Unearthing answers to the genetic code in age-related macular degeneration https://t.co/Sf6363H7kv https://t.co/xGtvgeKjtm
RT @NEIDirector: Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with m…
RT @NEIDirector: Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with m…
RT @NEIDirector: Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with m…
RT @NEIDirector: Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with m…
RT @NEIDirector: Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with m…
Interesting study from Australia: Mutations in POLDIP2 help drive age-related macular degeneration by interfering with mitochondrial function in retinal cells & triggering inflammatory responses. @EyeandEarHosp @UniMelb @UTAS_ @uwanews @AgingJrnl:
Knockout of AMD-associated gene POLDIP2 reduces mitochondrial superoxide in #retinalcells https://t.co/Sf6363H7kv https://t.co/i1uxSygkCx
Knockout of AMD-associated gene POLDIP2 reduces mitochondrial superoxide in human retinal pig... https://t.co/exBGW5ZEJl
Knockout of AMD-associated gene POLDIP2 reduces mitochondrial superoxide in human retinal pigment epithelial cells https://t.co/IzaBPnOvQm https://t.co/8M2ZCBJkLs
Knockout of AMD-associated gene POLDIP2 reduces mitochondrial superoxide in human retinal pigment epithelial cells https://t.co/u29xuXbQao https://t.co/32Nlo7sq6x