User contributions for Shinryuu

4 August 2023

• 13:5313:53, 4 August 2023 diff hist 0 File:Tukioka yositosi-yuurei.jpg →Summary: Typo current Tags: Mobile edit Mobile web edit Advanced mobile edit

5 October 2022

• 11:0011:00, 5 October 2022 diff hist +9 m File:I53-50 nanoparticle vaccine schematic.png added missing info

4 October 2022

• 11:1211:12, 4 October 2022 diff hist +1,272 N File:I53-50 nanoparticle vaccine schematic.png == {{int:filedesc}} == {{Information |Description={{en|Schematic of the assembly of a I53-50 nanoparticle, a type of {{w|Self-assembly of nanoparticles|self-assembling protein nanoparticle}} designed to serve as a recombinant {{w|subunit vaccine}}. Three {{w|antigen}}s form {{w|Protein trimer|trimer}}s (blue) that are linked to the equally trimeric building block I53-50A (grey). A I53-50 nanoparticle assembles {{w|in vitro}} from 20 of these antigen-I53-50A trimers and 12 I53-50B {{w|Pentamer...
• 10:4110:41, 4 October 2022 diff hist +859 N File:I53-50 nanoparticle vaccine.jpg {{Information |Description={{en|Overview of the design and rationale behind I53-50 nanoparticle vaccines, a type of recombinant {{w|subunit vaccine}}s based on {{w|Self-assembly of nanoparticles|self-assembling protein nanoparticles}}}} |Source={{cite journal | authors = Jessica Marcandalli, Brooke Fiala, Sebastian Ols, et al. | date = 2019-03-07 | title = Induction of Potent Neutralizing Antibody Responses by a Designed Protein Nanoparticle Vaccine for Respiratory Syncytial Virus | journal =...

3 June 2022

• 11:4411:44, 3 June 2022 diff hist −3 m File:PI3K inhibitors overview Mishra2021.jpg →{{int:filedesc}}: fixed PMC link current

15 May 2022

• 17:4717:47, 15 May 2022 diff hist +1,098 User talk:Vaccinationist →File:Empagliflozin.svg: new section

17 March 2022

• 16:2416:24, 17 March 2022 diff hist −12 File:PI3K inhibitors overview Mishra2021.jpg ‎Edited [en] caption: Overview of phosphoinositide 3-kinase inhibitors and their interaction with the PI3K/AKT/mTOR pathway
• 16:2416:24, 17 March 2022 diff hist +302 File:PI3K inhibitors overview Mishra2021.jpg ‎Added [en] caption: Overview of {{w|phosphoinositide 3-kinase inhibitor}}s and their interaction with the {{w|PI3K/AKT/mTOR pathway}}
• 16:2316:23, 17 March 2022 diff hist +944 N File:PI3K inhibitors overview Mishra2021.jpg {{Information |Description={{en|Overview of {{w|phosphoinositide 3-kinase inhibitor}}s and their interaction with the {{w|PI3K/AKT/mTOR pathway}}}} |Source={{cite journal | authors = Rosalin Mishra, Hima Patel, Samar Alanazi, Mary Kate Kilroy, and Joan T. Garrett | date = April 2021 | title = PI3K Inhibitors in Cancer: Clinical Implications and Adverse Effects | journal = Int J Mol Sci | volume = 22 | issue = 7 | pages = 3464 | doi = 10.3390/ijms22073464 | pmid = 33801659 | pmc = PMC8037248}}...

6 September 2021

• 11:0011:00, 6 September 2021 diff hist +87 File:Selinexor.svg ‎Added [de] caption: Strukturformel von Selinexor
• 10:5810:58, 6 September 2021 diff hist −12 m File:Chaussenot's Rosin Gas Apparatus 1829.png →{{int:filedesc}}: removed unnecessary formatting

2 June 2021

• 15:1915:19, 2 June 2021 diff hist +803 N File:Structure of Wild Type Human Transthyretin in Complex with Tafamidis, PDB 6E6Z.jpeg {{Information |Description={{en|Structure of human {{w|wild type}} {{w|Transthyretin}} (coloured ribbons) in complex with two {{w|Tafamidis}} molecules (centre)}} |Source=[https://www.rcsb.org/structure/6E6Z PDB ID 6E6Z] |Date=2019-07-31 |Author={{cite journal | authors = Saelices, L., Chung, K., Esswein, S., Chou, J., Liang, W., Li, J.H., Sawaya, M.R., Cascio, D., Eisenberg, D. | date = 1999-04-15 | title = Structural Variants of Transthyretin | journal = To be published | volume = | pages...

1 June 2021

• 11:3911:39, 1 June 2021 diff hist −5 m File:P35 structure by Fisher 1999, PDB 1P35.jpg fixed wikilink current
• 11:3911:39, 1 June 2021 diff hist +23 File:P35 structure by Fisher 1999, PDB 1P35.jpg ‎Edited [en] caption: Structure of the baculoviral protein P35 (Early 35 kDa protein)
• 11:3811:38, 1 June 2021 diff hist +99 File:P35 structure by Fisher 1999, PDB 1P35.jpg ‎Added [en] caption: Structure of the baculoviral protein P35

12 March 2019

• 13:2213:22, 12 March 2019 diff hist +4,734 N File:Chaussenot's Rosin Gas Apparatus 1829.png == {{int:filedesc}} == {{Information |description= {{de|Querschnitt eines Apparats zur Gewinnung von {{wd|Harzgas}} aus {{wd|Kolophonium}}, der im Jahr 1829 von Henry Bernard Chaussenot patentiert wurde.}} {{en|Schematic cross-section of an apparatus for the generation of {{w|rosin gas}} from {{w|colophonium}} (rosin) as patented in 1929 by Henry Bernard Chaussenot.}} '''Ürsprüngliche Beschreibung:''' "Die Figur [...] ist der Harzgasapparat von Chaussenot. Der Zug des Feuerraumes '''P''' wird...

8 January 2019

• 12:4712:47, 8 January 2019 diff hist +28 File:Daniell's Rosin Gas Apparatus 1829.png →{{int:filedesc}}: The apparent mislabelling of the syphon l as b was already present in the original description
• 12:4612:46, 8 January 2019 diff hist +28 File:Daniell's Rosin Gas Apparatus 1829 Fig. 2.png The apparent mislabelling of the syphon l as b was already present in the original description

7 January 2019

• 15:3715:37, 7 January 2019 diff hist +162 File:Daniell's Rosin Gas Apparatus 1829.png Added link to cropped version of the image
• 15:3515:35, 7 January 2019 diff hist +3,409 N File:Daniell's Rosin Gas Apparatus 1829 Fig. 2.png == {{int:filedesc}} == {{Information |description= {{de|Querschnitt eines Apparats zur Gewinnung von {{wd|Harzgas}} aus {{wd|Kolophonium}}, der im Jahr 1828 von {{wd|John Frederic Daniell}} patentiert wurde. Ein Prototyp des Apparats wurde im gleichen Jahr an der ''London Institution'' durch John Martineau und {{wd|Philip Taylor}} errichtet.}} {{en|Schematic cross-section of an apparatus for the generation of {{w|rosin gas}} from {{w|colophonium}} (rosin) as patented in 1928 by {{w|John Frede...
• 15:2715:27, 7 January 2019 diff hist +17 File:Daniell's Rosin Gas Apparatus 1829.png →{{int:filedesc}}: Added Template:PD-US-expired

6 January 2019

• 22:3922:39, 6 January 2019 diff hist +3,638 N File:Daniell's Rosin Gas Apparatus 1829.png {{Information |description= {{de|Skizze eines Apparats zur Gewinnung von {{wd|Harzgas}} aus {{wd|Kolophonium}}, der im Jahr 1828 von {{wd|John Frederic Daniell}} patentiert wurde. Ein Prototyp des Apparats wurde im gleichen Jahr an der ''London Institution'' durch John Martineau und {{wd|Philip Taylor}} errichtet.}} {{en|Schematic of an apparatus for the generation of {{w|rosin gas}} from {{w|colophonium}} (rosin) as patented in 1928 by {{w|John Frederic Daniell}}. A prototype of this apparat...

8 December 2018

• 23:0823:08, 8 December 2018 diff hist +676 N File:Selinexor.svg == {{int:filedesc}} == {{Information |description={{en|1=Skeletal formula of the anti-cancer drug {{w|Selinexor}} (KPT-330). Created using ChemBioDraw v12.0 and CorelDraw v17.2.}} {{de|1=Skelettformel des Medikaments {{wd|Selinexor}} (KPT-330). Erstellt mit ChemBioDraw v12.0 und CorelDraw v17.2.}} |source=Own work, created using the canonical {{w|SMILES}} from https://pubchem.ncbi.nlm.nih.gov/compound/Selinexor |author={{user|Shinryuu}} |date=2018-12-08 |permission={{PD-chem}} |other fields={...

25 June 2018

• 10:1010:10, 25 June 2018 diff hist +41 User talk:Shinryuu →Kategorien
• 10:0510:05, 25 June 2018 diff hist +313 User talk:Shinryuu →Kategorien

8 March 2018

• 10:3910:39, 8 March 2018 diff hist +43 m File:MEF cell mitochondria 2.jpg added Category:Fluorescent microscope images Tag: HotCat

7 March 2018

• 15:2315:23, 7 March 2018 diff hist +168 Commons:Quality images candidates/candidate list →Nominations: nominated File:MEF cell mitochondria 2.jpg
• 15:1915:19, 7 March 2018 diff hist +228 Commons:Quality images candidates/candidate list →March 7, 2018: Reviewed two entries
• 15:0315:03, 7 March 2018 diff hist +98 m File:MEF cell mitochondria.jpg Added link to other version of the image
• 15:0215:02, 7 March 2018 diff hist +1,078 N File:MEF cell mitochondria 2.jpg {{Information |description = {{de|{{wd|Fluoreszenzmikroskopie|Fluoreszenzmikroskopisches}} Bild der {{wd|Mitochondrien}} (rot) und des {{wd|Zellkern}}s (blau) zweier {{wd|MEF-Zellen}}. Die Mitochondrien wurden mittles eines rot {{wd|Fluoreszenz|fluoreszierenden}} {{wd|Protein}}s angefärbt, der Zellkern mittels des Farbstoffs {{wd|DAPI}}.}} {{en|{{w|Fluorescent microscopy}} image of the {{w|mitochondria}} (red) and {{w|cell nucleus}} (blue) of two {{w|Mouse embryonic fibroblast|MEF}} cells. The mitochondria were stained with a {{w|DsRed}} derivative that localises to the {{w|mitochondrial matrix}}, and the nucleus was stained with {{w|DAPI}}.}} |date = {{Date|2018|03|07}} |source = {{own}} |author = Institute of Molecular Medicine I, {{w|University of Düsseldorf}} |permission = {{self|CC-BY-4.0}} |other versions = {{Other|MEF cell mitochondria.jpg|Same image with a scale bar in the bottom right corner|suppress=yes}} }} Category:Mitochondria [[Cate...
• 14:4614:46, 7 March 2018 diff hist +956 N File:MEF cell mitochondria.jpg {{Information |description = {{de|{{wd|Fluoreszenzmikroskopie|Fluoreszenzmikroskopisches}} Bild der {{wd|Mitochondrien}} (rot) und des {{wd|Zellkern}}s (blau) zweier {{wd|MEF-Zellen}}. Die Mitochondrien wurden mittles eines rot {{wd|Fluoreszenz|fluoreszierenden}} {{wd|Protein}}s angefärbt, der Zellkern mittels des Farbstoffs {{wd|DAPI}}.}} {{en|{{w|Fluorescent microscopy}} image of the {{w|mitochondria}} (red) and {{w|cell nucleus}} (blue) of two {{w|Mouse embryonic fibroblast|MEF}} cells. The mitochondria were stained with a {{w|DsRed}} derivative that localises to the {{w|mitochondrial matrix}}, and the nucleus was stained with {{w|DAPI}}.}} |date = {{Date|2018|03|07}} |source = {{own}} |author = Institute of Molecular Medicine I, {{w|University of Düsseldorf}} |permission = {{self|CC-BY-4.0}} }} Category:Mitochondria Category:Fluorescence microscopy Category:Cell biology

3 March 2018

• 09:4509:45, 3 March 2018 diff hist +1 m File:Black coral with snake star.jpg →{{int:filedesc}}: fixed typo in wikilink

22 February 2018

• 15:3515:35, 22 February 2018 diff hist +1,309 N File:Dicerandrol C structure.svg {{Information |Description={{en|1=Skeletal formula of the natural product {{w|dicerandrol C}}. Created using ChemBioDraw v12.0 and CorelDraw v17.2.}} {{de|1=Skelettformel des Naturstoffs Dicerandrol C. Erstellt mit ChemBioDraw v12.0 und CorelDraw v17.2.}} |Source=Own work, derived from the structures presented in: - {{cite journal | last = Wagenaar et al. | title = Dicerandrols, New Antibiotic and Cytotoxic Dimers Produced by the Fungus ''Phomopsis longicolla'' Isolated from an Endangered Mint | journal = Journal of Natural Products | volume = 64 | issue = 8 | pages = 1006 | doi = 10.1021/np010020u | pmid = 11520215 | year = 2001}} - {{cite journal | last = Rönsberg et al. | year = 2013 | title = Pro-Apoptotic and Immunostimulatory Tetrahydroxanthone Dimers from the Endophytic Fungus ''Phomopsis longicolla'' | journal = Journal of Organic Chemistry | volume = 78 | issue = 24 | pages = 12409 | doi = 10.1021/jo402066b | pmid = 24295452}} |Author={{user|Shinryuu}} |Date=2018-02-22 |Per...

21 February 2018

• 12:2112:21, 21 February 2018 diff hist −26 File:Mitochondrial OMM and matrix in DRP1-KO cells after PXA.png This is not a MEF cell but a HeLa cell.
• 12:2012:20, 21 February 2018 diff hist −26 File:Mitochondrial OMM and matrix in DRP1-KO cells.png This is not a MEF cell but a HeLa cell.
• 12:1812:18, 21 February 2018 diff hist +1,688 N File:Mitochondrial OMM and matrix in MEF DRP1-KO CCCP.png {{Information |Description={{en|{{w|Fluorescent microscopy}} image of the {{w|mitochondria}} of a {{w|Mouse embryonic fibroblast|MEF}} cell in which the gene ''{{w|DRP1}}'' has been {{w|Gene knockout|knocked out}}. Even though the cell has been treated with {{w|Carbonyl cyanide m-chlorophenyl hydrazone|carbonyl cyanide ''m''-chlorophenyl hydrazone}} (CCCP) for 30 min, which would normally induce mitochondrial fragmentation via excessive {{w|mitochondrial fission}}, the lack of DRP1 prevents this effect and the mitochondria remain tubular. The image is an overlay of two images: the {{w|outer mitochondrial membrane}} (stained via {{w|TOMM20}} and shown in red) and the {{w|mitochondrial matrix}} (stained via {{w|HSP60}} and shown in green). Scale bar equivalent to 10 µm.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, D...
• 12:1512:15, 21 February 2018 diff hist +1,491 N File:Mitochondrial OMM and matrix in MEF WT CCCP.png {{Information |Description={{en|{{w|Fluorescent microscopy}} image of the {{w|mitochondria}} of a {{w|Mouse embryonic fibroblast|MEF}} cell after treatment with {{w|Carbonyl cyanide m-chlorophenyl hydrazone|carbonyl cyanide ''m''-chlorophenyl hydrazone}} (CCCP) for 30 min. The mitochondrial network has fragmented via {{w|mitochondrial fission}}. The image is an overlay of two images: the {{w|outer mitochondrial membrane}} (stained via {{w|TOMM20}} and shown in red) and the {{w|mitochondrial matrix}} (stained via {{w|HSP60}} and shown in green). Scale bar equivalent to 10 µm.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, Deitersen J, Wallot-Hieke N, Wu W, Frank M, Niemann H, Wesbuer E, Barbian A, Luyten T, Parys JB, Weidtkamp-Peters S, Borchardt A, Reichert AS, Peña-Blanco A, García-Sáez AJ, Itskanov S, van der Blie...
• 12:1012:10, 21 February 2018 diff hist +1,284 N File:Mitochondrial OMM and matrix in MEF WT CTRL.png {{Information |Description={{en|{{w|Fluorescent microscopy}} image of the {{w|mitochondria}} of a {{w|Mouse embryonic fibroblast|MEF}} cell. The image is an overlay of two images: the {{w|outer mitochondrial membrane}} (stained via {{w|TOMM20}} and shown in red) and the {{w|mitochondrial matrix}} (stained via {{w|HSP60}} and shown in green). Scale bar equivalent to 10 µm.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, Deitersen J, Wallot-Hieke N, Wu W, Frank M, Niemann H, Wesbuer E, Barbian A, Luyten T, Parys JB, Weidtkamp-Peters S, Borchardt A, Reichert AS, Peña-Blanco A, García-Sáez AJ, Itskanov S, van der Bliek AM, Proksch P, Wesselborg S, Stork B. | date = 2018 | title = The mycotoxin phomoxanthone A disturbs the form and function of the inner mitochondrial membrane | journal = Cell Death & Disease | volume = 9 ...
• 12:0012:00, 21 February 2018 diff hist +1,554 N File:Mitochondrial dynamics after PXA treatment.webm {{Information |Description={{en|{{w|Fluorescent microscopy}} {{w|live cell imaging}} time lapse video of the {{w|mitochondrial fission}} and {{w|mitochondrial fusion}} dynamics of a {{w|Mouse embryonic fibroblast|MEF}} cell after treatment with the mycotoxin {{w|phomoxanthone A}} (PXA). The real time is displayed in the top right corner. The mitochondria were stained with a {{w|DsRed}} derivative that localises to the {{w|mitochondrial matrix}}. Fragmentation of the mitochondrial network structure is visible as early as about 1 min after treatment.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, Deitersen J, Wallot-Hieke N, Wu W, Frank M, Niemann H, Wesbuer E, Barbian A, Luyten T, Parys JB, Weidtkamp-Peters S, Borchardt A, Reichert AS, Peña-Blanco A, García-Sáez AJ, Itskanov S, van der Bliek AM, Proksch P, Wesselborg...
• 11:5711:57, 21 February 2018 diff hist +1,386 N File:Mitochondrial dynamics in a MEF cell.webm {{Information |Description={{en|{{w|Fluorescent microscopy}} {{w|live cell imaging}} time lapse video of the {{w|mitochondrial fission}} and {{w|mitochondrial fusion}} dynamics of a {{w|Mouse embryonic fibroblast|MEF}} cell. The real time is displayed in the top right corner. The mitochondria were stained with a {{w|DsRed}} derivative that localises to the {{w|mitochondrial matrix}}.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, Deitersen J, Wallot-Hieke N, Wu W, Frank M, Niemann H, Wesbuer E, Barbian A, Luyten T, Parys JB, Weidtkamp-Peters S, Borchardt A, Reichert AS, Peña-Blanco A, García-Sáez AJ, Itskanov S, van der Bliek AM, Proksch P, Wesselborg S, Stork B. | date = 2018 | title = The mycotoxin phomoxanthone A disturbs the form and function of the inner mitochondrial membrane | journal = Cell Death & Disease |...
• 11:5011:50, 21 February 2018 diff hist +171 File:Phomoxanthone A effect on mitochondria in a HeLa cell.webm + 5 categories using HotCat
• 11:4811:48, 21 February 2018 diff hist +28 m File:Phomoxanthone A effect on mitochondria in a HeLa cell.webm added Category:Phomoxanthone Tag: HotCat
• 11:4711:47, 21 February 2018 diff hist +1,360 N File:Phomoxanthone A effect on mitochondria in a HeLa cell.webm {{Information |Description={{en|{{w|Fluorescent microscopy}} {{w|live cell imaging}} video of the {{w|mitochondria}} of a {{w|HeLa}} cell after treatment with the mycotoxin {{w|phomoxanthone A}} (PXA). The real time between the capture of each individual image was about 20 sec, i.e. the whole video is a time lapse of about 2 min of real time. The mitochondria were stained with a {{w|DsRed}} derivative that localises to the {{w|mitochondrial matrix}}. Fragmentation of the mitochondrial network structure is visible as early as about 1 min after treatment.}} |Source=[https://www.nature.com/articles/s41419-018-0312-8 Böhler et al. (2018)] |Date={{Date|2018|02|19}} |Author={{cite journal | authors = Böhler P, Stuhldreier F, Anand R, Kondadi AK, Schlütermann D, Berleth N, Deitersen J, Wallot-Hieke N, Wu W, Frank M, Niemann H, Wesbuer E, Barbian A, Luyten T, Parys JB, Weidtkamp-Peters S, Borchardt A, Reichert AS, Peña-Blanco A, García-Sáez AJ, Itskanov S, van der Bliek AM, Proksch P, Wesse...
• 11:3411:34, 21 February 2018 diff hist +57 Category:Phomoxanthones +Category:Phomopsis; +Category:Phomopsis longicolla Tag: HotCat
• 11:3411:34, 21 February 2018 diff hist −27 m Category:Phomopsis removed Category:Phomoxanthone Tag: HotCat
• 11:3311:33, 21 February 2018 diff hist +27 m Category:Phomopsis added Category:Phomoxanthone Tag: HotCat
• 11:3211:32, 21 February 2018 diff hist +57 File:Phomoxanthone B structure.svg +Category:Phomopsis; +Category:Phomopsis longicolla Tag: HotCat
• 11:3111:31, 21 February 2018 diff hist +34 m File:Phomoxanthone A structure.svg added Category:Phomopsis longicolla Tag: HotCat
• 11:3111:31, 21 February 2018 diff hist +23 m File:Phomoxanthone A structure.svg added Category:Phomopsis Tag: HotCat
• 11:3011:30, 21 February 2018 diff hist +23 m File:Phomopsis longicolla2.tif added Category:Phomopsis Tag: HotCat