Relative intensities of differential metabolites that may serve as potential metabolic biomarkers in Omicron variant cases. by Feng Gao (3548)

Training images of ulceration. by Naoki Higuchi (12859258)

Genetic Analysis of Baker's Yeast Msh4-Msh5 Reveals a Threshold Crossover Level for Meiotic Viability by K. T. Nishant (13769)

“…We identified <em>msh4</em> and <em>msh5</em> threshold (<em>msh4/5-t</em>) mutants that showed wild-type spore viability and crossover interference but displayed, compared to wild-type, up to a two-fold decrease in crossing over on large and medium sized chromosomes (XV, VII, VIII). …”

Fig 5 - by Naoki Higuchi (12859258)

Rapamycin administration results in latent induction of ductal cell proliferation in layer- and region-dependent manners. by Anna Kosenko (12908417)

RRR of transitioning between disability states in the CFAS II (2011) compared to CFAS I (1991) for men and women with each LTC with 95% CI. by Holly Q. Bennett (12216515)

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Nanoscale Adhesion and Material Transfer at 2D MoS₂–MoS₂ Interfaces Elucidated by In Situ Transmission Electron Microscopy and Atomistic Simulations by Sathwik Reddy Toom (18625103)

“…Low-dimensional materials, such as MoS₂, hold promise for use in a host of emerging applications, including flexible, wearable sensors due to their unique electrical, thermal, optical, mechanical, and tribological properties. …”

Intramammary rapamycin administration reduces S6 phosphorylation in parenchymal cells. by Anna Kosenko (12908417)

“…Immunoblot analysis showing a decrease in S6 phosphorylation (pS6) 24 and 48 h after rapamycin administration. …”

Morphological and proliferative characteristics of 3-month-old vehicle-treated and rapamycin-treated bovine mammary gland after 4-day treatment with estrogen and progesterone. by Anna Kosenko (12908417)

ROC curve analysis for the predictive power of biomarkers for distinguishing between patients with Omicron variant and healthy controls. by Feng Gao (3548)

Frequencies of solvent-accessible SC with a cutoff of SASA ≥5 Ų and SASA ≥0.5 Ų. by Nickolay A. Khazanov (488317)

“…<p>Residues are sorted by decreasing hydrophobicity. With the smaller cutoff, the pattern shifts to more hydrophobic residues because poorly exposed, interior residues are able to meet the criteria with only a small patch of exposed surface.…”