Fig 8 - by Junxia Zhou (14381598)

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Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Dynamics of Solid–Liquid Compound Droplets on Cylindrically Concave Superhydrophobic Surfaces by Niju K. Mohammed (22631779)

“…Results indicate that the maximum spreading diameter (β_max) and the residence time of the composite droplet decrease with the increasing concavity ratio (δ) due to differences in axial and azimuthal spreading and gravity. …”

Results of SD-TOPSIS application ‐ combination A. by Roman Vavrek (13200141)

“…Based on the performed analyses, we can see that significant differences result from their reduction. …”

ANOM analysis of evaluated criteria K1–K5. by Roman Vavrek (13200141)

“…Based on the performed analyses, we can see that significant differences result from their reduction. …”

GO ontology analyses of RNASeq data of livers from <i>mMgat2</i> and <i>HuMgat2</i> mice. by J. Jose Corbalan (22439198)

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Elevated liver enzyme levels suggest hepatic damage. by J. Jose Corbalan (22439198)

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Obese <i>mMgat2</i> and <i>HuMgat2</i> mice show defects in Akt insulin signaling. by J. Jose Corbalan (22439198)

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Nuclear Srebp1 and Srebp2 protein levels and Srebp-dependent lipogenic gene expression are elevated in obese <i>mMgat2</i> and <i>HuMgat2</i> mice. by J. Jose Corbalan (22439198)

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Obese <i>mMgat2</i> and <i>HuMgat2</i> mice have elevated Krebs cycle intermediate levels. by J. Jose Corbalan (22439198)

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<i>mMgat2</i> and <i>HuMgat2</i> mice exhibit a transcriptomic profile indicating impairments in metabolite detoxification and lipid metabolic processes. by J. Jose Corbalan (22439198)

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<i>mMgat2</i> and <i>HuMgat2</i> mice become obese when fed a HFD. by J. Jose Corbalan (22439198)

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Under steatotic conditions, primary <i>mMgat2</i> and <i>HuMgat2</i> hepatocytes induce apoptosis. by J. Jose Corbalan (22439198)

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Tgfβ-1 levels drives liver collagen deposition and pJak2-pStat3 signaling in obese <i>mMgat2</i> and <i>HuMgat2</i> mice. by J. Jose Corbalan (22439198)

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Obese <i>mMgat2</i> and <i>HuMgat2</i> mice show defects in solute transporter protein levels. by J. Jose Corbalan (22439198)

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Obese <i>HuMgat2</i> mice show defects in cytochrome P450 protein levels. by J. Jose Corbalan (22439198)

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Obese <i>mMgat2</i> and <i>HuMgat2</i> mice develop MASLD and fibrosis on an HFD. by J. Jose Corbalan (22439198)

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