Maxim (Max) Imakaev
Maxim (Max) Imakaev
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Cited by
Comprehensive mapping of long-range interactions reveals folding principles of the human genome
E Lieberman-Aiden, NL Van Berkum, L Williams, M Imakaev, T Ragoczy, ...
science 326 (5950), 289-293, 2009
Formation of chromosomal domains by loop extrusion
G Fudenberg, M Imakaev, C Lu, A Goloborodko, N Abdennur, LA Mirny
Cell reports 15 (9), 2038-2049, 2016
Iterative correction of Hi-C data reveals hallmarks of chromosome organization
M Imakaev, G Fudenberg, RP McCord, N Naumova, A Goloborodko, ...
Nature methods 9 (10), 999-1003, 2012
Organization of the mitotic chromosome
N Naumova, M Imakaev, G Fudenberg, Y Zhan, BR Lajoie, LA Mirny, ...
Science 342 (6161), 948-953, 2013
Super-resolution imaging reveals distinct chromatin folding for different epigenetic states
AN Boettiger, B Bintu, JR Moffitt, S Wang, BJ Beliveau, G Fudenberg, ...
Nature 529 (7586), 418-422, 2016
Single-nucleus Hi-C reveals unique chromatin reorganization at oocyte-to-zygote transition
IM Flyamer, J Gassler, M Imakaev, HB Brandão, SV Ulianov, N Abdennur, ...
Nature 544 (7648), 110-114, 2017
High-resolution mapping of the spatial organization of a bacterial chromosome
TBK Le, MV Imakaev, LA Mirny, MT Laub
Science 342 (6159), 731-734, 2013
Chromatin organization by an interplay of loop extrusion and compartmental segregation
J Nuebler, G Fudenberg, M Imakaev, N Abdennur, L Mirny
Biophysical Journal 114 (3), 30a, 2018
Hi-C: a method to study the three-dimensional architecture of genomes.
NL Van Berkum, E Lieberman-Aiden, L Williams, M Imakaev, A Gnirke, ...
JoVE (Journal of Visualized Experiments), e1869, 2010
Genome-wide maps of nuclear lamina interactions in single human cells
J Kind, L Pagie, SS de Vries, L Nahidiazar, SS Dey, M Bienko, Y Zhan, ...
Cell 163 (1), 134-147, 2015
Heterochromatin drives compartmentalization of inverted and conventional nuclei
M Falk, Y Feodorova, N Naumova, M Imakaev, BR Lajoie, H Leonhardt, ...
Nature 570 (7761), 395-399, 2019
Active chromatin and transcription play a key role in chromosome partitioning into topologically associating domains
SV Ulianov, EE Khrameeva, AA Gavrilov, IM Flyamer, P Kos, ...
Genome research 26 (1), 70-84, 2016
A mechanism of cohesin‐dependent loop extrusion organizes zygotic genome architecture
J Gassler, HB Brandão, M Imakaev, IM Flyamer, S Ladstätter, ...
The EMBO journal 36 (24), 3600-3618, 2017
Compaction and segregation of sister chromatids via active loop extrusion
A Goloborodko, MV Imakaev, JF Marko, L Mirny
Elife 5, e14864, 2016
Emerging evidence of chromosome folding by loop extrusion
G Fudenberg, N Abdennur, M Imakaev, A Goloborodko, LA Mirny
Cold Spring Harbor symposia on quantitative biology 82, 45-55, 2017
Immune genes are primed for robust transcription by proximal long noncoding RNAs located in nuclear compartments
S Fanucchi, ET Fok, E Dalla, Y Shibayama, K Börner, EY Chang, ...
Nature genetics 51 (1), 138-150, 2019
Two major mechanisms of chromosome organization
LA Mirny, M Imakaev, N Abdennur
Current opinion in cell biology 58, 142-152, 2019
Chromatin loops as modulators of enhancer-promoter interactions in their vicinity
B Doyle, G Fudenberg, M Imakaev, LA Mirny
arXiv preprint arXiv:1403.1236, 2014
Chromatin loops as allosteric modulators of enhancer-promoter interactions
B Doyle, G Fudenberg, M Imakaev, LA Mirny
PLoS computational biology 10 (10), e1003867, 2014
FISH-ing for captured contacts: towards reconciling FISH and 3C
G Fudenberg, M Imakaev
Nature methods 14 (7), 673-678, 2017
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