A case of diffuse astrocytoma (Grade II, LGG). by Osamu Togao (470739)

Chain Conformation, Molecular Dynamics, and Thermal Properties of Poly(<i>n</i>‑methylene 2,5-furanoates) as a Function of Methylene Unit Sequence Length by George Papamokos (1595743)

“…Poly­(<i>n</i>-methylene 2,5-furanoates) is a family of biobased polymers with outstanding gas barrier and mechanical properties and with the potential to frame the future in certain applications (e.g., food packaging, fibers, and engineering thermoplastics). …”

<i>ING3</i> knockout decreases pan-H4Ac and BRD4 levels and stimulates HIV-1 transcriptional initiation and elongation upon addition of AZD5582. by Emily Hsieh (377992)

“…<p><b>(A)</b> Genome browser tracks centered over the HIV-1 LTR showing the pan-H4Ac signal decreases in the <i>ING3</i> knockout alone and in combination with AZD5582 conditions. …”

Table_1_Moderators of pre-post changes in school-based mental health promotion: Psychological stress symptom decrease for adolescents with mental health problems, knowledge increas... by Laya Lehner (6244706)

“…They were without mental health problems (65.9%), at risk for mental health problems (21.6%), or with mental health problems (12.5%) and participated in a 90 min per week face-to-face training with 8 sessions in class at school. …”

Invertebrate Metacommunity Structure and Dynamics in an Andean Glacial Stream Network Facing Climate Change by Sophie Cauvy-Fraunié (788040)

“…Using partial redundancy analysis, we partitioned community variation to evaluate the relative strength of environmental conditions (e.g., glaciality, food resource) vs. spatial processes (e.g., overland, watercourse, and downstream directional dispersal) in organizing the aquatic metacommunity. …”

Single-Component Conductors: A Sturdy Electronic Structure Generated by Bulky Substituents by Agathe Filatre-Furcate (1762963)

“…This system is weakly conducting at ambient pressure (5 S·cm^–1), and both transport and optical measurements evidence a slowly decreasing energy gap under applied pressure with a regime change around 1.5 GPa. …”

LIPT2 and LIPT2-EYFP target the mitochondrion. by Emanuele Bernardinelli (4117372)

Effects of Fuel Moisture Content on Emissions from a Rocket-Elbow Cookstove by Lizette van Zyl (6518729)

“…The objective of this work was to characterize emissions from a rocket-elbow cookstove burning wood at three different moisture levels (5%, 15%, and 25% on a dry mass basis). …”

Table_2_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_4_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_7_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Table_3_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_1_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Table_1_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Table_4_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.DOCX by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_6_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_2_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_8_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_3_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”

Image_9_Characterization of Non-hormone Expressing Endocrine Cells in Fetal and Infant Human Pancreas.jpg by Abu Saleh Md Moin (6189512)

“…<p>Context: Previously, we identified chromograninA positive hormone-negative (CPHN) cells in high frequency in human fetal and neonatal pancreas, likely representing nascent endocrine precursor cells. …”