Astrocytic expression of Pla2g3 by chronic oxidative stress. by Daishi Yui (795083)

GQ-16 reduces brown adipose tissue mass and adipocyte diameter. by Michella S. Coelho (2637202)

Increased expression of Pla2g3 in frontal cortex of AD patients. by Daishi Yui (795083)

Reduced IRF3 and TBK1 phosphorylation in ATRX knockdown HFFs. by Anne-Charlotte Stilp (3520415)

A Sensory-Driven Trade-Off between Coordinated Motion in Social Prey and a Predator’s Visual Confusion by Bertrand H. Lemasson (636640)

DICER+AGO2 enzymes cleave fluorogenic substrates into duplex products that are unstable at T>25°C. by Mark A. Bernard (608655)

Minocycline administration reduced CCR2-positive cells in RPE flat-mount. by Ryo Terauchi (10687481)

The population of Ly6C positive circulating monocytes in minocycline- and control-treated <i>Mertk</i>^{<i>−/−</i>}<i>Cx3cr1</i>^<i>GFP/+</i><i>Ccr2</i><sup><i>RF... by Ryo Terauchi (10687481)

Mitochondrial reactive oxygen species (mitoROS) assay using H9c2 overexpressing human TFAM (hTFAM) or rat Twinkle-Flag (rTwinkle) and mitochondria from TFAM mice and Twinkle (TW) m... by Masataka Ikeda (428186)

Image_2_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Image_3_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Image_6_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Image_1_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

DataSheet_1_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.xls by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

DataSheet_2_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.xls by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Image_5_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Image_4_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.jpeg by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Table_1_Monoallelic Heb/Tcf12 Deletion Reduces the Requirement for NOTCH1 Hyperactivation in T-Cell Acute Lymphoblastic Leukemia.xls by Diogo F. T. Veiga (12282320)

“…At the molecular level, HEB protein levels are decreased via proteasomal degradation at the leukemic stage, pointing to a reversible loss of function mechanism. …”

Cardiac leiomodin2 binds to the sides of actin filaments. by Dávid Szatmári (4510156)

Bcl-2 expression is higher in IFN-γ- and IL-2-coproducing T cells in response to <i>T</i>. <i>cruzi</i> antigens after treatment with IL-27 and IL-7. by María Ailén Natale (6843422)