Login
Lost password ?
Create account
Main menu
Home
Register
Participation fees
Participants
Lectures & Seminars
Planning
Practical information
Sponsors
Les Houches Website
Centre Blaise Pascal website
Evaluation form
HELP
@ Contact
Planning
Week
Mon. 20
Tue. 21
Wed. 22
Thu. 23
Fri. 24
Sat. 25
Sun. 26
Mon. 27
Tue. 28
Wed. 29
Thu. 30
Fri. 31
List
Mon. 20
Tue. 21
Wed. 22
Thu. 23
Fri. 24
Sat. 25
Sun. 26
Mon. 27
Tue. 28
Wed. 29
Thu. 30
Fri. 31
07:00
08:00
09:00
10:00
11:00
12:00
13:00
14:00
15:00
16:00
17:00
18:00
19:00
20:00
21:00
Arrival
14:00 - 18:45 (4h45)
Arrival
Arrival
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:30 (45min)
Breakfast
Introduction
8:30 - 8:45 (15min)
Introduction
Lavery 1 - DNA fine structure and conformation flexibility
8:45 - 10:15 (1h30)
Lavery 1 - DNA fine structure and conformation flexibility
Coffee break
10:15 - 10:45 (30min)
Coffee break
Schiessel 1 - DNA as a wormlike chain (Euler elastica, Kirchhoff analogy, stretching DNA under an external force)
10:45 - 12:15 (1h30)
Schiessel 1 - DNA as a wormlike chain (Euler elastica, Kirchhoff analogy, stretching DNA under an external force)
Lunch
12:15 - 14:00 (1h45)
Lunch
Lavery 2 - All-atom molecular simulation techniques for nucleic acids
17:15 - 18:45 (1h30)
Lavery 2 - All-atom molecular simulation techniques for nucleic acids
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Schiessel 2 - Nucleosome as a DNA spool (nucleosome breathing and force-induced unwrapping)
8:45 - 10:15 (1h30)
Schiessel 2 - Nucleosome as a DNA spool (nucleosome breathing and force-induced unwrapping)
Coffee break
10:15 - 10:45 (30min)
Coffee break
Lavery 3 - Modeling DNA structure and dynamics
10:45 - 12:15 (1h30)
Lavery 3 - Modeling DNA structure and dynamics
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
de Pablo 1 - Coarse grain models of DNA, and the role of hydrodynamic interactions in dynamics
17:15 - 18:45 (1h30)
de Pablo 1 - Coarse grain models of DNA, and the role of hydrodynamic interactions in dynamics
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Lavery 4 - Modeling DNA-ligand and DNA-protein interactions
8:45 - 10:15 (1h30)
Lavery 4 - Modeling DNA-ligand and DNA-protein interactions
Coffee break
10:15 - 10:45 (30min)
Coffee break
de Pablo 2 - Atomistic and mesoscale models of DNA, their advantages and limitations
10:45 - 12:15 (1h30)
de Pablo 2 - Atomistic and mesoscale models of DNA, their advantages and limitations
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
Schiessel 3 - Chromatin fiber as a problem in geometry (two-angle model, multi-ribbon model)
17:15 - 18:45 (1h30)
Schiessel 3 - Chromatin fiber as a problem in geometry (two-angle model, multi-ribbon model)
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
de Pablo 3 - Coarse-grained models of DNA-histone interactions, and relevance for the study of chromatin
8:45 - 10:15 (1h30)
de Pablo 3 - Coarse-grained models of DNA-histone interactions, and relevance for the study of chromatin
Coffee break
10:15 - 10:45 (30min)
Coffee break
Weigt 1 - Regulatory DNA motifs I: From the biophysics of protein-DNA interaction to the bioinformatics of transcription factor binding sites
10:45 - 12:15 (1h30)
Weigt 1 - Regulatory DNA motifs I: From the biophysics of protein-DNA interaction to the bioinformatics of transcription factor binding sites
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
Seminar: Everaers - Universal Aspects of Chromosome Folding
17:15 - 18:45 (1h30)
Seminar: Everaers - Universal Aspects of Chromosome Folding
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Weigt 2 - How similar are two biological sequences: Algorithms for sequence alignment
8:45 - 10:15 (1h30)
Weigt 2 - How similar are two biological sequences: Algorithms for sequence alignment
Coffee break
10:15 - 10:45 (30min)
Coffee break
Arneodo 1 - Long-range correlations in eukaryotic DNA: a footprint of nucleosome packaging
10:45 - 12:15 (1h30)
Arneodo 1 - Long-range correlations in eukaryotic DNA: a footprint of nucleosome packaging
Lunch
12:15 - 14:00 (1h45)
Lunch
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Lunch
12:15 - 14:00 (1h45)
Lunch
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Schiessel 4 - Chromosome as a fractal globule (internal distances, contact probabilities, molten vs. fractal globule)
8:45 - 10:15 (1h30)
Schiessel 4 - Chromosome as a fractal globule (internal distances, contact probabilities, molten vs. fractal globule)
Coffee break
10:15 - 10:45 (30min)
Coffee break
Weigt 3 - Regulatory DNA motifs II: Using phylogeny for motif inference
10:45 - 12:15 (1h30)
Weigt 3 - Regulatory DNA motifs II: Using phylogeny for motif inference
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
ten Wolde 1 - Overview of noise in biochemical networks
17:15 - 18:45 (1h30)
ten Wolde 1 - Overview of noise in biochemical networks
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
ten Wolde 2 - Modeling biochemical networks
8:45 - 10:15 (1h30)
ten Wolde 2 - Modeling biochemical networks
Coffee break
10:15 - 10:45 (30min)
Coffee break
Arneodo 2 - DNA sequence effect on the nucleosomal organization of the eukaryotic chromatin fiber
10:45 - 12:15 (1h30)
Arneodo 2 - DNA sequence effect on the nucleosomal organization of the eukaryotic chromatin fiber
Lunch
12:15 - 14:00 (1h45)
Lunch
Weigt 4 - Co-evolution in proteins: From maximum-entropy modeling of protein families to 3D protein structure prediction
17:15 - 18:45 (1h30)
Weigt 4 - Co-evolution in proteins: From maximum-entropy modeling of protein families to 3D protein structure prediction
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Arneodo 3 - Large-scale analysis of genomic sequences: from the detection of replication origins to the modeling of replication in higher eukaryotes
8:45 - 10:15 (1h30)
Arneodo 3 - Large-scale analysis of genomic sequences: from the detection of replication origins to the modeling of replication in higher eukaryotes
Coffee break
10:15 - 10:45 (30min)
Coffee break
ten Wolde 3 - Simulating biochemical networks
10:45 - 12:15 (1h30)
ten Wolde 3 - Simulating biochemical networks
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
Seminar: Rivoire -
17:15 - 18:45 (1h30)
Seminar: Rivoire -
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
ten Wolde 4 - Quantifying information transmission in biochemical networks using measures from information theory
8:45 - 10:15 (1h30)
ten Wolde 4 - Quantifying information transmission in biochemical networks using measures from information theory
Coffee break
10:15 - 10:45 (30min)
Coffee break
Arneodo 4 - Spatio-temporal organization of replication: On genome evolution and large-scale chromatin folding
10:45 - 12:15 (1h30)
Arneodo 4 - Spatio-temporal organization of replication: On genome evolution and large-scale chromatin folding
Lunch
12:15 - 14:00 (1h45)
Lunch
Practical work
14:00 - 16:00 (2h)
Practical work
Presentations by participants
17:15 - 18:45 (1h30)
Presentations by participants
Dinner
19:30 - 21:00 (1h30)
Dinner
Breakfast
7:45 - 8:45 (1h)
Breakfast
Presentations by participants
8:45 - 10:15 (1h30)
Presentations by participants
Break
10:15 - 10:45 (30min)
Break
Presentations by participants
10:45 - 12:15 (1h30)
Presentations by participants
Lunch
12:15 - 14:00 (1h45)
Lunch
Departure
14:00 - 18:45 (4h45)
Departure
Departure
Online user:
1
Loading...