Body weight, femoral length and <i>Notch3</i> transcripts of 8.5–9 week old male <i>Notch3</i>^{<i>em1Ecan</i>} mutant mice (gray bars) and littermate controls (white bars)... by Ernesto Canalis (516050)

Expression levels of OXPHOS subunit proteins in cultured human skeletal muscle cells following hibernating bear serum treatment. by Mitsunori Miyazaki (197902)

Influence of ionizing radiation on the activity of Atox1 at different status (WT and KO) of the TP53 gene in A549 and HCT116 cell lines, 24h after ionizing irradiation (10Gy) expos... by Sergey Tsymbal (17691776)

Effects of Glu on CCTα mRNA and protein levels in cultured lungs. by Xiao-Hong Li (286234)

Enhanced Akt/mTORC1 signaling in cultured human skeletal muscle cells with hibernating bear serum. by Mitsunori Miyazaki (197902)

Insulin treatment, acute or chronic, does not alter the number of CHT proteins at the cell surface, their binding affinity or the maximal uptake of choline. by Katherine J. Fishwick (768451)

Additional parameters recorded during the TMS-task and at rest. by Mehran Emadi Andani (732166)

Changes in the activity of enzymes in hypothalamus after intraperitoneal treatment. by Marta Librán-Pérez (393255)

Changes in the levels of plasma metabolites after intraperitoneal treatment. by Marta Librán-Pérez (393255)

Enhancing Multi-species Liver Microsomal Stability Prediction through Artificial Intelligence by Teng-Zhi Long (14226549)

“…However, current models for predicting liver microsomal stability are based on limited molecular information from a single species. To address this limitation, we constructed the largest public database of compounds from three common species: human, rat, and mouse. …”

Testis development and spermatogenesis in <i>bmp15</i>, <i>inha</i>, and <i>inhbaa</i> mutant males. by Yue Zhai (3141960)

Gene expression levels of mitochondrial regulatory factors in cultured human skeletal muscle cells following hibernating bear serum treatment. by Mitsunori Miyazaki (197902)

Alteration of total protein contents in cultured human skeletal muscle cells: Winter-hibernation period vs. summer-active period. by Mitsunori Miyazaki (197902)

DataSheet_10_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_14_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_2_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_12_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_9_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_8_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”

DataSheet_7_Agouti overexpression in a transgenic model regulates integrity, permeability and electrogenic amino acid transport in zebrafish intestine.pdf by Esther Leal (415661)

“…<p>Overexpression of asip1 in transgenic zebrafish disrupts dorsoventral pigment pattern in addition to increasing food intake levels and linear growth. A higher feed intake is unnecessary in transgenic fish to enable larger and heavier growth. …”