IRIS
Esposito, Andrea
 Distribuzione geografica
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Continente #
AS - Asia 2.192
EU - Europa 1.566
NA - Nord America 1.514
SA - Sud America 232
AF - Africa 52
OC - Oceania 1
Totale 5.557
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Nazione #
US - Stati Uniti d'America 1.447
SG - Singapore 921
RU - Federazione Russa 665
IT - Italia 463
CN - Cina 442
VN - Vietnam 414
HK - Hong Kong 188
BR - Brasile 183
DE - Germania 106
FR - Francia 83
NL - Olanda 61
JP - Giappone 48
GB - Regno Unito 42
KR - Corea 36
IN - India 33
FI - Finlandia 31
CA - Canada 29
PL - Polonia 26
MX - Messico 25
BD - Bangladesh 22
ZA - Sudafrica 17
ES - Italia 15
RO - Romania 14
AT - Austria 13
CI - Costa d'Avorio 13
PH - Filippine 13
SE - Svezia 13
AR - Argentina 12
TH - Thailandia 10
EC - Ecuador 9
ID - Indonesia 9
IQ - Iraq 9
PK - Pakistan 8
VE - Venezuela 8
DZ - Algeria 7
TR - Turchia 6
TW - Taiwan 6
CL - Cile 5
CO - Colombia 5
IE - Irlanda 5
LT - Lituania 5
PY - Paraguay 5
SA - Arabia Saudita 4
UA - Ucraina 4
AE - Emirati Arabi Uniti 3
CH - Svizzera 3
DO - Repubblica Dominicana 3
ET - Etiopia 3
BE - Belgio 2
BO - Bolivia 2
BY - Bielorussia 2
IL - Israele 2
JM - Giamaica 2
JO - Giordania 2
LB - Libano 2
LC - Santa Lucia 2
NO - Norvegia 2
NP - Nepal 2
SC - Seychelles 2
SN - Senegal 2
UZ - Uzbekistan 2
AM - Armenia 1
AZ - Azerbaigian 1
BA - Bosnia-Erzegovina 1
BB - Barbados 1
BG - Bulgaria 1
BS - Bahamas 1
BW - Botswana 1
CY - Cipro 1
CZ - Repubblica Ceca 1
DK - Danimarca 1
EG - Egitto 1
FJ - Figi 1
GF - Guiana Francese 1
GR - Grecia 1
GT - Guatemala 1
HN - Honduras 1
HR - Croazia 1
KE - Kenya 1
KG - Kirghizistan 1
KH - Cambogia 1
KY - Cayman, isole 1
KZ - Kazakistan 1
MA - Marocco 1
ML - Mali 1
MT - Malta 1
MY - Malesia 1
NG - Nigeria 1
PE - Perù 1
PS - Palestinian Territory 1
PT - Portogallo 1
QA - Qatar 1
RS - Serbia 1
SI - Slovenia 1
SK - Slovacchia (Repubblica Slovacca) 1
TN - Tunisia 1
TT - Trinidad e Tobago 1
UY - Uruguay 1
YE - Yemen 1
ZW - Zimbabwe 1
Totale 5.557
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Città #
Singapore 481
San Jose 292
Ashburn 197
Hefei 177
Naples 176
Hong Kong 175
Moscow 165
Ho Chi Minh City 123
Santa Clara 121
Beijing 97
Hanoi 94
Chandler 75
Los Angeles 64
Lauterbourg 54
Amsterdam 50
Tokyo 44
Munich 43
New York 34
Seoul 30
The Dalles 29
Millbury 27
São Paulo 26
Napoli 24
Haiphong 22
Milan 21
Rome 20
Helsinki 19
Redondo Beach 19
Da Nang 17
Warsaw 17
Lawrence 16
Boston 15
Buffalo 14
Des Moines 13
Düsseldorf 13
London 13
Mexico City 13
Timisoara 13
Council Bluffs 12
Dallas 12
Frankfurt am Main 12
Johannesburg 12
Stockholm 12
Brooklyn 11
Nuremberg 11
Wilmington 11
Orem 10
Toronto 10
Chennai 9
Seattle 9
Turku 9
Biên Hòa 8
Hải Dương 8
Phoenix 8
Washington 8
Bắc Giang 7
Casapulla 7
Guangzhou 7
Nanjing 7
Wroclaw 7
Charlotte 6
Chicago 6
Falkenstein 6
Montreal 6
Ninh Bình 6
Pianura 6
Princeton 6
San Francisco 6
Xi'an 6
Denver 5
Florence 5
Guayaquil 5
Houston 5
Poplar 5
Atlanta 4
Baghdad 4
Bangkok 4
Bengaluru 4
Bexley 4
Bologna 4
Quảng Ngãi 4
Ribeirão Preto 4
Shanghai 4
Uberlândia 4
Addis Ababa 3
Belo Horizonte 3
Berlin 3
Bình Phước 3
Bắc Ninh 3
Bến Tre 3
Calgary 3
Columbus 3
Curitiba 3
Dhaka 3
Genoa 3
Hyderabad 3
Jiaxing 3
Kronberg 3
Las Vegas 3
Latiano 3
Totale 3.217
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Nome #
High-performance computing in biological physics 200
Hmga2 protein loss alters nuclear envelope and 3D chromatin structure 184
A Dynamic Folded Hairpin Conformation Is Associated with α-Globin Activation in Erythroid Cells 170
A Multiscale Perspective on Chromatin Architecture through Polymer Physics 166
Inference of chromosome 3D structures from GAM data by a physics computational approach 161
Loop-extrusion and polymer phase-separation can co-exist at the single-molecule level to shape chromatin folding 159
Predicting chromatin architecture from models of polymer physics 159
Computational approaches from polymer physics to investigate chromatin folding 158
Modeling Single-Molecule Conformations of the HoxD Region in Mouse Embryonic Stem and Cortical Neuronal Cells 153
A modern challenge of polymer physics: Novel ways to study, interpret, and reconstruct chromatin structure 147
Multiscale modelling of chromatin 4D organization in SARS-CoV-2 infected cells 141
Molecular Dynamics simulations of the Strings and Binders Switch model of chromatin 141
Models of polymer physics for the architecture of the cell nucleus 134
Unveiling the Machinery behind Chromosome Folding by Polymer Physics Modeling 133
The Physics of DNA Folding: Polymer Models and Phase-Separation 131
Structure of the human chromosome interaction network 130
Detecting higher-order chromosome interactions by polymer modeling 129
Comparison of the Hi-C, GAM and SPRITE methods using polymer models of chromatin 126
Polymer Models of Chromatin Imaging Data in Single Cells 126
Efficient computational implementation of polymer physics models to explore chromatin structure 126
Understanding chromatin structure: Efficient computational implementation of polymer physics models 126
A Polymer Physics Model to Dissect Genome Organization in Healthy and Pathological Phenotypes 120
Polymer physics reveals a combinatorial code linking 3D chromatin architecture to 1D chromatin states 117
Polymer models of chromatin organization in virally infected cells 116
Physical mechanisms of chromatin spatial organization 116
Preformed chromatin topology assists transcriptional robustness of Shh during limb development 115
Polymer models are a versatile tool to study chromatin 3d organization 113
A polymer physics investigation of the architecture of the murine orthologue of the 7q11.23 human locus 112
Dynamic 3D chromatin architecture contributes to enhancer specificity and limb morphogenesis 112
Loss of structural specificity in 3D genome organization upon viral infection is predicted by polymer physics 112
The scaling features of the 3D organization of chromosomes are highlighted by a transformation a la Kadanoff of Hi-C data 111
Polymer Physics Models Reveal Structural Folding Features of Single-Molecule Gene Chromatin Conformations 110
Dynamic and equilibrium properties of finite-size polymer models of chromosome folding 108
3DGenBench: a web-server to benchmark computational models for 3D Genomics 105
Analysis of Genome Architecture Mapping Data with a Machine Learning and Polymer-Physics-Based Tool 104
Hybrid Machine Learning and Polymer Physics Approach to Investigate 3D Chromatin Structure 104
Higher-order Chromosome Structures Investigated by Polymer Physics in Cellular Morphogenesis and Differentiation 104
Polymer physics indicates chromatin folding variability across single-cells results from state degeneracy in phase separation 103
Repression and 3D-restructuring resolves regulatory conflicts in evolutionarily rearranged genomes 94
The Strings and Binders Switch Model of Chromatin 94
Physics-Based Polymer Models to Probe Chromosome Structure in Single Molecules 90
A novel complex genomic rearrangement affecting the KCNJ2 regulatory region causes a variant of Cooks syndrome 89
Polymer Physics of the Large-Scale Structure of Chromatin 87
Polymer physics of chromosome large-scale 3D organisation 82
POLYMER PHYSICS MODELING AND COMPUTER SIMULATIONS RECAPITULATE GENOME 3D ORGANIZATION AFTER COHESIN DEPLETION 65
An integrated view of the structure and function of the human 4D nucleome 43
Totale 5.626
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Categoria #
all - tutte 15.539
article - articoli 0
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 0
Totale 15.539
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/202110 0 0 0 0 0 0 0 0 0 0 2 8
2021/2022154 5 1 3 3 0 33 0 5 9 18 28 49
2022/2023250 22 1 16 8 27 27 1 29 42 47 24 6
2023/2024242 11 19 16 38 16 66 3 18 6 3 30 16
2024/20251.667 40 40 54 31 46 133 149 122 108 151 569 224
2025/20263.178 371 372 331 245 500 89 468 183 376 125 118 0
Totale 5.626