cg020 genomika bi7201 základy genomiky 10. systémová biologie 10. systems biology kamil...
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CG020 GenomikaBi7201 Základy genomiky
10. Systémová biologie10. Systems biology
Kamil Růžička
Funkční genomika a proteomika rostlin, Mendelovo centrum genomiky a proteomiky rostlin,
Středoevropský technologický institut (CEITEC), Masarykova univerzita, [email protected], www.ceitec.muni.cz
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What is systems biology System theory Omics Reductionism vs. holism Networks Modular concept
Regulation of gene expression – example task for systems biology Gene regulation X->Y Transcriptional network of E. coli Negative autoregulatory networks Robustness of negative autoragulatory networks (Positive autoregulatory networks)
Přehled
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• fashionable catchword?
• a real new (philosophical) concept?
• new discipline in biology?
• just biology?
What is systems biology
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• fashionable catchword?
• a real new (philosophical) concept?
• new discipline in biology?
• just biology?
What is systems biology
http://www.ceitec.eu/programs/genomics-and-proteomics-of-plant-systems/
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• The behavior of a system depends on:
• Properties of the components of the system• The interactions between the components
Systems theory
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• The behavior of a system depends on:
• Properties of the components of the system• The interactions between the components
Systems theory
Forget about reductionism, think holistically.
ὅλος [hol'-os] – greek. all, the whole, entire, complete
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Systems biology
• Systems theory and theoretical biology are old
• Experimental and computational possibilities are new
meeting of old and new
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Ludwig von Bertalanffy (1901-1972)
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Omics-revolution shifts paradigm to large systems
- Integrative bioinformatics- (Network) modeling
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Two roots of systems biology
Palsson 2007
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Associated disciplines
Genomics Epigenomics Transcriptomics Translatomics / Proteomics Interactomics Metabolomics Fluxomics NeuroElectroDynamics Phenomics Biomics
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Associated disciplines
Genomics Epigenomics Transcriptomics Translatomics / Proteomics Interactomics Metabolomics Fluxomics NeuroElectroDynamics Phenomics Biomics
Jozef Mravec’s term:multidimensional biology
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How I understand systems biology
Genetics – you have one or few RNA processing genes where you show their importance in protoxylem development
Functional genomics – you find in e.g protoxylem expression profiles numerous RNA processing genes and demonstrate which are important for protoxylem developments
Systems biology – based on obtained large scale data you propose model how genes (and/or other components) collectively regulate protoxylem development
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How I understand systems biology
Good biology – you explain why just some genes regulate protoxylem development
(sorry for aphorisms)
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Reconstructed genome-scale networks
Species #Reactions #Genes Reference
Escherichia coli 2077 1260 Feist AM. et al. (2007), Mol. Syst. Biol.
Saccharomyces cerevisiae 1175 708 Förster J. et al. (2003), Genome Res.
Bacillus subtilis 1020 844 Oh YK. et al. (2007), J. Biol. Chem.
Lactobacillus plantarum 643 721 Teusink B. et al., (2006), J. Bio. Chem.
Human 3673 1865 Duarte NC. et al., (2007), PNAS
Arabidopsis Arabidopsis Interactome Mapping Consortium (2011), Science
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Reconstructed genome-scale networks
Species #Reactions #Genes Reference
Escherichia coli 2077 1260 Feist AM. et al. (2007), Mol. Syst. Biol.
Saccharomyces cerevisiae 1175 708 Förster J. et al. (2003), Genome Res.
Bacillus subtilis 1020 844 Oh YK. et al. (2007), J. Biol. Chem.
Lactobacillus plantarum 643 721 Teusink B. et al., (2006), J. Bio. Chem.
Human 3673 1865 Duarte NC. et al., (2007), PNAS
Arabidopsis Arabidopsis Interactome Mapping Consortium (2011), Science
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Complexity of cellular networks in E. coli
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Sometimes the things are different than we just think
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• Gene expression networks: based on transcriptional profiling and clustering of genes
• Protein-protein interaction networks (Y2H, TAP etc).
• Metabolic networks: network of interacting metabolites through biochemical reactions.
Reconstruction of networks from -omics for systems analysis
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Reconstruction of networks from -omics for systems analysis
• Gene expression networks: based on transcriptional profiling and clustering of genes
• Protein-protein interaction networks (Y2H, TAP etc).
• Metabolic networks: network of interacting metabolites through biochemical reactions.
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How to simplify.Modularity concept.
Lets e.g. assume that transcription and translation is one module.
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E. coli
Generation time 20 min
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Description of gene regulation
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Description of gene regulation
[units
[time-1]
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Description of gene regulation
[units
[time-1]
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Description of gene regulation
cells grow protein is degraded
+
[units
[time-1]
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Description of gene regulation
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1. Steady state – ustálený stav
t
Yst
Y
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2. Production of Y stops:
(log => ln [.CZ])
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2. Production of Y stops:
(log => ln [.CZ])Large → rapid degradation 𝛼
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Stable proteins(most of E. coli proteins)
τ – cell generation
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Stable proteins
τ – cell generation
Response time is one generation.
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3. Production of Y starts from zero
ß
t
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3. Production of Y starts from zero
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3. Production of Y starts from zero
Y grows almost linearly initially
(magic)
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3. Production of Y starts from zero
Response time:
The same response time as in case 2.Response time does not depend on production rate!
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3. Production of Y starts from zero
Response time:
Not many degradation mechanisms in E. coli (energy consuming).Perhaps in plants?
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Networks
node(CZ: uzel)
thread(CZ: hrana)
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Transcriptional network of E. coli
420 nodes, 520 edges How may self-edges? (CZ: samohrana?)
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Likelihood of the self-edge
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Autoregulation is a network motif
420 nodes, 520 edges. 40 self-edges!
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Autoregulation is a network motif
E. coli:40 autoregulatory loops: 36 negative, 4 positive
positive regulationnegative regulation
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Negative autoregulatory loop is best described by Hill’s function
ß(Y)
Y
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Negative autoregulatory loopsHill’s function
ß1/2
ß(Y)
Y
n
ßmax
K
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Negative autoregulatory loopsHill’s function
ßmaxß(Y)
K
maximum production rate
ß1/2
Y
n
steepness(Hill’s function)concentration of Y needed
for 50 % repression
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Negative autoregulatory loopsHill’s function
ßmaxß(Y)
K
maximum (initial) production rate
ß1/2
Y
n
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Negative autoregulatory loopsß synthesis rate – stochastic noise
ß(Y)
Y
ß may vary by 10 - 30 % (other parameters stable)
(stochastický ruch)
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Negative autoregulatory loopsHill’s coeficcient
ß1/2
ß(Y)
Y
n
K
• varies between 1 – 4, the higher the steeper
• important factor: multimerization
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Negative autoregulatory loopsK – repression coefficient
ß1/2
ß(Y)
Y
n
K
• depends on chemical bonds between Y and its binding sites
• a point mutation can increase K ~10 times
ATG Y
YNNNNN
concentration of Y needed for 50 % repression
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Positive autoregulatory loopsHill’s function
ß1/2
ß(Y)
Y
n
ßmax
K
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Back to simple regulation
production (ß)
YYst
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Example: if ß=0 (no production)
YYst=0
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production (ß)
removal > production
YYst
production > removal
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production (ß)
YYst
the longer the distance, the faster the change
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Therefore more difficult to come to Yst with time
Yst
Y
t
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production (ß)
YYst
Autoregulation vs. simple production
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Comparison
Lets assume that these values are the same:
1. Yst
2. 𝛼
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Comparison
Lets assume that these values are the same:
1. Yst
2. 𝛼Lets put it in one graph.
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production (ß)
YYst
ß
ßmax
in such case, always ßmax>ß
Autoregulation vs. simple production
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Autoregulation vs. simple production
production (ß)
YYst
ß
ßmax
the distance always more far => the reactions are faster
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Response time was confirmed indeed faster (~5 times)
time
Y
simple regulation
negative autoregulation
Alon 2007
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Cases of sharp curve
YYst
ß
ßmax
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Cases of sharp curve
YYst
ß
ßmax
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Cases of sharp curveproduction (ß)
YYst
ß
ßmax
Fluctuations in synthesis or removal don’t change much.
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Cases of sharp curveproduction (ß)
YYst≈K
ß
ßmax
Yst depends only on K – on protein-DNA binding properties.
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Conclusions
Negative autoregulationspeeds up response timeis robust (for 𝛼, ß) => basically on/offbypasses stochastic noise
production (ß)
YYst
ß
ßmax
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Conclusions
The model explains why negative autoregulation is a common network motif in E. coli.
production (ß)
YYst
ß
ßmax
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Conclusions
The model explains why negative autoregulation is network motif.
We will not avoid mathematics in biology.
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Positive autoregulation leads to slower response
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Positive autoregulation leads to higher variation
extreme case
=> increasing cell-cell variability
less extreme case
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Positive autoregulation leads to higher variation
extreme case
Strong variation:-=> differentiation of cells into 2 populations (development)-=> memory for maintaining gene expression (development)-helps with maintaining mixed phenotype for better response to changing environment
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Source literature
http://www.youtube.com/watch?v=Z__BHVFP0Lk and further – excellent talks about systems biology from Uri Alon (Weizman Institute)
Rosenfeld N, Negative autoregulation speeds the response times of transcription networks. J Mol Biol. 2002 Nov 8;323(5):785-93. – experimental testing of the data
Alon U. Network motifs: theory and experimental approaches. Nat Rev Genet. 2007 Jun;8(6):450-61. Review about the same.
Alon, U. (2006). An Introduction to Systems Biology: Design Principles of Biological Circuits (Chapman and Hall/CRC).
Palsson, B.Ø. (2011). Systems Biology: Simulation of Dynamic Network States (Cambridge University Press). Most common textbook about systems biology,
Literature
For enthusiasts Zimmer (2009). Microcosm- E Coli & the New Science of Life (Vintage) (popular scientific
book about E. coli as model organism and what you probably didn’t know)
Albert-László Barabási (2005) V pavučině sítí. (Paseka) (znamenitá kniha o matematice sítí, dynamicky se rozvíjejícím oboru od předního světového vědce)
PA052 Úvod do systémové biologie, Přednášky. Fakulta Informatiky MU
http://sybila.fi.muni.cz/cz/index - obor na fakultě informatiky.
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Reductionism vs. holism
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Stochastic noise (stochastický ruch)
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Flux balance analysis (FBA)
AB
C Constraints set bounds on solution space, but where in this space does the “real” solution lie?
FBA: optimize for that flux distribution that maximizes an objective function (e.g. biomass flux) – subject to S.v=0 and αj≤vj≤βj
Thus, it is assumed that organisms are evolved for maximal growth -> efficiency!
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Flux balance analysis (FBA)
AB
C Constraints set bounds on solution space, but where in this space does the “real” solution lie?
FBA: optimize for that flux distribution that maximizes an objective function (e.g. biomass flux) – subject to S.v=0 and αj≤vj≤βj
Thus, it is assumed that organisms are evolved for maximal growth -> efficiency!
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PA052 Úvod do systémové biologie
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Metagenomics
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