Sfoglia per Autore
Krit1: a nucleocytoplasmic shuttling protein associated with Cerebral Cavernous Malformations
2005-01-01 AVOLIO M; FRANCALANCI F; DEGANI S; MARINO M; DE LUCA E; FRAIOLI F; BALZAC F; S. RETTA
Structural and functional differences between Krit1A and Krit1B isoforms
2006-01-01 FRANCALANCI F; AVOLIO M; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S
Krit1 meets partners in distinct subcellular compartments through its “FERM” domain
2006-01-01 FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S
Krit1 meets partners in distinct subcellular compartments through its “FERM” domain
2006-01-01 FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; TRABALZINI L.; RETTA S
Krit1 contains a PTB domain that acts as a passport for nuclear translocation
2006-01-01 AVOLIO M; FRANCALANCI F; DE LUCA E; MARINO M; DEGANI S; BALZAC F; TARONE G; RETTA S
Characterization of the cellular functions of KRIT1, the disease gene responsible for type 1 Cerebral Cavernous Malformations (CCM1)
2007-01-01 AVOLIO M; FRANCALANCI F; DEGANI S; BALZAC F; GOITRE L; DE LUCA E; MARINO M; RECUPERO D; ORSO F; TAVERNA D; RETTA S
KRIT1, a protein involved in Cerebral Cavernous Malformation pathogenesis, is a target of oxidative stress
2007-01-01 MARINO M; GOITRE L; FRANCALANCI F; AVOLIO M; DE LUCA E; SGR F; BALZAC F; TARONE G; RETTA S
KRIT1, the disease gene responsible for type 1 Cerebral Cavernous Malformations (CCM1), acts as a modulator of RAP1A and ICAP1A functions
2007-01-01 AVOLIO M; FRANCALANCI F; DEGANI S; DE LUCA E; MARINO M; GOITRE L; RECUPERO D; BALZAC F; RETTA S
Structural and functional differences between Krit1A and Krit1B isoforms: a framework for understanding CCM pathogenesis
2007-01-01 Francalanci F.; Longo D.; Guazzi P.; Avolio M.; De Luca E.; Ferro E.; Tarone G.; Trabalzini L.; Menchise V.; Retta S.F.
The N-terminal and C-terminal domains of KRIT1 protein may regulate its localization in distinct subcellular compartments
2007-01-01 FERRO E; GUAZZI P; FRANCALANCI F; AVOLIO M; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S; TRABALZINI L
Krit1A and Krit1B isoforms are characterized by distinct subcellular localizations and functions
2007-01-01 AVOLIO M; FRANCALANCI F; DE LUCA E; SGR F; DEGANI S; BALZAC F; TARONE G; RETTA S
Structural and functional differences of Krit1A and Krit1B isoforms: a framework for understanding CCM pathogenesis
2007-01-01 GUAZZI P; FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S
KRIT1A, a protein involved in the human disease Cerebral Cavernous Malformation, is a molecular sensor for oxidative stress
2008-01-01 Marino M.; Francalanci F.; Avolio M.; De Luca E.; Balzac F.; Degani S.; Goitre L.; Sgrò F.; Tarone G.; Retta S.F.
KRIT1 regulates cell adhesion by controlling ICAP1A functions and cytoskeleton dynamics
2008-01-01 De Luca E.; Avolio M.; Francalanci F.; Marino M.; Degani S.; Balzac F.; Goitre L.; Sgrò F.; Tarone G.; Retta S.F.
Structural and Functional Differences between KRIT1A and KRIT1B Isoforms: a Framework for Understanding CCM Pathogenesis
2008-01-01 Francalanci F.; Avolio M.; De Luca E.; Longo D.; Menchise V.; Guazzi P.; Sgrò F.; Marino M.; Goitre L.; Balzac F.; Trabalzini L.; Retta S.F.
Structural and Functional Differences between KRIT1A and KRIT1B Isoforms: a Framework for Understanding CCM Pathogenesis.
2009-01-01 Francalanci, Floriana; Avolio, Maria; DE LUCA, Elisa; Longo, Dario Livio; Menchise, V.; Guazzi, P.; Sgro', Francesco; Marino, Marco; Goitre, Luca; Balzac, Fiorella; Trabalzini, L.; Retta, Saverio Francesco
Structural and functional differences between KRIT1A and KRIT1B isoforms: a framework for understanding CCM pathogenesis
2009-01-01 Floriana Francalanci; Maria Avolio; Elisa De Luca; Dario Longo; Valeria Menchise; Paolo Guazzi; Francesco Sgrò; Marco Marino; Luca Goitre; Fiorella Balzac; Lorenza Trabalzini; Saverio Francesco Retta
p140Cap suppresses the invasive properties of highly metastatic MTLn3-EGFR cells via impaired cortactin phosphorylation.
2012-01-01 Damiano L; Le Dévédec SE; Di Stefano P; Repetto D; Lalai R; Truong H; Xiong JL; Danen EH; Yan K; Verbeek FJ; De Luca E; Attanasio F; Buccione R; Turco E; van de Water B; Defilippi P
KRIT1 loss-of-function causes a ROS-dependent upregulation of transcription factors involved in oxidative stress responses
2013-01-01 Goitre L.; De Luca E.; Braggion S.; Forni M.; Moglia A.; Retta SF
MRI tracking of macrophages labeled with glucan particles entrapping a water insoluble paramagnetic Gd-based agent
2013-01-01 S. Figueiredo; J. C. Cutrin; S. Rizzitelli; E. De Luca; J. N. Moreira; C. F. G. C. Geraldes; S. Aime; E. Terreno
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| Krit1: a nucleocytoplasmic shuttling protein associated with Cerebral Cavernous Malformations | 2005 | AVOLIO M; FRANCALANCI F; DEGANI S; MARINO M; DE LUCA E; FRAIOLI F; BALZAC F; S. RETTA | |
| Structural and functional differences between Krit1A and Krit1B isoforms | 2006 | FRANCALANCI F; AVOLIO M; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S | |
| Krit1 meets partners in distinct subcellular compartments through its “FERM” domain | 2006 | FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S | |
| Krit1 meets partners in distinct subcellular compartments through its “FERM” domain | 2006 | FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; TRABALZINI L.; RETTA S | |
| Krit1 contains a PTB domain that acts as a passport for nuclear translocation | 2006 | AVOLIO M; FRANCALANCI F; DE LUCA E; MARINO M; DEGANI S; BALZAC F; TARONE G; RETTA S | |
| Characterization of the cellular functions of KRIT1, the disease gene responsible for type 1 Cerebral Cavernous Malformations (CCM1) | 2007 | AVOLIO M; FRANCALANCI F; DEGANI S; BALZAC F; GOITRE L; DE LUCA E; MARINO M; RECUPERO D; ORSO F; TAVERNA D; RETTA S | |
| KRIT1, a protein involved in Cerebral Cavernous Malformation pathogenesis, is a target of oxidative stress | 2007 | MARINO M; GOITRE L; FRANCALANCI F; AVOLIO M; DE LUCA E; SGR F; BALZAC F; TARONE G; RETTA S | |
| KRIT1, the disease gene responsible for type 1 Cerebral Cavernous Malformations (CCM1), acts as a modulator of RAP1A and ICAP1A functions | 2007 | AVOLIO M; FRANCALANCI F; DEGANI S; DE LUCA E; MARINO M; GOITRE L; RECUPERO D; BALZAC F; RETTA S | |
| Structural and functional differences between Krit1A and Krit1B isoforms: a framework for understanding CCM pathogenesis | 2007 | Francalanci F.; Longo D.; Guazzi P.; Avolio M.; De Luca E.; Ferro E.; Tarone G.; Trabalzini L.; Menchise V.; Retta S.F. | |
| The N-terminal and C-terminal domains of KRIT1 protein may regulate its localization in distinct subcellular compartments | 2007 | FERRO E; GUAZZI P; FRANCALANCI F; AVOLIO M; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S; TRABALZINI L | |
| Krit1A and Krit1B isoforms are characterized by distinct subcellular localizations and functions | 2007 | AVOLIO M; FRANCALANCI F; DE LUCA E; SGR F; DEGANI S; BALZAC F; TARONE G; RETTA S | |
| Structural and functional differences of Krit1A and Krit1B isoforms: a framework for understanding CCM pathogenesis | 2007 | GUAZZI P; FRANCALANCI F; AVOLIO M; FERRO E; MARINO M; DE LUCA E; DEGANI S; BALZAC F; TARONE G; RETTA S | |
| KRIT1A, a protein involved in the human disease Cerebral Cavernous Malformation, is a molecular sensor for oxidative stress | 2008 | Marino M.; Francalanci F.; Avolio M.; De Luca E.; Balzac F.; Degani S.; Goitre L.; Sgrò F.; Tarone G.; Retta S.F. | |
| KRIT1 regulates cell adhesion by controlling ICAP1A functions and cytoskeleton dynamics | 2008 | De Luca E.; Avolio M.; Francalanci F.; Marino M.; Degani S.; Balzac F.; Goitre L.; Sgrò F.; Tarone G.; Retta S.F. | |
| Structural and Functional Differences between KRIT1A and KRIT1B Isoforms: a Framework for Understanding CCM Pathogenesis | 2008 | Francalanci F.; Avolio M.; De Luca E.; Longo D.; Menchise V.; Guazzi P.; Sgrò F.; Marino M.; Goitre L.; Balzac F.; Trabalzini L.; Retta S.F. | |
| Structural and Functional Differences between KRIT1A and KRIT1B Isoforms: a Framework for Understanding CCM Pathogenesis. | 2009 | Francalanci, Floriana; Avolio, Maria; DE LUCA, Elisa; Longo, Dario Livio; Menchise, V.; Guazzi, P.; Sgro', Francesco; Marino, Marco; Goitre, Luca; Balzac, Fiorella; Trabalzini, L.; Retta, Saverio Francesco | |
| Structural and functional differences between KRIT1A and KRIT1B isoforms: a framework for understanding CCM pathogenesis | 2009 | Floriana Francalanci; Maria Avolio; Elisa De Luca; Dario Longo; Valeria Menchise; Paolo Guazzi; Francesco Sgrò; Marco Marino; Luca Goitre; Fiorella Balzac; Lorenza Trabalzini; Saverio Francesco Retta | |
| p140Cap suppresses the invasive properties of highly metastatic MTLn3-EGFR cells via impaired cortactin phosphorylation. | 2012 | Damiano L; Le Dévédec SE; Di Stefano P; Repetto D; Lalai R; Truong H; Xiong JL; Danen EH; Yan K; Verbeek FJ; De Luca E; Attanasio F; Buccione R; Turco E; van de Water B; Defilippi P | |
| KRIT1 loss-of-function causes a ROS-dependent upregulation of transcription factors involved in oxidative stress responses | 2013 | Goitre L.; De Luca E.; Braggion S.; Forni M.; Moglia A.; Retta SF | |
| MRI tracking of macrophages labeled with glucan particles entrapping a water insoluble paramagnetic Gd-based agent | 2013 | S. Figueiredo; J. C. Cutrin; S. Rizzitelli; E. De Luca; J. N. Moreira; C. F. G. C. Geraldes; S. Aime; E. Terreno |
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