FRACCALVIERI, DOMENICO
 Distribuzione geografica
Continente #
NA - Nord America 1.360
EU - Europa 713
AS - Asia 204
Continente sconosciuto - Info sul continente non disponibili 1
SA - Sud America 1
Totale 2.279
Nazione #
US - Stati Uniti d'America 1.334
DE - Germania 292
CN - Cina 110
SE - Svezia 100
IT - Italia 91
UA - Ucraina 84
IE - Irlanda 57
HK - Hong Kong 42
GB - Regno Unito 33
CA - Canada 26
VN - Vietnam 24
IN - India 22
FI - Finlandia 20
RU - Federazione Russa 8
FR - Francia 7
NL - Olanda 7
BE - Belgio 6
DK - Danimarca 3
IR - Iran 2
NO - Norvegia 2
TR - Turchia 2
BR - Brasile 1
CZ - Repubblica Ceca 1
ES - Italia 1
EU - Europa 1
PT - Portogallo 1
SG - Singapore 1
TW - Taiwan 1
Totale 2.279
Città #
Ann Arbor 194
Houston 168
Fairfield 152
Chandler 144
Woodbridge 117
Frankfurt am Main 95
Jacksonville 89
Ashburn 74
Seattle 61
Dublin 55
Cambridge 54
Dearborn 44
Hong Kong 42
Wilmington 42
Milan 38
Princeton 34
Shanghai 34
New York 31
Nanjing 19
Beijing 18
Dong Ket 16
Lachine 15
Altamura 12
Lawrence 11
Nürnberg 11
Parabiago 8
Andover 7
Changsha 7
San Diego 7
Brussels 6
Huizen 6
Helsinki 5
Tianjin 5
Toronto 5
Cagliari 4
Falls Church 4
Hebei 4
Mountain View 4
Nanchang 4
Jiaxing 3
Jinan 3
Norwalk 3
Ottawa 3
Perugia 3
Rho 3
Shenyang 3
Boardman 2
Bologna 2
Edmonton 2
Guangzhou 2
Nanning 2
Pune 2
Zhengzhou 2
Amadora 1
Amsterdam 1
Auburn Hills 1
Bangalore 1
Berlin 1
Chicago 1
Chiswick 1
Gallarate 1
Gavirate 1
Grafing 1
Hattiesburg 1
Kiev 1
Kilburn 1
Kolkata 1
London 1
Loreto 1
Los Angeles 1
Macerata 1
Mililani 1
Munich 1
Nanping 1
Nottingham 1
Oxford 1
Paris 1
Pescara 1
Petrópolis 1
Pincourt 1
Pogliano Milanese 1
Prague 1
Rome 1
Saint Petersburg 1
San Francisco 1
San Giuliano Milanese 1
Seriate 1
Suzhou 1
Tappahannock 1
Union City 1
University Park 1
Vecchiano 1
Washington 1
Totale 1.721
Nome #
Functional annotation of the mesophilic-like character of mutants in a cold-adapted enzyme by self-organising map analysis of their molecular dynamics 325
Self organizing maps to efficiently cluster and functionally interpret protein conformational ensembles 170
Ginsenosides are novel naturally-occurring aryl hydrocarbon receptor ligands 168
Design of gliadin peptide analogues with low affinity for the celiac disease associated HLA–DQ2 protein 165
AHR Ligands: Promiscuity in Binding and Diversity in Response 151
Artificial Neural Networks for Efficient Clustering of Conformational Ensembles and their Potential for Medicinal Chemistry 151
Conformational and functional analysis of molecular dynamics trajectories by Self-Organising Maps 146
An aryl hydrocarbon receptor from the salamander ambystoma mexicanum exhibits low sensitivity to 2,3,7,8-tetrachlorodibenzo -p -dioxin 145
Identification of potential aryl hydrocarbon receptor ligands by virtual screening of industrial chemicals 134
Specific Ligand Binding Domain Residues Confer Low Dioxin Responsiveness to AHR1β of Xenopus laevis 133
A new methodology for the comparison of protein dynamics based on self-organizing maps 128
Comparative Analysis of Homology Models of the Ah Receptor Ligand Binding Domain: Verification of Structure-Function Predictions by Site-Directed Mutagenesis of a Nonfunctional Receptor 125
Comparison of protein dynamics: a new methodology based on self-organizing maps 111
Comparison of protein flexibilities: a study case on wild type and mutants of the SH3 domain 111
Functional interpretation of protein conformational ensembles using self-organizing maps and network components 94
Functional annotation of protein conformations by Self-Organizing Maps 91
Totale 2.348
Categoria #
all - tutte 6.021
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 6.021


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2018/2019116 0 0 0 0 0 0 0 0 0 0 66 50
2019/2020495 59 20 30 41 49 56 68 35 57 44 29 7
2020/2021231 23 15 21 29 10 11 17 13 20 28 8 36
2021/2022137 1 15 17 6 4 17 8 7 12 14 9 27
2022/2023454 32 138 71 41 35 68 3 22 30 0 7 7
2023/2024206 9 8 4 4 28 52 44 27 27 1 2 0
Totale 2.348