FORNARA, FABIO
 Distribuzione geografica
Continente #
EU - Europa 2.755
AS - Asia 2.044
NA - Nord America 2.022
SA - Sud America 33
OC - Oceania 23
AF - Africa 5
Continente sconosciuto - Info sul continente non disponibili 3
Totale 6.885
Nazione #
US - Stati Uniti d'America 1.996
CN - Cina 1.307
GB - Regno Unito 903
IT - Italia 577
DE - Germania 388
SE - Svezia 347
SG - Singapore 295
IN - India 112
RU - Federazione Russa 105
JP - Giappone 83
IE - Irlanda 67
FI - Finlandia 66
DK - Danimarca 60
KR - Corea 58
FR - Francia 53
TR - Turchia 52
ID - Indonesia 49
UA - Ucraina 40
NL - Olanda 33
NO - Norvegia 31
BE - Belgio 25
CA - Canada 23
EU - Europa 23
PH - Filippine 22
TW - Taiwan 22
HK - Hong Kong 17
CH - Svizzera 15
CO - Colombia 14
AU - Australia 13
ES - Italia 12
NZ - Nuova Zelanda 10
IR - Iran 9
AR - Argentina 8
BR - Brasile 8
GR - Grecia 8
PL - Polonia 6
AT - Austria 5
MY - Malesia 5
RO - Romania 5
AE - Emirati Arabi Uniti 3
CZ - Repubblica Ceca 3
PT - Portogallo 3
TH - Thailandia 3
AL - Albania 2
CL - Cile 2
PK - Pakistan 2
SC - Seychelles 2
A2 - ???statistics.table.value.countryCode.A2??? 1
BD - Bangladesh 1
CR - Costa Rica 1
EE - Estonia 1
GE - Georgia 1
IL - Israele 1
JO - Giordania 1
LK - Sri Lanka 1
MA - Marocco 1
MX - Messico 1
NG - Nigeria 1
PR - Porto Rico 1
VE - Venezuela 1
ZA - Sudafrica 1
Totale 6.906
Città #
Southend 822
Milan 281
Chandler 244
Beijing 222
Hangzhou 193
Singapore 190
Fairfield 163
Hanover 142
Seattle 139
Wilmington 126
Ashburn 104
Dearborn 92
Guangzhou 90
Ann Arbor 88
Princeton 88
Nanjing 77
Cambridge 76
Houston 75
Woodbridge 74
Dublin 67
Shanghai 58
Wuhan 48
Munich 47
Bengaluru 38
Des Moines 38
Frankfurt am Main 36
Jakarta 35
Redmond 35
Helsinki 34
Jinan 34
Santa Clara 33
Boardman 29
Tokyo 29
Shenyang 28
Berlin 27
Mountain View 27
Hebei 26
Phoenix 26
Rome 26
Zhengzhou 25
Jacksonville 23
Redwood City 22
Roxbury 21
San Diego 20
Changsha 19
Tappahannock 19
Xian 17
Chicago 16
Sakarya 16
Taipei 16
Tianjin 15
Bogotá 14
Brussels 14
Seoul 14
Auburn Hills 13
Bühl 13
Los Angeles 13
Lanzhou 12
Andover 11
London 10
Nanchang 10
Serra 10
Changchun 9
Chengdu 9
Falls Church 9
Fuzhou 9
New York 9
Auckland 8
Hefei 8
Kunming 8
Somerville 8
Washington 8
Athens 7
Padova 7
Silver Spring 7
Bologna 6
Chongqing 6
Cormano 6
Eitensheim 6
Hong Kong 6
Jiaxing 6
Kent 6
Mannheim 6
Ningbo 6
North Bergen 6
Taizhou 6
Turin 6
Zurich 6
Cologne 5
Costa Mesa 5
Fremont 5
Fukui 5
Manila 5
Nanning 5
Rho 5
Shenzhen 5
Sunnyvale 5
Taiyuan 5
West Lafayette 5
Yokohama 5
Totale 4.614
Nome #
Hd3a, RFT1 and Ehd1 integrate photoperiodic and drought stress signals to delay the floral transition in rice 360
Antagonistic Transcription Factor Complexes Modulate the Floral Transition in Rice 295
Transcriptional and Post-transcriptional Mechanisms Limit Heading Date 1 (Hd1) Function to Adapt Rice to High Latitudes 269
The Importance of Being on Time : Regulatory Networks Controlling Photoperiodic Flowering in Cereals 257
Functional characterization of OsMADS18, a member of the AP1/SQUA subfamily of MADS box genes 256
The transcription factor FLC confers a flowering response to vernalization by repressing meristem competence and systemic signaling in Arabidopsis 254
SnapShot : Control of flowering in Arabidopsis 254
Alternative splicing enhances transcriptome complexity in desiccating seeds 232
Molecular control of seasonal flowering in rice, arabidopsis and temperate cereals 222
OsFD4 promotes the rice floral transition via florigen activation complex formation in the shoot apical meristem 222
The rice StMADS11-like genes OsMADS22 and OsMADS47 cause floral reversions in Arabidopsis without complementing the svp and agl24 mutants 213
DOF-binding sites additively contribute to guard cell-specificity of AtMYB60 promoter 202
A transcription factor coordinating internode elongation and photoperiodic signals in rice 200
Combinatorial activities of SHORT VEGETATIVE PHASE and FLOWERING LOCUS C define distinct modes of flowering regulation in Arabidopsis 186
The D-lineage MADS-box gene OsMADS13 controls ovule identity in rice 185
Y flowering? Regulation and activity of CONSTANS and CCT-domain proteins in arabidopsis and crop species 184
Control of flowering in rice through synthetic microProteins 182
MADS-box genes controlling flower development in rice 167
Analisi funzionale di fattori di trascrizione di tipo MADS coinvolti nello sviluppo fiorale di riso, utilizzando sistemi trasponibili di mais 166
A missing piece in the control of rice flowering and inflorescence determinacy 156
EU-OSTID : a collection of transposon insertional mutants for functional genomics in rice 148
Loss of floral repressor function adapts rice to higher latitudes in Europe 147
Genome Editing in Crop Species 147
Plant Flowering : Imposing DNA Specificity on Histone-Fold Subunits 144
Analysis of the Arabidopsis shoot meristem transcriptome during floral transition identifies distinct regulatory patterns and a leucine-rich repeat protein that promotes flowering 139
Structural determinants for NF-Y subunit organization and NF-Y/DNA association in plants 138
Comparative analysis of rice MADS-box genes expressed during flower development 137
FT protein movement contributes to long-distance signaling in floral induction of Arabidopsis 131
Photoperiodic control of flowering in Arabidopsis 127
AGL24 acts in concert with SOC1 and FUL during Arabidopsis floral transition 120
The GI-CDF module of Arabidopsis affects freezing tolerance and growth as well as flowering 119
Rice florigens control a common set of genes at the shoot apical meristem including the F-BOX BROADER TILLER ANGLE 1 that regulates tiller angle and spikelet development 118
Genome wide screening and comparative genome analysis for Meta-QTLs, ortho-MQTLs and candidate genes controlling yield and yield-related traits in rice 117
Regulation and identity of florigen: FLOWERING LOCUS T moves center stage 113
Molecular control of flowering in response to day length in rice 103
Phosphorylation of CONSTANS and its COP1-dependent degradation during photoperiodic flowering of Arabidopsis 102
Arabidopsis DOF transcription factors act redundantly to reduce CONSTANS expression and are essential for a photoperiodic flowering response 100
Plant phase transitions make a SPLash 96
Short vegetative phase reduces gibberellin biosynthesis at the Arabidopsis shoot apex to regulate the floral transition 92
The molecular genetics of floral transition and flower development 82
Targeted knockout of the gene OsHOL1 removes methyl iodide emissions from rice plants 80
Environmental Control of Rice Flowering Time 77
SPL transcription factors prevent inflorescence reversion in rice 74
Precise and heritable gene targeting in rice using a sequential transformation strategy 42
Two florigens and a florigen-like protein form a triple regulatory module at the shoot apical meristem to promote reproductive transitions in rice 40
The history of GM crops in Italy: After two decades of a de facto ban, the engagement of farmers and scientists has prompted the Italian government to allow field-testing of NGT/TEA plants again 5
Totale 7.200
Categoria #
all - tutte 19.634
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 19.634


Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2019/2020504 0 0 0 0 0 0 111 40 156 107 57 33
2020/2021783 66 86 45 34 75 76 38 63 69 110 94 27
2021/20221.037 70 47 177 119 81 48 52 71 48 85 79 160
2022/2023983 146 105 83 97 77 156 24 61 76 8 118 32
2023/2024707 29 55 49 65 139 57 50 49 10 49 66 89
2024/2025644 73 91 54 144 98 112 72 0 0 0 0 0
Totale 7.200