Differential DNA methylation of <i>MSI2</i> and its correlation with diabetic traits by Jae-Pil Jeon (4044923)

“…We found a total of 382 differential methylation sites from blood DNA in hyperglycemia and type 2 diabetes subgroups using a longitudinal and cross-sectional approach. …”

HMGB1 assay in serums from patients. by Claire Gaillard (357456)

“…The 15 serums tested are labeled a-o, serum a originating from a healthy individual, serums b-o from randomly selected patients in intensive care unit (d,g,h,i,k,l,n: sepsis; b,c,e,f,j,m,o: septic shock). …”

Table1_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.DOCX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table7_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.DOCX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table4_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.XLSX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

DataSheet1_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.PDF by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table2_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.XLSX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table6_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.XLSX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table8_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.DOCX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Presentation1_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.pdf by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

Table3_Protein Posttranslational Signatures Identified in COVID-19 Patient Plasma.XLSX by Pavan Vedula (11984267)

“…Our results suggest a global change in protein processing and regulation that occurs in response to SARS-CoV-2, and the existence of a posttranslational COVID-19 signature that includes an elevation in threonine phosphorylation, a change in glycosylation, and a decrease in arginylation, an emerging posttranslational modification not previously implicated in infectious disease. …”

<b>Effects of </b><b>water-surface</b><b> photovoltaic systems on the water physical and chemical</b><b> properties </b><b>and biodiversity</b> by Sen Yang (18082964)

Enrichment of plasma in platelets and extracellular vesicles by the counterflow to erythrocyte settling by Darja Božič (11089677)

Physical therapy with toys and dog-assisted therapy in infants: observational study by Caroline Marie Calil Scholz Prado (13526143)

Immunoreactivity of <i>Schistosoma</i> proteins by multi-dimensional cluster analysis. by Soraya Gaze (184507)

“…Proteins with signal intensity below the cut-off were set to zero to decrease background noise. Identities of proteins within clusters are provided in <a href="http://www.plospathogens.org/article/info:doi/10.1371/journal.ppat.1004033#ppat.1004033.s007" target="_blank">Tables S1</a> and <a href="http://www.plospathogens.org/article/info:doi/10.1371/journal.ppat.1004033#ppat.1004033.s008" target="_blank">S2</a> and <a href="http://www.plospathogens.org/article/info:doi/10.1371/journal.ppat.1004033#ppat.1004033.s005" target="_blank">Figure S5</a>.…”

Feedforward and recurrent connection structure before and after learning speech sounds. by Wieland Brendel (8582346)

“…(iii) Change in SRFs after re-training with a new stimulus (see <a href="http://www.ploscompbiol.org/article/info:doi/10.1371/journal.pcbi.1007692#pcbi.1007692.g005" target="_blank">Fig 5D</a>). …”

Relationship between empirical water temperature and spring characteristics of swordtip squid (<i>Uroteuthis eduli</i>s) caught in the eastern Tsushima Strait by Tadanori Yamaguchi (751821)

Optimizing Imaging Conditions for Demanding Multi-Color Super Resolution Localization Microscopy by Leila Nahidiazar (767962)

Supplementary Material for: Seasonal variations in stroke occurrence by Brissette V. (19023743)

PXDN mutant mice reveal impairment in bacterial clearance during acute lung infection. by Ruizheng Shi (5236607)

“…<p><b>(A)</b> Decrease of relative survival rates. PXDN-deficient and C57BL/6 wild-type mice were intratracheally instilled with 7 x 10⁶ of <i>P</i>. …”