Image_10_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_5_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_11_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_10_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_12_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIFF by Rohit Moudgil (540119)

Image_15_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIFF by Rohit Moudgil (540119)

Image_1_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIFF by Rohit Moudgil (540119)

Image_9_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_14_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIFF by Rohit Moudgil (540119)

Image_5_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Image_2_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIFF by Rohit Moudgil (540119)

MAP-map analysis of activity decreases within olfactory bulb and preoptic dopaminergic regions. by Jessica C. Nelson (10906236)

“…<a href="http://www.plosgenetics.org/article/info:doi/10.1371/journal.pgen.1010650#pgen.1010650.g007" target="_blank">Fig 7</a> shows increased activity in olfactory bulb dopaminergic neurons in <i>ap2s1</i> and <i>pappaa</i> mutants and preoptic dopaminergic neurons in <i>pappaa</i> mutants. …”

Image 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Table 1_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.docx by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Image 5_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Image 4_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Image 2_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Image 3_Using sodium glycodeoxycholate to develop a temporary infant-like gut barrier model, in vitro.pdf by Francesca Bietto (21511316)

“…The treatment also reduced the key tight junction protein, occludin, at the cell membrane, and increased acidic mucins and extracellular alkaline phosphatase activity. Additionally, GDC decreased cAMP, suggesting its mechanism of action was via activation of a G-protein coupled receptor. …”

Data_Sheet_1_Large Increase in Dissolved Inorganic Carbon in the East Sea (Japan Sea) From 1999 to 2019.PDF by Taehee Na (12083189)

Data_Sheet_1_Large Increase in Dissolved Organic Carbon in the East Sea (Japan Sea) From 1999 to 2019.PDF by Taehee Na (12083189)