BENNATI, Anna Maria
BENNATI, Anna Maria
DIPARTIMENTO DI MEDICINA (attivo dal 01/01/2014 al 31/10/2020)
Activation of TM7SF2 promoter by SREBP-2 depends on a new sterol regulatory element, a GC box and an inverted CCAAT box
2010 Schiavoni, Gianluca; Bennati, Anna Maria; Castelli, Marilena; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; Servillo, Giuseppe; Roberti, Rita
Beyond cholesterol biosynthesis: Tm7sf2 as a modulator of Endoplasmic Reticulum Stress
2011 Bellezza, Ilaria; F., Tinarelli; Bennati, Anna Maria; Minelli, Alba; Roberti, Rita
Cloning and expression of a sterol reductase from bovine liver
2001 Roberti, Rita; Bennati, Anna Maria; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe; Binaglia, Luciano
Cloning and expression of sterol delta14-reductase from bovine liver
2002 Roberti, Rita; Bennati, Anna Maria; Galli, G.; Caruso Donatella, G.; Maras, B.; Aisa, M. C.; Beccari, Tommaso; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe
Disruption of the gene encoding 3beta-hydroxysterol Delta14-reductase (Tm7sf2) in mice does not impair cholesterol biosynthesis
2008 Bennati, Anna Maria; Schiavoni, Gianluca; Franken, S.; Piobbico, D.; DELLA FAZIA, Maria Agnese; Caruso, D.; De Fabiani, E.; Benedetti, L.; Cusella De Angelis, G.; Gieselmann, V.; Servillo, Giuseppe; Beccari, Tommaso; Roberti, Rita
Disruption of Tm7sf2 (3beta hydroxysterol delta14-reductase) gene in mice does not impair cholesterol biosynthesis
2008 Bennati, Anna Maria; Schiavoni, Gianluca; S., Franken; D., Piobbico; DELLA FAZIA, Maria Agnese; D., Caruso; E., de Fabiani; V., Gieselmann; Servillo, Giuseppe; Beccari, Tommaso; Roberti, Rita
Impaired cell proliferation in regenerating liver of 3 β-hydroxysterol Δ14-reductase (TM7SF2) knock-out mice
2016 Bartoli, Daniela; Piobbico, Danilo; Bellet, MARINA MARIA; Bennati, Anna Maria; Roberti, Rita; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe
Involvement of SREBP-2 and NF-Y in the regulation of TM7SF2 (3beta-hydroxysterol delta14-reductase) gene expression
2006 Bennati, Anna Maria; Castelli, Marilena; Schiavoni, Gianluca; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; Servillo, Giuseppe; Roberti, Rita
Sterol dependent regulation of human TM7SF2 gene expression supports a role of the encoded 3beta-hydroxysterol delta14- reductase in cholesterol biosynthesis
2005 Bennati, Anna Maria; Castelli, Marilena; D., Caruso; Beccari, Tommaso; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe; Roberti, Rita
Sterol dependent regulation of human TM7SF2 gene expression:Role of the encoded 3β-hydroxysterol Δ14-reductase inhuman cholesterol biosynthesis
2006 Bennati, Anna Maria; Castelli, Marilena; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; D., Caruso; Servillo, Giuseppe; Roberti, Rita
Targeted disruption of delta14-sterol reductase gene as a mouse model for Greenberg skeletal displasia and regulation of gene expression
2007 Roberti, Rita; Bennati, Anna Maria; Schiavoni, Gianluca; DELLA FAZIA, Maria Agnese; Piobbico, D.; Beccari, Tommaso; Caruso, D.; Cusella De Angelis, G.; Benedetti, L.; Silvani, G.; Servillo, Giuseppe
Titolo | Data di pubblicazione | Autore(i) | File |
---|---|---|---|
Activation of TM7SF2 promoter by SREBP-2 depends on a new sterol regulatory element, a GC box and an inverted CCAAT box | 2010 | Schiavoni, Gianluca; Bennati, Anna Maria; Castelli, Marilena; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; Servillo, Giuseppe; Roberti, Rita | |
Beyond cholesterol biosynthesis: Tm7sf2 as a modulator of Endoplasmic Reticulum Stress | 2011 | Bellezza, Ilaria; F., Tinarelli; Bennati, Anna Maria; Minelli, Alba; Roberti, Rita | |
Cloning and expression of a sterol reductase from bovine liver | 2001 | Roberti, Rita; Bennati, Anna Maria; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe; Binaglia, Luciano | |
Cloning and expression of sterol delta14-reductase from bovine liver | 2002 | Roberti, Rita; Bennati, Anna Maria; Galli, G.; Caruso Donatella, G.; Maras, B.; Aisa, M. C.; Beccari, Tommaso; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe | |
Disruption of the gene encoding 3beta-hydroxysterol Delta14-reductase (Tm7sf2) in mice does not impair cholesterol biosynthesis | 2008 | Bennati, Anna Maria; Schiavoni, Gianluca; Franken, S.; Piobbico, D.; DELLA FAZIA, Maria Agnese; Caruso, D.; De Fabiani, E.; Benedetti, L.; Cusella De Angelis, G.; Gieselmann, V.; Servillo, Giuseppe; Beccari, Tommaso; Roberti, Rita | |
Disruption of Tm7sf2 (3beta hydroxysterol delta14-reductase) gene in mice does not impair cholesterol biosynthesis | 2008 | Bennati, Anna Maria; Schiavoni, Gianluca; S., Franken; D., Piobbico; DELLA FAZIA, Maria Agnese; D., Caruso; E., de Fabiani; V., Gieselmann; Servillo, Giuseppe; Beccari, Tommaso; Roberti, Rita | |
Impaired cell proliferation in regenerating liver of 3 β-hydroxysterol Δ14-reductase (TM7SF2) knock-out mice | 2016 | Bartoli, Daniela; Piobbico, Danilo; Bellet, MARINA MARIA; Bennati, Anna Maria; Roberti, Rita; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe | |
Involvement of SREBP-2 and NF-Y in the regulation of TM7SF2 (3beta-hydroxysterol delta14-reductase) gene expression | 2006 | Bennati, Anna Maria; Castelli, Marilena; Schiavoni, Gianluca; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; Servillo, Giuseppe; Roberti, Rita | |
Sterol dependent regulation of human TM7SF2 gene expression supports a role of the encoded 3beta-hydroxysterol delta14- reductase in cholesterol biosynthesis | 2005 | Bennati, Anna Maria; Castelli, Marilena; D., Caruso; Beccari, Tommaso; DELLA FAZIA, Maria Agnese; Servillo, Giuseppe; Roberti, Rita | |
Sterol dependent regulation of human TM7SF2 gene expression:Role of the encoded 3β-hydroxysterol Δ14-reductase inhuman cholesterol biosynthesis | 2006 | Bennati, Anna Maria; Castelli, Marilena; DELLA FAZIA, Maria Agnese; Beccari, Tommaso; D., Caruso; Servillo, Giuseppe; Roberti, Rita | |
Targeted disruption of delta14-sterol reductase gene as a mouse model for Greenberg skeletal displasia and regulation of gene expression | 2007 | Roberti, Rita; Bennati, Anna Maria; Schiavoni, Gianluca; DELLA FAZIA, Maria Agnese; Piobbico, D.; Beccari, Tommaso; Caruso, D.; Cusella De Angelis, G.; Benedetti, L.; Silvani, G.; Servillo, Giuseppe |