Transmission electron microscopy analysis of the intracellular transport characteristics of PEDV or PEAV in Vero cells. by Xiongnan Chen (13307178)

Identification of Key Interactions in the Initial Self-Assembly of Amylin in a Membrane Environment by Mikkel Christensen (4388404)

“…Oligomers are formed showing both intra- and interpeptide β-sheets, initially with interactions mainly in the C-terminal domain of the peptides. Decreasing the pH to 5.5 is known to inhibit amyloid formation. …”

Effects of hydrogen-rich water in a rat model of polycystic kidney disease by Masatora Yamasaki (6623330)

“…On the other hand, it is known that hydrogen-rich water reduces oxidative stress and has a good effect on kidney injury. We examined whether drinking large volumes of hydrogen-rich water affected the increase in the sizes of cysts. …”

Identification of Key Interactions in the Initial Self-Assembly of Amylin in a Membrane Environment by Mikkel Christensen (4388404)

“…Oligomers are formed showing both intra- and interpeptide β-sheets, initially with interactions mainly in the C-terminal domain of the peptides. Decreasing the pH to 5.5 is known to inhibit amyloid formation. …”

Table_1_The Influence of Environmental Hypoxia on Hemostasis—A Systematic Review.DOCX by Benedikt Treml (12104573)

“…At high altitude (2,500–5,400 m), only small pathophysiological changes were seen, with a possible impact of increasing exercise loads. …”

Identification of Key Interactions in the Initial Self-Assembly of Amylin in a Membrane Environment by Mikkel Christensen (4388404)

“…Oligomers are formed showing both intra- and interpeptide β-sheets, initially with interactions mainly in the C-terminal domain of the peptides. Decreasing the pH to 5.5 is known to inhibit amyloid formation. …”

The distribution of Ephemeroptera, Plecoptera and Trichoptera in a Norwegian alpine catchment in relation to environmental gradients by Nina Kristine S. Helland (21584459)

Preparation and in vitro release profiling of PLGA microspheres containing BSA as a model protein by Nazanin Dabaghi (12849110)

DataSheet_1_The effect of G0S2 on insulin sensitivity: A proteomic analysis in a G0S2-overexpressed high-fat diet mouse model.pdf by Dongming Wu (11619167)

“…</p>Results<p>Proteomic analysis revealed that there was a total of 125 differentially expressed proteins (DEPs) (56 increased and 69 decreased proteins) among the identified 3583 proteins. …”

Autophagy activity affects Aβ_1–42 neurotoxicity. by Daijun Ling (188975)

“…<p>(A) <i>Drosophila</i> incorporating a heterozygous loss-of-function allele <i>Atg1^Δ3D</i> (<i>Atg1^+/−</i>) exhibit a significant decrease in expression levels of <i>Atg1</i> mRNA in fly brains (data are normalized mean+SEM relative to <i>GAPDH</i>, two-tailed P values by Student's t-test, n = 3 for each group). …”

Hypoglycemia caused a change in MDA-MB-231BR cell morphology. by Sirin A. I. Adham (662525)

“…<p>Phase contrast images of the three MDA-MB-231 cell lines. Image (A) shows MDA-MB-231P cells grown in DMEM 0 mM glucose images; (B–C) the same cells grown in DMEM with different glucose concentrations: 5 mM and 25 mM. …”

Binding of KIR-, TIGIT-, DNAM-1- and CD96-Fc constructs to HLA class I-, HLA class II- and nectin(-like)-coated beads. by Pia Fittje (12936621)

Data_Sheet_8_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.PDF by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Data_Sheet_4_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.PDF by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_10_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.XLS by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_2_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.XLS by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_11_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.XLS by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_12_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.XLS by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_8_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.XLS by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”

Table_1_Epigenetic Landscapes of Single-Cell Chromatin Accessibility and Transcriptomic Immune Profiles of T Cells in COVID-19 Patients.DOCX by Shun Li (330132)

“…Cumulatively, we have generated a landscape of chromatin epigenetic status and transcriptomic immune profiles of T cells in patients with COVID-19. …”