Table1_Fever management in children and insights into fever of unknown origin: a survey among Italian pediatricians.pdf by Elena Chiappini (304802)

“…</p>Objective<p>To collect updated data on the approach to fever and FUO among Italian pediatricians.</p>Methods<p>A cross-sectional anonymous survey was conducted among a large sample of primary care and hospital pediatricians. …”

DataSheet1_Large-scale experimental warming reduces soil faunal biodiversity through peatland drying.docx by Carlos Barreto (4673203)

“…Although previous studies have found variable effects of climate change manipulations on soil communities, warming is expected to affect soil community composition mainly through reductions in moisture content, whereas elevated CO₂ atmospheric concentrations are expected to only indirectly and weakly do so. In this study we used a large-scale peatland field-based experiment to test how soil microarthropod (oribatid and mesostigmatid mite, and collembolan species abundance, richness and community composition) respond to a range of experimental warming temperatures (between 0°C and +9°C) crossed with elevated CO₂ conditions over 4 years in the Spruce and Peatland Responses Under Changing Environments (SPRUCE) experiment. …”

Supplementary Material for: Novel Cranial Imaging Findings and a Splice-Site Variant in a Patient with Tyrosinemia Type III, and a Summary of Published Cases by Kahraman A.B. (11900960)

“…Tyrosinemia type III is an extremely rare autosomal recessive disease, with only 19 patients yet reported. It is caused by a deficiency of the 4-hydroxyphenylpyruvate dioxygenase enzyme, resulting from biallelic mutations in the <i>HPD</i> gene. …”

Gene Expression Profiling Reveals Large Regulatory Switches between Succeeding Stipe Stages in <i>Volvariella volvacea</i> by Yongxin Tao (388480)

“…One of the main factors that negatively affect its yield and value is the rapid transition from the egg to the elongation stage, which has a decreased commodity value and shelf life. To improve our understanding of the changes during stipe development and the transition from egg to elongation stage in particular, we analyzed gene transcription in stipe tissue of <i>V. volvacea</i> using 3′-tag based digital expression profiling. …”

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. …”

(A) Bath application of 2 by Alexander V Garger (2911)

“…</p>5 mM IBMX produced a characteristic depolarization of photoreceptors () that was diminished following intracellular pressure injection sufficient to inhibit the light response from a microelectrode containing 25 mM GtetP (). …”

An overview of detected changes in putative marker expression in sensitive and resistant NBL cell lines after treatment with natural or synthetic retinoids. by Viera Dobrotkova (6832433)

“…<p>The upward arrow indicates an increase in expression of the respective mRNA and/or protein, and the downward arrow indicates a decrease in mRNA and/or protein expression.</p>…”

A heatmap of differentially expressed genes between the pregnant and non-pregnant sows. by Junye Shen (670568)

Image_1_LUMAN/CREB3 Plays a Dual Role in Stress Responses as a Cofactor of the Glucocorticoid Receptor and a Regulator of Secretion.TIF by Jenna Penney (5791379)

“…On the other hand, we also found that in the absence of LUMAN, cells were more sensitive to cellular stress, exhibiting decreased secretory capacity. Hence our current data suggest that LUMAN may function both as a transcriptional cofactor of GR and a hormone secretion regulator, and through this, plays a role in stress sensitivity and reactivity to stress.…”

Image_6_LUMAN/CREB3 Plays a Dual Role in Stress Responses as a Cofactor of the Glucocorticoid Receptor and a Regulator of Secretion.TIF by Jenna Penney (5791379)

“…On the other hand, we also found that in the absence of LUMAN, cells were more sensitive to cellular stress, exhibiting decreased secretory capacity. Hence our current data suggest that LUMAN may function both as a transcriptional cofactor of GR and a hormone secretion regulator, and through this, plays a role in stress sensitivity and reactivity to stress.…”

Image_4_LUMAN/CREB3 Plays a Dual Role in Stress Responses as a Cofactor of the Glucocorticoid Receptor and a Regulator of Secretion.TIF by Jenna Penney (5791379)

“…On the other hand, we also found that in the absence of LUMAN, cells were more sensitive to cellular stress, exhibiting decreased secretory capacity. Hence our current data suggest that LUMAN may function both as a transcriptional cofactor of GR and a hormone secretion regulator, and through this, plays a role in stress sensitivity and reactivity to stress.…”