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OrthoID: profiling dynamic proteomes through time and space using mutually orthogonal chemical tools.

Ara LeeGihyun SungSanghee ShinSong-Yi LeeJaehwan SimTruong Thi My NhungTran Diem NghiSang Ki ParkPonnusamy Pon SathieshkumarImkyeung KangJi Young MunJong-Seo KimHyun-Woo RheeKyeng Min ParkKimoon Kim
Published in: Nature communications (2024)
Identifying proteins at organelle contact sites, such as mitochondria-associated endoplasmic reticulum membranes (MAM), is essential for understanding vital cellular processes, yet challenging due to their dynamic nature. Here we report "OrthoID", a proteomic method utilizing engineered enzymes, TurboID and APEX2, for the biotinylation (Bt) and adamantylation (Ad) of proteins close to the mitochondria and endoplasmic reticulum (ER), respectively, in conjunction with high-affinity binding pairs, streptavidin-biotin (SA-Bt) and cucurbit[7]uril-adamantane (CB[7]-Ad), for selective orthogonal enrichment of Bt- and Ad-labeled proteins. This approach effectively identifies protein candidates associated with the ER-mitochondria contact, including LRC59, whose roles at the contact site were-to the best of our knowledge-previously unknown, and tracks multiple protein sets undergoing structural and locational changes at MAM during mitophagy. These findings demonstrate that OrthoID could be a powerful proteomics tool for the identification and analysis of spatiotemporal proteins at organelle contact sites and revealing their dynamic behaviors in vital cellular processes.
Keyphrases
  • endoplasmic reticulum
  • mass spectrometry
  • protein protein
  • amino acid
  • single cell
  • label free
  • cell death
  • small molecule
  • reactive oxygen species