Table 1_Effects of grassland degradation on soil ecological stoichiometry and soil microbial community on the South of the Greater Khingan Mountains.docx by Yuyu Li (3939137)

“…Grassland degradation significantly decreased soil bacterial and fungal richness. In addition, grassland degradation significantly increased the relative abundance of Firmicutes (from 1.65% to 5.38%) and Myxococcota (from 2.13% to 3.13%). …”

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. …”

Data Sheet 1_Diagnostic classification of mild cognitive impairment in Parkinson's disease using subject-level stratified machine-learning analysis.pdf by Jing Wang (6206297)

“…Background<p>The timely identification of mild cognitive impairment (MCI) in Parkinson's disease (PD) is essential for early intervention and clinical management, yet it remains a challenge in practice.</p>Methods<p>We conducted an analysis of 3,154 clinical visits from 896 participants in the Parkinson's Progression Markers Initiative (PPMI) cohort. …”

Table_1_Microbiome profile and calprotectin levels as markers of risk of recurrent Clostridioides difficile infection.docx by Silvia Vázquez-Cuesta (15210223)

“…We analysed 200 primary samples and found that Fusobacterium increased in abundance, while Collinsella, Senegalimassilia, Prevotella and Ruminococcus decreased in patients with recurrent versus non-recurrent disease. …”

Presentation_1_Microbiome profile and calprotectin levels as markers of risk of recurrent Clostridioides difficile infection.pptx by Silvia Vázquez-Cuesta (15210223)

“…We analysed 200 primary samples and found that Fusobacterium increased in abundance, while Collinsella, Senegalimassilia, Prevotella and Ruminococcus decreased in patients with recurrent versus non-recurrent disease. …”

Data_Sheet_1_Blended Online Intervention to Reduce Digital Transformation Stress by Enhancing Employees’ Resources in COVID-19.PDF by Ewa Makowska-Tłomak (12274889)

“…We compared five groups of participants (558 in total), three groups not qualified (n = 417), and two groups qualified to intervention (n = 141). …”

Image2_Modification of Fibronectin by Non-Enzymatic Glycation Impairs K+ Channel Function in Rat Cerebral Artery Smooth Muscle Cells.JPEG by Yan Yang (33204)

“…Furthermore, native albumin did not enhance basal K⁺ current, but the glycated form (gAlb) caused inhibition. gFN was shown to impair both the Kv and BK_Ca components of total macroscopic K⁺ current. Anti-integrin α5 and β1 antibodies attenuated the effects of both FN and gFN on macroscopic K⁺ current at +70 mV. …”

Effects of <i>AMPD1</i> common mutation on the metabolic-chronotropic relationship: Insights from patients with myoadenylate deaminase deficiency by Fabrice Rannou (775170)

“…To address this issue, we used cardio-pulmonary exercise testing data (CPX) from subjects with myoadenylate deaminase (MAD) defects.…”

Image3_Modification of Fibronectin by Non-Enzymatic Glycation Impairs K+ Channel Function in Rat Cerebral Artery Smooth Muscle Cells.JPEG by Yan Yang (33204)

“…Furthermore, native albumin did not enhance basal K⁺ current, but the glycated form (gAlb) caused inhibition. gFN was shown to impair both the Kv and BK_Ca components of total macroscopic K⁺ current. Anti-integrin α5 and β1 antibodies attenuated the effects of both FN and gFN on macroscopic K⁺ current at +70 mV. …”