Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy...
-
Upload
truongtuong -
Category
Documents
-
view
217 -
download
1
Transcript of Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy...
![Page 1: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/1.jpg)
The circadian clock as a paradigm for Systems Biology
The requirements for systems biology are well-established in circadian research
• Dynamic, quantitative data in vivoand in cell cultures
• Crosses scales Molecules to ecosystem or clinic
• Crosses taxonomic groups• Major contributions from modelling
since 1960’s• Worldwide research community
Yamaguchi et al. Nature, 2001
![Page 2: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/2.jpg)
Biological clocks in theory and experiments www.amillar.org
Current:
Laszlo Kozma-BognarKieron EdwardsAdrian Thomson
Vacancy !
Ozgur AkmanPaul BrownJames LockeTreenut SaithongParantap Shukla
Vacancy !
Ruth Bastow (GARNet)
Past:Simon ThainKamal SwarupRuth BastowHarriet McWattersShigeru HananoSeth DavisMandy Dowson-DayGiovanni MurtasNeeraj SalathiaMaria ErikssonAnthony HallAlex MortonBoris ShulginNickiesha BromleyVictoria HibberdMegan SouthernDomingo Salazar
CollaboratorsIgor Goryanin (Informatics)IPCR -Matthew Turner (UW Physics)David Rand (UW Maths)Bärbel Finkenstädt (Statistics)Mark Muldoon and David
Broomhead (Manchester)Lorenz Wernisch (Birkbeck)
Peter Gould, Anthony Hall(Liverpool)
Antony Dodd, Alex Webb, (Cambridge)
Ferenc Nagy (Szeged)Eberhard Schäfer, Stefan
Kircher (Freiburg)Rick Amasino (Madison)
Funding: BBSRC, Gatsby, EPSRC, EU
![Page 3: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/3.jpg)
seed
3 mm
Circadian clock in Arabidopsis thaliana
• Plant clock controls growth and flowering time• Regulates >15% of RNA transcripts Edwards et al.
Plant Cell 2006
Time in LL (h)26 30 34 38 42 46 50 54 58 62 66 70 74
![Page 4: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/4.jpg)
Mutant plants identify genes in the clockwork
?
• Negative regulation during the day - CCA1/LHY• Positive regulation at night – TOC1 +++• ODE model to test potential for regulation
Alabadi et al., 2001
WT = wild type (normal)
![Page 5: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/5.jpg)
Single loop is not sufficient
• Simulations contradict data• Global parameter search
finds no good solutionse.g. cca1;lhy double mutants are rhythmic, ~17h period
⇒ another loop, without CCA1and LHY
0
20000
40000
60000
0 24 48 72 96 120 144
Time in light (h)
Lum
ines
cenc
e (c
ps) CCA1:LUC
X‘LHY’ = LHY + CCA1
![Page 6: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/6.jpg)
Interlocking loop model for Arabidopsis clock
• Model- J. Locke
• Hypothetical components X, Y added from inspection of data
• Fit model to WT and mutant data
• Predicts X and Y expression
TOC1TOC1
LHY
Y
X
X
Y
LHY LHY
mR
NA
LHY
mR
NA
TOC
1 m
RN
ATO
C1
mR
NA
Time (h)
WT
cca1;lhy
Locke et al., Mol Syst Biol, 2005: Data + interlocking loop model.
![Page 7: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/7.jpg)
Experiments to identify Y turn up a good candidate
• Prediction = dashed line
• M. Southern tested candidate genes by qRT-PCR. Data = crosses
• Unexpected light response of GIGANTEA RNA matches prediction
• GI data in literature also matches predictions for Y
WT
cca1;lhy
![Page 8: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/8.jpg)
Simulation and visualisation software
• Paul Brown, software engineer
• Matlab animation
• Available at www.amillar.org
![Page 9: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/9.jpg)
Validation 1, TOC1 activation: GI is (part of) Y
• LUC reporters crossed into mutant backgrounds
• LHY/CCA1 inhibit TOC1 expression
• GI activates TOC1 expression
TOC1TOC1
LHY
Y
X
X
Y
LHY
0
10000
20000
TOC
1:LU
C+
activ
ity
WT(Ws)lhy; cca1lhy;cca1;gi
X
XLocke et al.,
Mol. Syst. Biol. in press
![Page 10: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/10.jpg)
Validation 2, rhythmicity: GI is (part of) Y
• LUC reporters crossed into mutant lines, tested in constant light
• lhy;cca1 shows 18h rhythm• lhy;cca1;gi does not, in light or darkness
TOC1TOC1
LHY
Y
X
X
Y
LHY
0
0.5
1
1.5
2
2.5
3
3.5
0 24 48 72 96 120
WT (Ws)cca1-11 lhy-21cca1-11 lhy-21 gi11
ZT (hours)
TOC1:LUC+
Nor
mal
ised
lum
ines
cenc
e
CCR2:LUC+
0
0.5
1
1.5
2
2.5
3
3.5
0 24 48 72 96 120
WT (Ws)cca1-11 lhy-21cca1-11 lhy-21 gi11
ZT (hours)
X
XLocke et al.,
Mol. Syst. Biol. in press
![Page 11: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/11.jpg)
Validation 3, simulation: GI is (part of) Y
• GI is required for 18h rhythm
• Arrhythmia after one cycle in light
• Data closely match simulations using 3-loop model
Simulation Data
Locke et al., Mol. Syst. Biol. in press
![Page 12: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/12.jpg)
Three-loop model for the plant clock
• PRR9, PRR7 genes are TOC1 (=PRR1) paralogues• Form a feedback loop with LHY/CCA1 (Farré et al. 2005)• Add PRR9 and PRR7 (combined) to form 3-loop model
• Better match to gi and toc1 mutant data, in addition to earlier data
TOC1
X
LHY/ CCA1
PRR7/ PRR9 Y (GI)
Morning Evening
![Page 13: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/13.jpg)
Three-loop model: change relative peak times
• Compare simulations of long and short day length
• LHY peak constant relative to light-on• TOC1 peak also responds to light-off• Observed in recent data
• Design similar to neural clocks in animals
Morning and evening cells• Intracellular in plants
no cell-cell coupling
TOC1
X
LHY/ CCA1
PRR7/ PRR9 Y (GI)
Locke et al., Mol. Syst. Biol. in press
Light Dark
![Page 14: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/14.jpg)
The Clock Shop
• Multiple genesLHY, CCA1
• Multiple loops>3 in plant clock
• Multiple clocks>1 per cell?
Why such complexity?• Flexibility
- Cycle to cycle- In evolution
• Robustness- Stochastic noise- Temperature compensation
Photo by Martin Lange
![Page 15: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/15.jpg)
Leloup et al. fly model10 variables41 parameters1 dimension flexibility(phase or period)
(from ≤1% µ perturbations under LD cycles)
Rand et al., Interface, 2004
![Page 16: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/16.jpg)
Flexibility in evolution: examples for clock models
• Flexibility << Parameters• Flexibility ~ Loop complexity
95% 99.9%
Model Variables Loops (parts) Parameters
Flexibility threshold
Tyson et al. Drosophila 2 1 9 1, 1, 1, 1
Leloup et al. Neurospora 3 1 10 1, 2, 3, 4
Leloup et al. Drosophila 10 1 (2) 38 2, 3, 3, 6
Ueda et al. Drosophila 10 2 (3) 55 1, 1, 1, 2
Leloup et al. mouse 16 3 (4) 53 1, 2, 2, 5
Forger et al. mouse 73 5 (16) 36 5, 7, 9,10 *
Rand et al., Interface, 2004
![Page 17: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/17.jpg)
Flexibility to evolve towards multiple targets
• Flexibility of single clock loops is lowevolution is constrained
• Design principle: Interlocking loops increase flexibility
biochemical mechanisms can vary, inter- or intracellulardeterministic
• Advantage for interlocking loops in evolutionif there is selective pressure on several, independent output properties (phases, temperature compensation, dawn/dusk tracking)
![Page 18: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/18.jpg)
World Alliance for Clock Systems Biology
• Vision: Integrate clock systems research worldwide Develop circadian system models for many species
• AimsShared informatics resources: data + models + toolsStimulate data acquisition, computational toolsEnhance experimental – theoretical collaborationsPromote standardsTraining, outreach: increase visibility
• Interim Steering GroupHiroki Ueda (RIKEN)John Hogenesch (U. Penn.)Andrew Millar (CSBE, Edinburgh)
![Page 19: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/19.jpg)
![Page 20: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/20.jpg)
Next steps
• Regional committees, cross subjectsNeeded now, for fundraising
• Working groups, cross regionsLater, develop standards etc.
• Informal meeting Grand Sandestin lobby, 12:30
• Launch at ICSB Yokohama October 2006
![Page 21: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/21.jpg)
![Page 22: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/22.jpg)
• Defining feature of circadian clocks
• Quantitative genetics (QTL) shows multiple genes are involved in Arabidopsis
LHY? GI
Position along the chromosomeEdwards et al, Genetics 2005
Clock complexity 2: temperature compensation
![Page 23: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/23.jpg)
Molecular mechanisms of temperature compensation
• LHY RNA levels fall with temp rise (CCA1 rises)• Mutant data confirms LHY (or CCA1) and GI are required• Temperature-dependent substitution of homologous proteins?
To model, now split ‘LHY’ to separate CCA1
LHY
mR
NA
leve
l
Time (h) Time (h)
17
12WT 17°CWT 27°C
gi 27°Cgi 17°C
27
17
Gould et al, Plant Cell 2006
![Page 24: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/24.jpg)
Clock complexity 2: temperature compensation
• Homeostasis of period at a range of constant temperatures, unusual among biochemical oscillators
• Temperature affects many biochemical processes: parameters in the clock models
• ‘Antagonistic balance’ of period-lengthening and period-shortening effects
Gives local compensation at a particular temperatureObserved compensation covers wide temperature range
• Local constraints on parameters at many temperatures across the range? No, only TWO
![Page 25: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/25.jpg)
A switch for simple temperature compensation
• Alternative molecular species• Identical functions• One dominates at low,
the other at high temperatures
• Parameters affecting one species balance at one low temperature, the other at one high temperature
• Combining the two species gives compensation right across the temperature range
![Page 26: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/26.jpg)
Switch between two molecular species
• Clock with only one species becomes arrhythmic at non-optimal temperature
• Rhythmicity and global temperature compensation with both species
290 291 292 293 294 295 296 297 298 299 300 301 302 303 30420
21
22
23
24
25
26
27
28
29
30
Temperature (K)
Per
iod
(hr)
290 291 292 293 294 295 296 297 298 299 300 301 302 303 3045
5.5
6
6.5
7
7.5
8
8.5
9
9.5
10
Temperature (K)
![Page 27: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/27.jpg)
Temperature compensation: summary
• Avoiding arrhythmia is a major challengeIf rhythmicity can be maintained across a temperature range, constant period is less surprising
• Design principle: Switch between two species allows tuning of some parameters for a high and a low temperature
biochemical mechanisms can vary, RNA or proteindeterministicnow to test experimentally…
• Global (temperature) compensation is readily achievable in evolution
• Long-standing questions…
![Page 28: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/28.jpg)
Clock models are useful
• Inform experimental designSimulation software for clock experiments (www.amillar.org)
Predict properties of undiscovered components (X and Y)GI is part of Y function, another part also required
Analyse network properties, e.g. dawn/dusk tracking, temperature compensation
• Extend from clock to: Molecular outputs: genome-wide rhythms at all phasesWhole organism: effect on growth via metabolism, morphology
![Page 29: Yamaguchi et al Nature, 2001 - ICSB- · PDF fileYamaguchi et al. Nature, ... Ferenc Nagy (Szeged) Eberhard Schäfer, Stefan Kircher (Freiburg) Rick Amasino (Madison) Funding: BBSRC,](https://reader030.fdocuments.net/reader030/viewer/2022011723/5a7d0f0c7f8b9a72118d41aa/html5/thumbnails/29.jpg)
Requirements for model building
• Multiple mutant data were key but will be limitingMeasure parameter valuesMake more use of timeseries data to invalidate models
• More and better timeseries, protein data• Environmental manipulation, e.g. light, nutrition
Modelling of species with hard genetics, e.g. crops, trees
• Large-scale informatics infrastructureOrganise diverse data, integrate with models, parameter search and analytical tools, High-Performance ComputingCoordination among centres should be possible
• Synthetic biological systems to validate modelsCompletely described, well-controlledA biological “wind tunnel”