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Daniel Jost
Daniel Jost
Physical Biology of Chromatin - Laboratory of Biology and Modeling of the Cell, CNRS, ENS Lyon
在 ens-lyon.fr 的电子邮件经过验证 - 首页
标题
引用次数
引用次数
年份
Modeling epigenome folding: formation and dynamics of topologically associated chromatin domains
D Jost, P Carrivain, G Cavalli, C Vaillant
Nucleic acids research 42 (15), 9553-9561, 2014
4092014
TADs are 3D structural units of higher-order chromosome organization in Drosophila
Q Szabo, D Jost, JM Chang, DI Cattoni, GL Papadopoulos, B Bonev, ...
Science Advances 4 (2), eaar8082, 2018
2592018
4D genome rewiring during oncogene-induced and replicative senescence
S Sati, B Bonev, Q Szabo, D Jost, P Bensadoun, F Serra, V Loubiere, ...
Molecular cell 78 (3), 522-538. e9, 2020
1312020
How epigenome drives chromatin folding and dynamics, insights from efficient coarse-grained models of chromosomes
SK Ghosh, D Jost
PLOS Computational Biology 14 (5), e1006159, 2018
812018
IC-Finder: inferring robustly the hierarchical organization of chromatin folding
N Haddad, C Vaillant, D Jost
Nucleic acids research 45 (10), e81-e81, 2017
782017
Perspectives: using polymer modeling to understand the formation and function of nuclear compartments
N Haddad, D Jost, C Vaillant
Chromosome Research 25, 35-50, 2017
742017
Epigenomics in 3D: importance of long-range spreading and specific interactions in epigenomic maintenance
D Jost, C Vaillant
Nucleic acids research 46 (5), 2252-2264, 2018
692018
Differential spatial and structural organization of the X chromosome underlies dosage compensation in C. elegans
R Sharma, D Jost, J Kind, G Gómez-Saldivar, B van Steensel, P Askjaer, ...
Genes & development 28 (23), 2591-2596, 2014
582014
A Unified Poland-Scheraga Model of Oligo-and Polynucleotide DNA Melting: Salt Effects and Predictive Power
D Jost, R Everaers
Biophysical journal 96 (3), 1056-1067, 2009
542009
Coupling 1D modifications and 3D nuclear organization: data, models and function
D Jost, C Vaillant, P Meister
Current Opinion in Cell Biology 44, 20-27, 2017
512017
Rouse model with transient intramolecular contacts on a timescale of seconds recapitulates folding and fluctuation of yeast chromosomes
M Socol, R Wang, D Jost, P Carrivain, C Vaillant, E Le Cam, V Dahirel, ...
Nucleic acids research 47 (12), 6195-6207, 2019
502019
Bifurcation in epigenetics: Implications in development, proliferation, and diseases
D Jost
Physical Review E 89 (1), 010701, 2014
482014
Chromosome dynamics during interphase: a biophysical perspective
MMC Tortora, H Salari, D Jost
Current Opinion in Genetics & Development 61, 37-43, 2020
442020
Small RNA biology is systems biology
D Jost, A Nowojewski, E Levine
BMB reports 44 (1), 11-21, 2011
432011
Temperature Dependence of the DNA Double Helix at the Nanoscale: Structure, Elasticity, and Fluctuations
S Meyer, D Jost, N Theodorakopoulos, M Peyrard, R Lavery, R Everaers
Biophysical Journal 105 (8), 1904-1914, 2013
402013
Guidelines for cell-type heterogeneity quantification based on a comparative analysis of reference-free DNA methylation deconvolution software
C Decamps, F Privé, R Bacher, D Jost, A Waguet, EA Houseman, E Lurie, ...
BMC bioinformatics 21, 1-15, 2020
382020
The folding landscape of the epigenome
JD Olarte-Plata, N Haddad, C Vaillant, D Jost
Physical Biology 13 (2), 026001, 2016
372016
4D nucleome modeling
M Di Stefano, J Paulsen, D Jost, MA Marti-Renom
Current Opinion in Genetics & Development 67, 25-32, 2021
352021
Polymer modelling unveils the roles of heterochromatin and nucleolar organizing regions in shaping 3D genome organization in Arabidopsis thaliana
M Di Stefano, HW Nützmann, MA Marti-Renom, D Jost
Nucleic Acids Research 49 (4), 1840-1858, 2021
312021
Spatial organization of chromosomes leads to heterogeneous chromatin motion and drives the liquid-or gel-like dynamical behavior of chromatin
H Salari, M Di Stefano, D Jost
Genome Research 32 (1), 28-43, 2022
302022
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