=10 k ~ 1.5 Poisson distribution
![Page 4: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/4.jpg)
World Wide Web
Over 3 billion documentsROBOT: collects all URL’s found in a document and follows them recursively
Nodes: WWW documents Links: URL links
R. Albert, H. Jeong, A-L Barabasi, Nature, 401 130 (1999).
Exp
ected
P(k) ~ k-
Fou
nd
Sca
le-f
ree
Netw
ork
Exp
on
en
tial
Netw
ork
![Page 5: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/5.jpg)
INTERNET BACKBONE
(Faloutsos, Faloutsos and Faloutsos, 1999)
Nodes: computers, routers Links: physical lines
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Nodes: scientist (authors) Links: write paper together
(Newman, 2000, A.-L. B. et al 2001)
SCIENCE COAUTHORSHIP
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SCIENCE CITATION INDEX
( = 3)
Nodes: papers Links: citations
(S. Redner, 1998)
P(k) ~k-
1078...
25
H.E. Stanley,...
1736 PRL papers (1988)
![Page 9: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/9.jpg)
Swedish sex-web
Nodes: people (Females; Males)Links: sexual relationships
Liljeros et al. Nature 2001
4781 Swedes; 18-74; 59% response rate.
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Many real world networks have a similar architecture:
Scale-free networks
WWW, Internet (routers and domains), electronic circuits, computer software, movie actors, coauthorship networks, sexual web, instant messaging, email web, citations, phone
calls, metabolic, protein interaction, protein domains, brain function web, linguistic networks, comic book
characters, international trade, bank system, encryption trust net, energy landscapes, earthquakes, astrophysical
network…
![Page 11: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/11.jpg)
Scale-free model
Barabási & Albert, Science 286, 509 (1999)
jj
ii k
kk
)(
P(k) ~k-3
(1) Networks continuously expand by the addition of new nodesWWW : addition of new documents Citation : publication of new papers
GROWTH: add a new node with m links
PREFERENTIAL ATTACHMENT: the probability that a node connects
to a node with k links is proportional to k.
(2) New nodes prefer to link to highly connected nodes.
WWW : linking to well known sites Citation : citing again highly cited papers
![Page 12: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/12.jpg)
Mean Field Theory
γ = 3
t
k
k
kAk
t
k i
j j
ii
i
2)(
ii t
tmtk )(
, with initial condition mtk ii )(
)(1)(1)())((
02
2
2
2
2
2
tmk
tm
k
tmtP
k
tmtPktkP ititi
33
2
~12))((
)(
kktm
tm
k
ktkPkP
o
i
A.-L.Barabási, R. Albert and H. Jeong, Physica A 272, 173 (1999)
![Page 13: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/13.jpg)
Can Latecomers Make It? Fitness Model
SF model: k(t)~t ½ (first mover advantage)Real systems: nodes compete for links -- fitness
Fitness Model: fitness (
k(,t)~t
where
=C
G. Bianconi and A.-L. Barabási, Europhyics Letters. 54, 436 (2001).
11/
1)(
Cd
j jj
iii k
kk
)(
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Bose-Einstein Condensation in Evolving Networks
G. Bianconi and A.-L. Barabási, Physical Review Letters 2001; Europhys. Lett. 2001.
jjj
iii k
k
Network
)(ink
)(
Bose gas
e
1
1)(
en
)(g
Fit-gets-rich Bose-Einstein condensation
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protein-gene interactions
protein-protein interactions
PROTEOME
GENOME
Citrate Cycle
METABOLISM
Bio-chemical reactions
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Citrate Cycle
METABOLISM
Bio-chemical reactions
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Metabolic NetworkNodes: chemicals (substrates)
Links: bio-chemical reactions
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Metabolic network
Organisms from all three domains of life are scale-free networks!
H. Jeong, B. Tombor, R. Albert, Z.N. Oltvai, and A.L. Barabasi, Nature, 407 651 (2000)
Archaea Bacteria Eukaryotes
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protein-gene interactions
protein-protein interactions
PROTEOME
GENOME
Citrate Cycle
METABOLISM
Bio-chemical reactions
![Page 21: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/21.jpg)
protein-protein interactions
PROTEOME
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Topology of the protein network
)exp()(~)( 00
k
kkkkkP
H. Jeong, S.P. Mason, A.-L. Barabasi, Z.N. Oltvai, Nature 411, 41-42 (2001)
Nodes: proteins
Links: physical interactions (binding)
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RobustnessComplex systems maintain their basic functions even under errors and failures (cell mutations; Internet router breakdowns)
node failure
fc
0 1Fraction of removed nodes, f
1
S
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Robustness of scale-free networks
1
S
0 1f
fc
Attacks
3 : fc=1
(R. Cohen et al PRL, 2000)
Failures
Albert, Jeong, Barabasi, Nature 406 378 (2000)
C
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Achilles’ Heel of complex networks
Internet
failureattack
R. Albert, H. Jeong, A.L. Barabasi, Nature 406 378 (2000)
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Real networks are fragmented into group or modules
Society: Granovetter, M. S. (1973) ; Girvan, M., & Newman, M.E.J. (2001); Watts, D. J., Dodds, P. S., & Newman, M. E. J. (2002).
WWW: Flake, G. W., Lawrence, S., & Giles. C. L. (2000).
Biology: Hartwell, L.-H., Hopfield, J. J., Leibler, S., & Murray, A. W. (1999).
Internet: Vasquez, Pastor-Satorras, Vespignani(2001).
Modularity
Traditional view of modularity:
Ravasz, Somera, Mongru, Oltvai, A-L. B, Science 297, 1551 (2002).
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Modular vs. Scale-free Topology
Scale-free(a)
Modular(b)
![Page 28: The architecture of complexity: From the topology of the www to the cell's genetic network Albert-László Barabási University of Notre Dame Zoltán N. Oltvai.](https://reader036.fdocuments.us/reader036/viewer/2022081519/56649f2b5503460f94c4681b/html5/thumbnails/28.jpg)
Hierarchical Networks
3. Clustering coefficient scales
C(k)=# links between k neighbors
k(k-1)/2
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Real Networks
Hollywood Language
Internet (AS)Vaquez et al,'01
WWWEckmann & Moses, ‘02
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Hierarchy in biological systems
Metabolic networks Protein networks
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Characterizing the links
Metabolism:Flux Balance Analysis (Palsson)Metabolic flux for each reaction
Edwards, J. S. & Palsson, B. O, PNAS 97, 5528 (2000).Edwards, J. S., Ibarra, R. U. & Palsson, B. O. Nat Biotechnol 19, 125 (2001). Ibarra, R. U., Edwards, J. S. & Palsson, B. O. Nature 420, 186 (2002).
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Global flux organization in the E. coli metabolic network
E. Almaas, B. Kovács, T. Vicsek, Z. N. Oltvai, A.-L. B. Nature, 2004; Goh et al, PRL 2002.
SUCC: Succinate uptakeGLU : Glutamate uptake
Central Metabolism,Emmerling et. al, J Bacteriol 184, 152 (2002)
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Scale-free
Science collaboration WWW
Internet CellCitation pattern
Language
Hierarchical Networks
Where do we go from here?…
How topology affects function?
Dynamics on networks: Are there universal properties?
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http://www.nd.edu/~networks
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http://www.nd.edu/~networks
There may be a postdoctoral position open in my research group.
For more details see www.nd.edu/~networks
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Traditional modeling: Network as a static graphGiven a network with N nodes and L links
Create a graph with statistically identical topology
RESULT: model the static network topology
PROBLEM: Real networks are dynamical systems!
Evolving networksOBJECTIVE: capture the network dynamics
METHOD :• identify the processes that contribute to the network topology
•develop dynamical models that capture these processes
BONUS: get the topology correctly.
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Rank NameAveragedistance
# ofmovies
# oflinks
1 Rod Steiger 2.537527 112 25622 Donald Pleasence 2.542376 180 28743 Martin Sheen 2.551210 136 35014 Christopher Lee 2.552497 201 29935 Robert Mitchum 2.557181 136 29056 Charlton Heston 2.566284 104 25527 Eddie Albert 2.567036 112 33338 Robert Vaughn 2.570193 126 27619 Donald Sutherland 2.577880 107 2865
10 John Gielgud 2.578980 122 294211 Anthony Quinn 2.579750 146 297812 James Earl Jones 2.584440 112 3787…
876 Kevin Bacon 2.786981 46 1811…
Bonus: Why Kevin Bacon?Measure the average distance between Kevin Bacon and all other actors.
No. of movies : 46 No. of actors : 1811 Average separation: 2.79
Kevin Bacon
Is Kevin Bacon the most
connected actor?
NO!
876 Kevin Bacon 2.786981 46 1811
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Rod Steiger
Martin Sheen
Donald Pleasence
#1
#2
#3
#876Kevin Bacon
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Protein networkNodes: proteins Links: physical interaction (binding)
Proteomics : identify and determine the properties of the proteins. (related to structure of proteins)
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Properties of the protein network
)exp()(~)( 00
k
kkkkkP
Highly connected proteins are more essential (lethal) than less connected proteins.
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Metabolic NetworkNodes: chemicals (substrates)
Links: chem. reaction
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Metabolic network
Organisms from all three domains of life are scale-free networks!
H. Jeong, B. Tombor, R. Albert, Z.N. Oltvai, and A.L. Barabasi, Nature, 407 651 (2000)
Archaea Bacteria Eukaryotes
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Whole cellular network
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Properties of metabolic networks
Average distances are independent of organisms! by making more links between nodes. based on “design principles” of the cell through evolution.
cf. Other scale-free network: D~log(N)
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Taxonomy using networks
A: Archaea
B: Bacteria
E: Eukaryotes
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Watts-Strogatz
(Nature 393, 440 (1998))
N nodes forms a regular lattice. With probability p, each edge is rewired randomly.
Clustering: My friends will know each other with high probability!
Probability to be connected C » p
C =# of links between 1,2,…n neighbors
n(n-1)/2
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Modularity in the metabolism
Metabolic network(43 organisms)
Scale-free model
Clustering Coefficient:
C(k)=# links between k neighbors
k(k-1)/2
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Population density
Router density
Spatial Distributions
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Spatial Distribution of Routers
Fractal set
Box counting: N() No. of boxes of size that contain routers
N() ~ -Df Df=1.5
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Preferential Attachment
• Compare maps taken at different times (t = 6 months)• Measure k(k), increase in No. of links for a node with k links
Preferential Attachment:
k(k) ~ k
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INTERNET
N() ~ -Df Df=1.5
k(k) ~ k =1
P(d) ~ d- =1
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Nature 408 307 (2000)
…
“One way to understand the p53 network is to compare it to the Internet. The cell, like the Internet, appears to be a ‘scale-free network’.”
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p53 network (mammals)
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Preferential Attachment
Citation network
Internet
k vs. k : increase in the No. of links in a unit time
t
kk
t
k ii
i
~)( For given t,k (k)
(cond-mat/0104131)
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What is the topology of cellular networks?
Argument 2:Cellular networks are
exponential!
Reason: They have been streamlined
by evolution...
Argument 1:Cellular networks are
scale-free!
Reason: They formed one node
at a time…
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Combining Modularity and the Scale-free PropertyDeterministic Scale-Free Networks
Barabási, A.-L., Ravasz, E., & Vicsek, T. (2001) Physica A 299, 559.
Dorogovtsev, S. N., Goltsev, A. V., & Mendes, J. F. F. (2001) cond-mat/0112143.(DGM)
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3. Scaling clustering coefficient (DGM)
2. Clustering coefficient independent of N
Properties of hierarchical networks
1. Scale-free
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Hierarchical Networks
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What does it mean?
Real Networks Have a Hierarchical Topology
Many highly connected small clusterscombine into
few larger but less connected clusters combine into
even larger and even less connected clusters
The degree of clustering follows:
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Is the hierarchical exponent β universal?
For most systems:
Connect a p fraction of nodes to the central module using
preferential attachment
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Stochastic Hierarchical Model
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Is hierarchy present in network models?
NO:
-Scale-free model (alb& Albert,1999)-Erdos-Renyi model (1959)
-Watts-Strogatz (1998)
YES:
Dorogovtsev, Goltsev, Mendes, 2001 (determ.)-Klemm and Eguiluz, 2002
-Vasquez, Pastor-Satorras,Vespignani (2001)* Bianconi & alb (fitnesss model) (2001)
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Exceptions: Geographically Organized Networks:
Common feature: economic pressures towards shorter links
Internet (router),Vazquez et al, ‘01
Power Grid
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Traditional modeling: Network as a static graphGiven a network with N nodes and L links
Create a graph with statistically identical topology
RESULT: model the static network topology
PROBLEM: Real networks are dynamical systems!
Evolving networksOBJECTIVE: capture the network dynamics
METHOD :• identify the processes that contribute to the network topology
•develop dynamical models that capture these processes
BONUS: get the topology correctly.
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Society
Internet
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Node-node distance in metabolic networksD15=2 [125]
D17=4 [134 67]
… D = ??
1
2
3
4
5
6
7
Scale-free networks:
D~log(N)
Larger organisms are expected to have a larger diameter!
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What is Complexity?
Main Entry: 1com·plexFunction: nounEtymology: Late Latin complexus totality, from Latin, embrace, from complectiDate: 16431 : a whole made up of complicated or interrelated parts
non-linear systems chaos fractals
A popular paradigm: Simple systems display complex behavior
3 Body Problem
Earth( ) Jupiter ( ) Sun ( )
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Universality?
P(k) ~ (k+(p,q,m))-(p,q,m)
[1,)
• Predict the network topology from microscopic processes with parameters (p,q,m)
• Scaling but no universality
Extended Model
p=0.937
m=1
= 31.68
= 3.07
Actor network
• prob. p : internal links
• prob. q : link deletion
• prob. 1-p-q : add node
WWW(in)
Internet ActorCitation
indexSexWeb
Cellularnetwork
Phone callnetwork
linguistics
= 2.1 = 2. 5 = 2.3 = 3 = 3.5 = 2.1 = 2.1 = 2.8
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Yeast protein networkNodes: proteins
Links: physical interactions (binding)
P. Uetz, et al. Nature 403, 623-7 (2000).
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A Few Good Man
Robert Wagner
Austin Powers: The spy who shagged me
Wild Things
Let’s make it legal
Barry Norton
What Price Glory
Monsieur Verdoux
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ARE COMPLEX NETWORKS REALLY
RANDOM?
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ACTOR CONNECTIVITIES
Nodes: actors Links: cast jointly
N = 212,250 actors k = 28.78
P(k) ~k-
Days of Thunder (1990) Far and Away
(1992) Eyes Wide Shut (1999)
=2.3
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Society
Nodes: individuals
Links: social relationship (family/work/friendship/etc.)
S. Milgram (1967)
John Guare, Six Degrees of Separation
1929, Frigyes Karinthy“we could name any person among earth’s one and a half billion
inhabitants and through at most five acquaintances, one of which he knew personally, he could link to the chosen one”
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< l
>
Finite size scaling: create a network with N nodes with Pin(k) and Pout(k)
< l > = 0.35 + 2.06 log(N)
19 degrees of separation
l15=2 [125]
l17=4 [1346 7]
… < l > = ??
1
2
3
4
5
6
7
nd.edu
19 degrees of separation R. Albert et al Nature (99)
based on 800 million webpages [S. Lawrence et al Nature (99)]
A. Broder et al WWW9 (00)IBM
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What is Complexity?
Main Entry: 1com·plexFunction: nounEtymology: Late Latin complexus totality, from Latin, embrace, from complectiDate: 16431 : a whole made up of complicated or interrelated parts
A popular paradigm:
Simple systems display complex behavior
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Origin of the scale-free topology: Gene Duplication
Perfect copy Mistake: gene duplication
Wagner (2001); Vazquez et al. 2003; Sole et al. 2001; Rzhetsky & Gomez (2001); Qian et al. (2001); Bhan et al. (2002).
Proteins with more interactions are more likely to get a new link:Π(k)~k
(preferential attachment).
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World Wide Web
Over 3 billion documents
ROBOT: collects all URL’s found in a document and follows them recursively
Nodes: WWW documents Links: URL links
R. Albert, H. Jeong, A-L Barabasi, Nature, 401 130 (1999).
Exp
ected
P(k) ~ k-
Fou
nd
γout=2.5 γin=2.1
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What does it mean?Poisson distribution
Exponential Network
Power-law distribution
Scale-free Network
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Yeast protein network- lethality and topological position -
Highly connected proteins are more essential (lethal)...
H. Jeong, S.P. Mason, A.-L. Barabasi, Z.N. Oltvai, Nature 411, 41-42 (2001)
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Inhomogeneity in the local flux distribution
~ k -0.27
Mass flows along linear pathways
Glutamate rich substrate Succinate rich substrate
Mass flows along linear pathways
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Life’s Complexity Pyramid
Z.N. Oltvai and A.-L. B. Science, 2002.