Dataset: Foraminiferal denitrification and deep bioirrigation influence benthic biogeochemical cycling in a seasonally hypoxic fjord by Subhadeep Rakshit (19702714)

“…We observed that the seafloor was a source of ammonium and sink of nitrate with average fluxes of 2.2±1.8 and -0.9±0.7 mmol m^-2 d^-1respectively. …”

PRISMA flow chart of study selection. by Tong-jie Yang (20939652)

“…We systematically evaluated the key findings extracted from the included articles.…”

DataSheet1_Exploring the naturally acquired response to Pvs47 gametocyte antigen.docx by Gisele Tatiane Soares da Veiga (19828473)

“…Anti-Pvs47 IgM and IgG responses in symptomatic individuals decrease over time. Furthermore, we observed a negative correlation between anti-Pvs47 IgM response and gametocytemia in samples of symptomatic patients, indicating a gametocyte-specific response. …”

Data Sheet 1_Anti-HLA antibodies bound to monocytes altered antibody-mediated platelet phagocytosis and led to mild thrombocytopenia.pdf by Xiuzhang Xu (22363618)

“…Furthermore, the administration of anti-MHC-I antibodies to mice led to a significant decrease in the platelet count within 24 h. …”

Neutrophil recruitment after <i>H</i>. <i>pylori</i> infection monitored by multiphoton microscopy <i>in vivo</i>. by Hellen Ishikawa-Ankerhold (5900822)

“…<i>pylori</i> infection and decrease after 6 weeks of infection. n = 4 mice. ****p<0.0001, ***p<0.001, **p<0.01, *p<0.05, or not significant (ns). …”

Table 3_Effects of extracorporeal carbon dioxide removal in facilitating ultra-protective ventilation strategies for patients with acute respiratory distress syndrome: a systematic... by Weifeng Zhen (12969341)

“…ECCO₂R significantly reduced driving pressure (weighted mean difference [WMD]: −3.70 cmH₂O; 95% CI: −4.05 to −3.34; P < 0.001), plateau pressure (WMD: −3.26 cmH₂O; 95% CI: −3.70 to −2.82; P < 0.001), and tidal volume (WMD: −1.68 mL/kg; 95% CI: −1.81 to −1.55; P < 0.001) at 24 h, while it increased positive end-expiratory pressure (WMD: 0.64 cmH₂O; 95% CI: 0.44 to 0.85; P < 0.001). …”

Table 1_Effects of extracorporeal carbon dioxide removal in facilitating ultra-protective ventilation strategies for patients with acute respiratory distress syndrome: a systematic... by Weifeng Zhen (12969341)

“…ECCO₂R significantly reduced driving pressure (weighted mean difference [WMD]: −3.70 cmH₂O; 95% CI: −4.05 to −3.34; P < 0.001), plateau pressure (WMD: −3.26 cmH₂O; 95% CI: −3.70 to −2.82; P < 0.001), and tidal volume (WMD: −1.68 mL/kg; 95% CI: −1.81 to −1.55; P < 0.001) at 24 h, while it increased positive end-expiratory pressure (WMD: 0.64 cmH₂O; 95% CI: 0.44 to 0.85; P < 0.001). …”

Table 2_Effects of extracorporeal carbon dioxide removal in facilitating ultra-protective ventilation strategies for patients with acute respiratory distress syndrome: a systematic... by Weifeng Zhen (12969341)

“…ECCO₂R significantly reduced driving pressure (weighted mean difference [WMD]: −3.70 cmH₂O; 95% CI: −4.05 to −3.34; P < 0.001), plateau pressure (WMD: −3.26 cmH₂O; 95% CI: −3.70 to −2.82; P < 0.001), and tidal volume (WMD: −1.68 mL/kg; 95% CI: −1.81 to −1.55; P < 0.001) at 24 h, while it increased positive end-expiratory pressure (WMD: 0.64 cmH₂O; 95% CI: 0.44 to 0.85; P < 0.001). …”

Table 4_Effects of extracorporeal carbon dioxide removal in facilitating ultra-protective ventilation strategies for patients with acute respiratory distress syndrome: a systematic... by Weifeng Zhen (12969341)

“…ECCO₂R significantly reduced driving pressure (weighted mean difference [WMD]: −3.70 cmH₂O; 95% CI: −4.05 to −3.34; P < 0.001), plateau pressure (WMD: −3.26 cmH₂O; 95% CI: −3.70 to −2.82; P < 0.001), and tidal volume (WMD: −1.68 mL/kg; 95% CI: −1.81 to −1.55; P < 0.001) at 24 h, while it increased positive end-expiratory pressure (WMD: 0.64 cmH₂O; 95% CI: 0.44 to 0.85; P < 0.001). …”

Table 5_Effects of extracorporeal carbon dioxide removal in facilitating ultra-protective ventilation strategies for patients with acute respiratory distress syndrome: a systematic... by Weifeng Zhen (12969341)

“…ECCO₂R significantly reduced driving pressure (weighted mean difference [WMD]: −3.70 cmH₂O; 95% CI: −4.05 to −3.34; P < 0.001), plateau pressure (WMD: −3.26 cmH₂O; 95% CI: −3.70 to −2.82; P < 0.001), and tidal volume (WMD: −1.68 mL/kg; 95% CI: −1.81 to −1.55; P < 0.001) at 24 h, while it increased positive end-expiratory pressure (WMD: 0.64 cmH₂O; 95% CI: 0.44 to 0.85; P < 0.001). …”

Data Sheet 1_Investigation of the anti-Huanglongbing effects using antimicrobial lipopeptide and phytohormone complex powder prepared from Bacillus amyloliquefaciens MG-2 fermentat... by Zhicheng Ding (18794422)

“…The results revealed that after 15 spray-drench treatments with L1 solution, the HLB infection rate decreased from 100 to 50%, the bacterial titer decreased by 51.9% compared with a 27.9% decrease in the control group. …”

Image 2_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

Table 1_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.docx by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

Image 4_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

Image 1_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

Image 6_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

raw data of "Helicobacter hepaticus promotes hepatic steatosis through CdtB-induced mitochondrial stress and lipid metabolism reprogramming" by Quan Zhang (20376574)

“…Furthermore, we identify that CdtB translocates to mitochondria with the assistance of Hsp90, leading to a decrease in the activity of mitochondrial respiratory complex V due to its interaction with ATP5A1. …”

Raw_data_N_adition_increased_SOC_PNAS.xlsx by Guoyong Yan (14273351)

“…We found that SOC significantly increased with N addition, driven by the combined responses of plants, soil, and microbes. …”

Image 3_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”

Image 5_The Effect of glycocholic acid on the growth, membrane permeability, conjugation and antibiotic susceptibility of Enterobacteriaceae.pdf by Bar Piscon (20906495)

“…Despite their lipopolysaccharide membrane layer, we demonstrate that, in liquid, GCA increases permeability, changes the surface of the Enterobacteriaceae membrane, and compromises its integrity. …”