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Report generated on 02/04/2025 13:54:02
omni was referenced in 23 papers
gif_walk was referenced in 1 papers
iri was referenced in 4 papers
international reference ionosphere was referenced in 1 papers
hdp was referenced in 4 papers
2 of 3081 possible papers ( 0% ) contained references to SPDF keywords
Authors=Li, Yaxu; Ran, Qiao; Duan, Qiuhui; Jin, Jiali; Wang, Yanjin; Yu, Lei; Wang, Chaojie; Zhu, Zhenyun; Chen, Xin; Weng, Linjun; Li, Zan; Wang, Jia; Wu, Qi; Wang, Hui; Tian, Hongling; Song, Sihui; Shan, Zezhi; Zhai, Qiwei; Qin, Huanlong; Chen, Shili; Fang, Lan; Yin, Huiyong; Zhou, Hu; Jiang, Xuejun; Wang, Ping
Title=7-Dehydrocholesterol dictates ferroptosis sensitivity, 2024, doi:10.1038/s41586-023-06983-9, ID=27091234
journal=Nature
Keywords found:iri
Sample usage ( ACK ) =Zhai for sharing information of the kidney IRI model; and H. Li for technical help. This study was supported by the National Key Research and Development Program of China (2022YFC3401500, 2021YFA1302200 and 2020YFA0803201), grants from the National Natural Science Foundation of China (31830053, 31920103007, 82341028, 82122056, 82073155, 82073153, 32030053, 22207084 and 32150710522), the Shanghai Sailing Program (22YF1433500), Shanghai Municipal Health Commission (20204Y0033), the Fundamental Research Funds for the Central Universities (22120220616 and PA2023000692), the fund from City University of Hong Kong (9380154, 7006046) and the Shanghai Rising-Star Program (23QA1407500).
Sample usage ( BODY ) =At this stage, we cannot rule out the possibility that metastasis promoted by 7-DHC may occur through a more complex mechanism, in addition to ferroptosis inhibition. 7-DHC protects the kidneys from IRI Ferroptosis has been implicated as the major form of cell death in IRI 5 , 6 .
Sample usage ( ABSTRACT ) =Ferroptosis, a form of regulated cell death that is driven by iron-dependent phospholipid peroxidation, has been implicated in multiple diseases, including cancer1-3, degenerative disorders4 and organ ischaemia-reperfusion injury (IRI)5,6. Here, using genome-wide CRISPR-Cas9 screening, we identified that the enzymes involved in distal cholesterol biosynthesis have pivotal yet opposing roles in regulating ferroptosis through dictating the level of 7-dehydrocholesterol (7-DHC)—an intermediate metabolite of distal cholesterol biosynthesis that is synthesized by sterol C5-desaturase (SC5D) and metabolized by 7-DHC reductase (DHCR7) for cholesterol synthesis.
Authors=Collinson, Glyn A.; Glocer, Alex; Pfaff, Robert; Barjatya, Aroh; Conway, Rachel; Breneman, Aaron; Clemmons, James; Eparvier, Francis; Michell, Robert; Mitchell, David; Imber, Suzie; Akbari, Hassanali; Davis, Lance; Kavanagh, Andrew; Robertson, Ellen; Swanson, Diana; Xu, Shaosui; Miller, Jacob; Cameron, Timothy; Chornay, Dennis; Uribe, Paulo; Nguyen, Long; Clayton, Robert; Graves, Nathan; Debchoudhury, Shantanab; Valentine, Henry; Ghalib, Ahmed; The Endurance Mission Team; Adkins, S.; Akbari, H.; Albano, R.; Baddeley, L.; Bahr, H.; Bain, G.; Bancroft, C.; Barjatya, A.; Barrie, A.; Binder, M.; Bissett, S.; Blix, K.; Bolton, A.; Bonsteel, B.; Borgen, H.; Bowden, D.; Bowker, D.; Bowlen, E.; Bradshaw, M.; Breneman, A.; Bridges, G.; Cameron, T.; Campbell, M.; Cathell, P.; Chornay, D.; Clayton, R.; Clemmons, J.; Collinson, G.; Conser, L.; Conway, R.; Davis, L.; Debchoudhury, S.; Demaine, P.; Detwiler, D.; Disbrow, M.; Doughty, J.; Eilertsen, L.; Ellis, S.; Eparvier, F.; Ethridge, R.; Fahringer, R.; Farrell, J.; Francheshini, M.; Frost, C.; Gass, T.; Ghalib, A.; Glocer, A.; Grabusky, C.; Graves, N.; Haggstrom, I.; Hanssen, P.; Harlan, G.; Harper, T.; Haugh, H.; Helgesen, E.; Henderson, J.; Henderson, D.; Herseth, K.; Imber, S.; Jensen, K.; Jester, T.; Jillard, R.; Johnson, E.; Johnson, H.; Jones, G.; Jones, T.; Kavanagh, A.; King, M.; Knight, D.; Laman, R.; Lankford, T.; Lien, R.; Lotz, P.; Maimone, M.; Marsh, G.; Marshall, R.; Martin, S.; McFaden, T.; Michell, R.; Mitchell, D.; Moffett, M.; Morris, N.; Mueseler, A.; Nelson, C.; Nguyen, L.; Ogundere, W.; Osbakk, K.; Page, D.; Paschalidis, N.; Pfaff, R.; Pirner, C.; Pittman, E.; Polidan, J.; Puopolo, D.; Raley, D.; Rawlings, Z.; Ribbens, P.; Robertson, E.; Rodriguez, S.; Rosanova, G.; Rose, B.; Rosnack, T.; Russell, T.; Samara, M.; Serabian, B.; Sherman, T.; Simonsen, R.; Snyder, T.; Soreng, J.; Sutton, V.; Sveen, J.; Swanson, D.; Swift, R.; Taylor, W.; Terwiliger, R.; Tiede, S.; Tucker, C.; Uribe, P.; Valentine, H.; Wallace, M.; Waters, F.; West, L.; West, B.; Wilson, T.; Wroblewski, N.; Xu, S.; Zarro, D.; Zesta, E.
Title=Earth’s ambipolar electrostatic field and its role in ion escape to space, 2024, doi:10.1038/s41586-024-07480-3, ID=30744082
journal=Nature
Keywords found:iri, international reference ionosphere
Sample usage ( BODY ) =The black dotted lines show a prediction by the IRI empirical model. Dashed red lines show how the ionosphere of Earth should fall off according to a classical hydrostatic equilibrium in which gravity is the only controlling force.
Sample usage ( BODY ) =The latter (Fig. 3c,d , solid blue line) matches closely with the density profile from (1) in situ measurement by the SLP instrument (orange region), (2) simultaneous remote sensing by EISCAT radar (green region) (Extended Data Fig. 6 ) and is in good agreement with (3) the prediction by the International Reference Ionosphere (IRI) model (black dotted line). This close agreement gives an additional cross-check on the interpretation of the photoelectron peak shift as resulting from an ambipolar electric field.
