[1]CurrentPatentAssignee:TOHOKUUNIVERSITY-US2015/353489,2015,A1Locationinpatent:Paragraph0125;0126
[2]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2019/224165,2019,A1Locationinpatent:Paragraph0093;0094;0104-0105
[3]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2022/106270,2022,A1Locationinpatent:Paragraph0084-0085;0096-0097
[4]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2022/106270,2022,A1Locationinpatent:Paragraph0084-0085;0096-0097
[5]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2022/106270,2022,A1
[1]CurrentPatentAssignee:TOHOKUUNIVERSITY-US2015/353489,2015,A1
[2]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2019/224165,2019,A1CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2022/106270,2022,A1
[3]CurrentPatentAssignee:TOHOKUUNIVERSITY;KAKEEDUCATIONALINSTITUTION-US2022/106270,2022,A1
Title: Suzuki T, et al. Mitochonic Acid 5 Binds Mitochondria and Ameliorates Renal Tubular and Cardiac Myocyte Damage. J Am Soc Nephrol. 2016 Jul;27(7):1925-32.
Title: Lei Q, et al. Mitochonic acid 5 activates the MAPK-ERK-yap signaling pathways to protect mouse microglial BV-2 cells against TNFα-induced apoptosis via increased Bnip3-related mitophagy. Cell Mol Biol Lett. 2018 Apr 5;23:14.